Google Cloud Native is in preview. Google Cloud Classic is fully supported.
google-native.container/v1.Cluster
Explore with Pulumi AI
Google Cloud Native is in preview. Google Cloud Classic is fully supported.
Creates a cluster, consisting of the specified number and type of Google Compute Engine instances. By default, the cluster is created in the project’s default network. One firewall is added for the cluster. After cluster creation, the Kubelet creates routes for each node to allow the containers on that node to communicate with all other instances in the cluster. Finally, an entry is added to the project’s global metadata indicating which CIDR range the cluster is using.
Create Cluster Resource
Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.
Constructor syntax
new Cluster(name: string, args?: ClusterArgs, opts?: CustomResourceOptions);
@overload
def Cluster(resource_name: str,
args: Optional[ClusterArgs] = None,
opts: Optional[ResourceOptions] = None)
@overload
def Cluster(resource_name: str,
opts: Optional[ResourceOptions] = None,
addons_config: Optional[AddonsConfigArgs] = None,
authenticator_groups_config: Optional[AuthenticatorGroupsConfigArgs] = None,
autopilot: Optional[AutopilotArgs] = None,
autoscaling: Optional[ClusterAutoscalingArgs] = None,
binary_authorization: Optional[BinaryAuthorizationArgs] = None,
cluster_ipv4_cidr: Optional[str] = None,
conditions: Optional[Sequence[StatusConditionArgs]] = None,
confidential_nodes: Optional[ConfidentialNodesArgs] = None,
cost_management_config: Optional[CostManagementConfigArgs] = None,
database_encryption: Optional[DatabaseEncryptionArgs] = None,
default_max_pods_constraint: Optional[MaxPodsConstraintArgs] = None,
description: Optional[str] = None,
enable_k8s_beta_apis: Optional[K8sBetaAPIConfigArgs] = None,
enable_kubernetes_alpha: Optional[bool] = None,
enable_tpu: Optional[bool] = None,
enterprise_config: Optional[EnterpriseConfigArgs] = None,
etag: Optional[str] = None,
fleet: Optional[FleetArgs] = None,
identity_service_config: Optional[IdentityServiceConfigArgs] = None,
initial_cluster_version: Optional[str] = None,
initial_node_count: Optional[int] = None,
instance_group_urls: Optional[Sequence[str]] = None,
ip_allocation_policy: Optional[IPAllocationPolicyArgs] = None,
legacy_abac: Optional[LegacyAbacArgs] = None,
location: Optional[str] = None,
locations: Optional[Sequence[str]] = None,
logging_config: Optional[LoggingConfigArgs] = None,
logging_service: Optional[str] = None,
maintenance_policy: Optional[MaintenancePolicyArgs] = None,
master_auth: Optional[MasterAuthArgs] = None,
master_authorized_networks_config: Optional[MasterAuthorizedNetworksConfigArgs] = None,
mesh_certificates: Optional[MeshCertificatesArgs] = None,
monitoring_config: Optional[MonitoringConfigArgs] = None,
monitoring_service: Optional[str] = None,
name: Optional[str] = None,
network: Optional[str] = None,
network_config: Optional[NetworkConfigArgs] = None,
network_policy: Optional[NetworkPolicyArgs] = None,
node_config: Optional[NodeConfigArgs] = None,
node_pool_auto_config: Optional[NodePoolAutoConfigArgs] = None,
node_pool_defaults: Optional[NodePoolDefaultsArgs] = None,
node_pools: Optional[Sequence[NodePoolArgs]] = None,
notification_config: Optional[NotificationConfigArgs] = None,
parent: Optional[str] = None,
parent_product_config: Optional[ParentProductConfigArgs] = None,
private_cluster_config: Optional[PrivateClusterConfigArgs] = None,
project: Optional[str] = None,
release_channel: Optional[ReleaseChannelArgs] = None,
resource_labels: Optional[Mapping[str, str]] = None,
resource_usage_export_config: Optional[ResourceUsageExportConfigArgs] = None,
security_posture_config: Optional[SecurityPostureConfigArgs] = None,
shielded_nodes: Optional[ShieldedNodesArgs] = None,
subnetwork: Optional[str] = None,
vertical_pod_autoscaling: Optional[VerticalPodAutoscalingArgs] = None,
workload_identity_config: Optional[WorkloadIdentityConfigArgs] = None,
zone: Optional[str] = None)
func NewCluster(ctx *Context, name string, args *ClusterArgs, opts ...ResourceOption) (*Cluster, error)
public Cluster(string name, ClusterArgs? args = null, CustomResourceOptions? opts = null)
public Cluster(String name, ClusterArgs args)
public Cluster(String name, ClusterArgs args, CustomResourceOptions options)
type: google-native:container/v1:Cluster
properties: # The arguments to resource properties.
options: # Bag of options to control resource's behavior.
Parameters
- name string
- The unique name of the resource.
- args ClusterArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- resource_name str
- The unique name of the resource.
- args ClusterArgs
- The arguments to resource properties.
- opts ResourceOptions
- Bag of options to control resource's behavior.
- ctx Context
- Context object for the current deployment.
- name string
- The unique name of the resource.
- args ClusterArgs
- The arguments to resource properties.
- opts ResourceOption
- Bag of options to control resource's behavior.
- name string
- The unique name of the resource.
- args ClusterArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- name String
- The unique name of the resource.
- args ClusterArgs
- The arguments to resource properties.
- options CustomResourceOptions
- Bag of options to control resource's behavior.
Constructor example
The following reference example uses placeholder values for all input properties.
var exampleclusterResourceResourceFromContainerv1 = new GoogleNative.Container.V1.Cluster("exampleclusterResourceResourceFromContainerv1", new()
{
AddonsConfig = new GoogleNative.Container.V1.Inputs.AddonsConfigArgs
{
CloudRunConfig = new GoogleNative.Container.V1.Inputs.CloudRunConfigArgs
{
Disabled = false,
LoadBalancerType = GoogleNative.Container.V1.CloudRunConfigLoadBalancerType.LoadBalancerTypeUnspecified,
},
ConfigConnectorConfig = new GoogleNative.Container.V1.Inputs.ConfigConnectorConfigArgs
{
Enabled = false,
},
DnsCacheConfig = new GoogleNative.Container.V1.Inputs.DnsCacheConfigArgs
{
Enabled = false,
},
GcePersistentDiskCsiDriverConfig = new GoogleNative.Container.V1.Inputs.GcePersistentDiskCsiDriverConfigArgs
{
Enabled = false,
},
GcpFilestoreCsiDriverConfig = new GoogleNative.Container.V1.Inputs.GcpFilestoreCsiDriverConfigArgs
{
Enabled = false,
},
GcsFuseCsiDriverConfig = new GoogleNative.Container.V1.Inputs.GcsFuseCsiDriverConfigArgs
{
Enabled = false,
},
GkeBackupAgentConfig = new GoogleNative.Container.V1.Inputs.GkeBackupAgentConfigArgs
{
Enabled = false,
},
HorizontalPodAutoscaling = new GoogleNative.Container.V1.Inputs.HorizontalPodAutoscalingArgs
{
Disabled = false,
},
HttpLoadBalancing = new GoogleNative.Container.V1.Inputs.HttpLoadBalancingArgs
{
Disabled = false,
},
KubernetesDashboard = new GoogleNative.Container.V1.Inputs.KubernetesDashboardArgs
{
Disabled = false,
},
NetworkPolicyConfig = new GoogleNative.Container.V1.Inputs.NetworkPolicyConfigArgs
{
Disabled = false,
},
},
AuthenticatorGroupsConfig = new GoogleNative.Container.V1.Inputs.AuthenticatorGroupsConfigArgs
{
Enabled = false,
SecurityGroup = "string",
},
Autopilot = new GoogleNative.Container.V1.Inputs.AutopilotArgs
{
Enabled = false,
WorkloadPolicyConfig = new GoogleNative.Container.V1.Inputs.WorkloadPolicyConfigArgs
{
AllowNetAdmin = false,
},
},
Autoscaling = new GoogleNative.Container.V1.Inputs.ClusterAutoscalingArgs
{
AutoprovisioningLocations = new[]
{
"string",
},
AutoprovisioningNodePoolDefaults = new GoogleNative.Container.V1.Inputs.AutoprovisioningNodePoolDefaultsArgs
{
BootDiskKmsKey = "string",
DiskSizeGb = 0,
DiskType = "string",
ImageType = "string",
InsecureKubeletReadonlyPortEnabled = false,
Management = new GoogleNative.Container.V1.Inputs.NodeManagementArgs
{
AutoRepair = false,
AutoUpgrade = false,
UpgradeOptions = null,
},
OauthScopes = new[]
{
"string",
},
ServiceAccount = "string",
ShieldedInstanceConfig = new GoogleNative.Container.V1.Inputs.ShieldedInstanceConfigArgs
{
EnableIntegrityMonitoring = false,
EnableSecureBoot = false,
},
UpgradeSettings = new GoogleNative.Container.V1.Inputs.UpgradeSettingsArgs
{
BlueGreenSettings = new GoogleNative.Container.V1.Inputs.BlueGreenSettingsArgs
{
NodePoolSoakDuration = "string",
StandardRolloutPolicy = new GoogleNative.Container.V1.Inputs.StandardRolloutPolicyArgs
{
BatchNodeCount = 0,
BatchPercentage = 0,
BatchSoakDuration = "string",
},
},
MaxSurge = 0,
MaxUnavailable = 0,
Strategy = GoogleNative.Container.V1.UpgradeSettingsStrategy.NodePoolUpdateStrategyUnspecified,
},
},
AutoscalingProfile = GoogleNative.Container.V1.ClusterAutoscalingAutoscalingProfile.ProfileUnspecified,
EnableNodeAutoprovisioning = false,
ResourceLimits = new[]
{
new GoogleNative.Container.V1.Inputs.ResourceLimitArgs
{
Maximum = "string",
Minimum = "string",
ResourceType = "string",
},
},
},
BinaryAuthorization = new GoogleNative.Container.V1.Inputs.BinaryAuthorizationArgs
{
EvaluationMode = GoogleNative.Container.V1.BinaryAuthorizationEvaluationMode.EvaluationModeUnspecified,
},
ClusterIpv4Cidr = "string",
Conditions = new[]
{
new GoogleNative.Container.V1.Inputs.StatusConditionArgs
{
CanonicalCode = GoogleNative.Container.V1.StatusConditionCanonicalCode.Ok,
Message = "string",
},
},
ConfidentialNodes = new GoogleNative.Container.V1.Inputs.ConfidentialNodesArgs
{
Enabled = false,
},
CostManagementConfig = new GoogleNative.Container.V1.Inputs.CostManagementConfigArgs
{
Enabled = false,
},
DatabaseEncryption = new GoogleNative.Container.V1.Inputs.DatabaseEncryptionArgs
{
KeyName = "string",
State = GoogleNative.Container.V1.DatabaseEncryptionState.Unknown,
},
DefaultMaxPodsConstraint = new GoogleNative.Container.V1.Inputs.MaxPodsConstraintArgs
{
MaxPodsPerNode = "string",
},
Description = "string",
EnableK8sBetaApis = new GoogleNative.Container.V1.Inputs.K8sBetaAPIConfigArgs
{
EnabledApis = new[]
{
"string",
},
},
EnableKubernetesAlpha = false,
EnableTpu = false,
EnterpriseConfig = null,
Etag = "string",
Fleet = new GoogleNative.Container.V1.Inputs.FleetArgs
{
Project = "string",
},
IdentityServiceConfig = new GoogleNative.Container.V1.Inputs.IdentityServiceConfigArgs
{
Enabled = false,
},
InitialClusterVersion = "string",
IpAllocationPolicy = new GoogleNative.Container.V1.Inputs.IPAllocationPolicyArgs
{
ClusterIpv4CidrBlock = "string",
ClusterSecondaryRangeName = "string",
CreateSubnetwork = false,
Ipv6AccessType = GoogleNative.Container.V1.IPAllocationPolicyIpv6AccessType.Ipv6AccessTypeUnspecified,
NodeIpv4CidrBlock = "string",
PodCidrOverprovisionConfig = new GoogleNative.Container.V1.Inputs.PodCIDROverprovisionConfigArgs
{
Disable = false,
},
ServicesIpv4CidrBlock = "string",
ServicesSecondaryRangeName = "string",
StackType = GoogleNative.Container.V1.IPAllocationPolicyStackType.StackTypeUnspecified,
SubnetworkName = "string",
TpuIpv4CidrBlock = "string",
UseIpAliases = false,
UseRoutes = false,
},
LegacyAbac = new GoogleNative.Container.V1.Inputs.LegacyAbacArgs
{
Enabled = false,
},
Location = "string",
Locations = new[]
{
"string",
},
LoggingConfig = new GoogleNative.Container.V1.Inputs.LoggingConfigArgs
{
ComponentConfig = new GoogleNative.Container.V1.Inputs.LoggingComponentConfigArgs
{
EnableComponents = new[]
{
GoogleNative.Container.V1.LoggingComponentConfigEnableComponentsItem.ComponentUnspecified,
},
},
},
LoggingService = "string",
MaintenancePolicy = new GoogleNative.Container.V1.Inputs.MaintenancePolicyArgs
{
ResourceVersion = "string",
Window = new GoogleNative.Container.V1.Inputs.MaintenanceWindowArgs
{
DailyMaintenanceWindow = new GoogleNative.Container.V1.Inputs.DailyMaintenanceWindowArgs
{
StartTime = "string",
},
MaintenanceExclusions =
{
{ "string", "string" },
},
RecurringWindow = new GoogleNative.Container.V1.Inputs.RecurringTimeWindowArgs
{
Recurrence = "string",
Window = new GoogleNative.Container.V1.Inputs.TimeWindowArgs
{
EndTime = "string",
MaintenanceExclusionOptions = new GoogleNative.Container.V1.Inputs.MaintenanceExclusionOptionsArgs
{
Scope = GoogleNative.Container.V1.MaintenanceExclusionOptionsScope.NoUpgrades,
},
StartTime = "string",
},
},
},
},
MasterAuth = new GoogleNative.Container.V1.Inputs.MasterAuthArgs
{
ClientCertificateConfig = new GoogleNative.Container.V1.Inputs.ClientCertificateConfigArgs
{
IssueClientCertificate = false,
},
Password = "string",
Username = "string",
},
MasterAuthorizedNetworksConfig = new GoogleNative.Container.V1.Inputs.MasterAuthorizedNetworksConfigArgs
{
CidrBlocks = new[]
{
new GoogleNative.Container.V1.Inputs.CidrBlockArgs
{
CidrBlock = "string",
DisplayName = "string",
},
},
Enabled = false,
GcpPublicCidrsAccessEnabled = false,
},
MeshCertificates = new GoogleNative.Container.V1.Inputs.MeshCertificatesArgs
{
EnableCertificates = false,
},
MonitoringConfig = new GoogleNative.Container.V1.Inputs.MonitoringConfigArgs
{
AdvancedDatapathObservabilityConfig = new GoogleNative.Container.V1.Inputs.AdvancedDatapathObservabilityConfigArgs
{
EnableMetrics = false,
RelayMode = GoogleNative.Container.V1.AdvancedDatapathObservabilityConfigRelayMode.RelayModeUnspecified,
},
ComponentConfig = new GoogleNative.Container.V1.Inputs.MonitoringComponentConfigArgs
{
EnableComponents = new[]
{
GoogleNative.Container.V1.MonitoringComponentConfigEnableComponentsItem.ComponentUnspecified,
},
},
ManagedPrometheusConfig = new GoogleNative.Container.V1.Inputs.ManagedPrometheusConfigArgs
{
Enabled = false,
},
},
MonitoringService = "string",
Name = "string",
Network = "string",
NetworkConfig = new GoogleNative.Container.V1.Inputs.NetworkConfigArgs
{
DatapathProvider = GoogleNative.Container.V1.NetworkConfigDatapathProvider.DatapathProviderUnspecified,
DefaultSnatStatus = new GoogleNative.Container.V1.Inputs.DefaultSnatStatusArgs
{
Disabled = false,
},
DnsConfig = new GoogleNative.Container.V1.Inputs.DNSConfigArgs
{
ClusterDns = GoogleNative.Container.V1.DNSConfigClusterDns.ProviderUnspecified,
ClusterDnsDomain = "string",
ClusterDnsScope = GoogleNative.Container.V1.DNSConfigClusterDnsScope.DnsScopeUnspecified,
},
EnableFqdnNetworkPolicy = false,
EnableIntraNodeVisibility = false,
EnableL4ilbSubsetting = false,
EnableMultiNetworking = false,
GatewayApiConfig = new GoogleNative.Container.V1.Inputs.GatewayAPIConfigArgs
{
Channel = GoogleNative.Container.V1.GatewayAPIConfigChannel.ChannelUnspecified,
},
NetworkPerformanceConfig = new GoogleNative.Container.V1.Inputs.ClusterNetworkPerformanceConfigArgs
{
TotalEgressBandwidthTier = GoogleNative.Container.V1.ClusterNetworkPerformanceConfigTotalEgressBandwidthTier.TierUnspecified,
},
PrivateIpv6GoogleAccess = GoogleNative.Container.V1.NetworkConfigPrivateIpv6GoogleAccess.PrivateIpv6GoogleAccessUnspecified,
ServiceExternalIpsConfig = new GoogleNative.Container.V1.Inputs.ServiceExternalIPsConfigArgs
{
Enabled = false,
},
},
NetworkPolicy = new GoogleNative.Container.V1.Inputs.NetworkPolicyArgs
{
Enabled = false,
Provider = GoogleNative.Container.V1.NetworkPolicyProvider.ProviderUnspecified,
},
NodePoolAutoConfig = new GoogleNative.Container.V1.Inputs.NodePoolAutoConfigArgs
{
NetworkTags = new GoogleNative.Container.V1.Inputs.NetworkTagsArgs
{
Tags = new[]
{
"string",
},
},
ResourceManagerTags = new GoogleNative.Container.V1.Inputs.ResourceManagerTagsArgs
{
Tags =
{
{ "string", "string" },
},
},
},
NodePoolDefaults = new GoogleNative.Container.V1.Inputs.NodePoolDefaultsArgs
{
NodeConfigDefaults = new GoogleNative.Container.V1.Inputs.NodeConfigDefaultsArgs
{
GcfsConfig = new GoogleNative.Container.V1.Inputs.GcfsConfigArgs
{
Enabled = false,
},
LoggingConfig = new GoogleNative.Container.V1.Inputs.NodePoolLoggingConfigArgs
{
VariantConfig = new GoogleNative.Container.V1.Inputs.LoggingVariantConfigArgs
{
Variant = GoogleNative.Container.V1.LoggingVariantConfigVariant.VariantUnspecified,
},
},
},
},
NodePools = new[]
{
new GoogleNative.Container.V1.Inputs.NodePoolArgs
{
Autoscaling = new GoogleNative.Container.V1.Inputs.NodePoolAutoscalingArgs
{
Autoprovisioned = false,
Enabled = false,
LocationPolicy = GoogleNative.Container.V1.NodePoolAutoscalingLocationPolicy.LocationPolicyUnspecified,
MaxNodeCount = 0,
MinNodeCount = 0,
TotalMaxNodeCount = 0,
TotalMinNodeCount = 0,
},
BestEffortProvisioning = new GoogleNative.Container.V1.Inputs.BestEffortProvisioningArgs
{
Enabled = false,
MinProvisionNodes = 0,
},
Conditions = new[]
{
new GoogleNative.Container.V1.Inputs.StatusConditionArgs
{
CanonicalCode = GoogleNative.Container.V1.StatusConditionCanonicalCode.Ok,
Message = "string",
},
},
Config = new GoogleNative.Container.V1.Inputs.NodeConfigArgs
{
Accelerators = new[]
{
new GoogleNative.Container.V1.Inputs.AcceleratorConfigArgs
{
AcceleratorCount = "string",
AcceleratorType = "string",
GpuDriverInstallationConfig = new GoogleNative.Container.V1.Inputs.GPUDriverInstallationConfigArgs
{
GpuDriverVersion = GoogleNative.Container.V1.GPUDriverInstallationConfigGpuDriverVersion.GpuDriverVersionUnspecified,
},
GpuPartitionSize = "string",
GpuSharingConfig = new GoogleNative.Container.V1.Inputs.GPUSharingConfigArgs
{
GpuSharingStrategy = GoogleNative.Container.V1.GPUSharingConfigGpuSharingStrategy.GpuSharingStrategyUnspecified,
MaxSharedClientsPerGpu = "string",
},
},
},
AdvancedMachineFeatures = new GoogleNative.Container.V1.Inputs.AdvancedMachineFeaturesArgs
{
ThreadsPerCore = "string",
},
BootDiskKmsKey = "string",
ConfidentialNodes = new GoogleNative.Container.V1.Inputs.ConfidentialNodesArgs
{
Enabled = false,
},
DiskSizeGb = 0,
DiskType = "string",
EphemeralStorageLocalSsdConfig = new GoogleNative.Container.V1.Inputs.EphemeralStorageLocalSsdConfigArgs
{
LocalSsdCount = 0,
},
FastSocket = new GoogleNative.Container.V1.Inputs.FastSocketArgs
{
Enabled = false,
},
GcfsConfig = new GoogleNative.Container.V1.Inputs.GcfsConfigArgs
{
Enabled = false,
},
Gvnic = new GoogleNative.Container.V1.Inputs.VirtualNICArgs
{
Enabled = false,
},
ImageType = "string",
KubeletConfig = new GoogleNative.Container.V1.Inputs.NodeKubeletConfigArgs
{
CpuCfsQuota = false,
CpuCfsQuotaPeriod = "string",
CpuManagerPolicy = "string",
InsecureKubeletReadonlyPortEnabled = false,
PodPidsLimit = "string",
},
Labels =
{
{ "string", "string" },
},
LinuxNodeConfig = new GoogleNative.Container.V1.Inputs.LinuxNodeConfigArgs
{
CgroupMode = GoogleNative.Container.V1.LinuxNodeConfigCgroupMode.CgroupModeUnspecified,
Sysctls =
{
{ "string", "string" },
},
},
LocalNvmeSsdBlockConfig = new GoogleNative.Container.V1.Inputs.LocalNvmeSsdBlockConfigArgs
{
LocalSsdCount = 0,
},
LocalSsdCount = 0,
LoggingConfig = new GoogleNative.Container.V1.Inputs.NodePoolLoggingConfigArgs
{
VariantConfig = new GoogleNative.Container.V1.Inputs.LoggingVariantConfigArgs
{
Variant = GoogleNative.Container.V1.LoggingVariantConfigVariant.VariantUnspecified,
},
},
MachineType = "string",
Metadata =
{
{ "string", "string" },
},
MinCpuPlatform = "string",
NodeGroup = "string",
OauthScopes = new[]
{
"string",
},
Preemptible = false,
ReservationAffinity = new GoogleNative.Container.V1.Inputs.ReservationAffinityArgs
{
ConsumeReservationType = GoogleNative.Container.V1.ReservationAffinityConsumeReservationType.Unspecified,
Key = "string",
Values = new[]
{
"string",
},
},
ResourceLabels =
{
{ "string", "string" },
},
ResourceManagerTags = new GoogleNative.Container.V1.Inputs.ResourceManagerTagsArgs
{
Tags =
{
{ "string", "string" },
},
},
SandboxConfig = new GoogleNative.Container.V1.Inputs.SandboxConfigArgs
{
Type = GoogleNative.Container.V1.SandboxConfigType.Unspecified,
},
ServiceAccount = "string",
ShieldedInstanceConfig = new GoogleNative.Container.V1.Inputs.ShieldedInstanceConfigArgs
{
EnableIntegrityMonitoring = false,
EnableSecureBoot = false,
},
SoleTenantConfig = new GoogleNative.Container.V1.Inputs.SoleTenantConfigArgs
{
NodeAffinities = new[]
{
new GoogleNative.Container.V1.Inputs.NodeAffinityArgs
{
Key = "string",
Operator = GoogleNative.Container.V1.NodeAffinityOperator.OperatorUnspecified,
Values = new[]
{
"string",
},
},
},
},
Spot = false,
Tags = new[]
{
"string",
},
Taints = new[]
{
new GoogleNative.Container.V1.Inputs.NodeTaintArgs
{
Effect = GoogleNative.Container.V1.NodeTaintEffect.EffectUnspecified,
Key = "string",
Value = "string",
},
},
WindowsNodeConfig = new GoogleNative.Container.V1.Inputs.WindowsNodeConfigArgs
{
OsVersion = GoogleNative.Container.V1.WindowsNodeConfigOsVersion.OsVersionUnspecified,
},
WorkloadMetadataConfig = new GoogleNative.Container.V1.Inputs.WorkloadMetadataConfigArgs
{
Mode = GoogleNative.Container.V1.WorkloadMetadataConfigMode.ModeUnspecified,
},
},
Etag = "string",
InitialNodeCount = 0,
Locations = new[]
{
"string",
},
Management = new GoogleNative.Container.V1.Inputs.NodeManagementArgs
{
AutoRepair = false,
AutoUpgrade = false,
UpgradeOptions = null,
},
MaxPodsConstraint = new GoogleNative.Container.V1.Inputs.MaxPodsConstraintArgs
{
MaxPodsPerNode = "string",
},
Name = "string",
NetworkConfig = new GoogleNative.Container.V1.Inputs.NodeNetworkConfigArgs
{
AdditionalNodeNetworkConfigs = new[]
{
new GoogleNative.Container.V1.Inputs.AdditionalNodeNetworkConfigArgs
{
Network = "string",
Subnetwork = "string",
},
},
AdditionalPodNetworkConfigs = new[]
{
new GoogleNative.Container.V1.Inputs.AdditionalPodNetworkConfigArgs
{
MaxPodsPerNode = new GoogleNative.Container.V1.Inputs.MaxPodsConstraintArgs
{
MaxPodsPerNode = "string",
},
SecondaryPodRange = "string",
Subnetwork = "string",
},
},
CreatePodRange = false,
EnablePrivateNodes = false,
NetworkPerformanceConfig = new GoogleNative.Container.V1.Inputs.NetworkPerformanceConfigArgs
{
TotalEgressBandwidthTier = GoogleNative.Container.V1.NetworkPerformanceConfigTotalEgressBandwidthTier.TierUnspecified,
},
PodCidrOverprovisionConfig = new GoogleNative.Container.V1.Inputs.PodCIDROverprovisionConfigArgs
{
Disable = false,
},
PodIpv4CidrBlock = "string",
PodRange = "string",
},
PlacementPolicy = new GoogleNative.Container.V1.Inputs.PlacementPolicyArgs
{
PolicyName = "string",
TpuTopology = "string",
Type = GoogleNative.Container.V1.PlacementPolicyType.TypeUnspecified,
},
QueuedProvisioning = new GoogleNative.Container.V1.Inputs.QueuedProvisioningArgs
{
Enabled = false,
},
UpgradeSettings = new GoogleNative.Container.V1.Inputs.UpgradeSettingsArgs
{
BlueGreenSettings = new GoogleNative.Container.V1.Inputs.BlueGreenSettingsArgs
{
NodePoolSoakDuration = "string",
StandardRolloutPolicy = new GoogleNative.Container.V1.Inputs.StandardRolloutPolicyArgs
{
BatchNodeCount = 0,
BatchPercentage = 0,
BatchSoakDuration = "string",
},
},
MaxSurge = 0,
MaxUnavailable = 0,
Strategy = GoogleNative.Container.V1.UpgradeSettingsStrategy.NodePoolUpdateStrategyUnspecified,
},
Version = "string",
},
},
NotificationConfig = new GoogleNative.Container.V1.Inputs.NotificationConfigArgs
{
Pubsub = new GoogleNative.Container.V1.Inputs.PubSubArgs
{
Enabled = false,
Filter = new GoogleNative.Container.V1.Inputs.FilterArgs
{
EventType = new[]
{
GoogleNative.Container.V1.FilterEventTypeItem.EventTypeUnspecified,
},
},
Topic = "string",
},
},
Parent = "string",
ParentProductConfig = new GoogleNative.Container.V1.Inputs.ParentProductConfigArgs
{
Labels =
{
{ "string", "string" },
},
ProductName = "string",
},
PrivateClusterConfig = new GoogleNative.Container.V1.Inputs.PrivateClusterConfigArgs
{
EnablePrivateEndpoint = false,
EnablePrivateNodes = false,
MasterGlobalAccessConfig = new GoogleNative.Container.V1.Inputs.PrivateClusterMasterGlobalAccessConfigArgs
{
Enabled = false,
},
MasterIpv4CidrBlock = "string",
PrivateEndpointSubnetwork = "string",
},
ReleaseChannel = new GoogleNative.Container.V1.Inputs.ReleaseChannelArgs
{
Channel = GoogleNative.Container.V1.ReleaseChannelChannel.Unspecified,
},
ResourceLabels =
{
{ "string", "string" },
},
ResourceUsageExportConfig = new GoogleNative.Container.V1.Inputs.ResourceUsageExportConfigArgs
{
BigqueryDestination = new GoogleNative.Container.V1.Inputs.BigQueryDestinationArgs
{
DatasetId = "string",
},
ConsumptionMeteringConfig = new GoogleNative.Container.V1.Inputs.ConsumptionMeteringConfigArgs
{
Enabled = false,
},
EnableNetworkEgressMetering = false,
},
SecurityPostureConfig = new GoogleNative.Container.V1.Inputs.SecurityPostureConfigArgs
{
Mode = GoogleNative.Container.V1.SecurityPostureConfigMode.ModeUnspecified,
VulnerabilityMode = GoogleNative.Container.V1.SecurityPostureConfigVulnerabilityMode.VulnerabilityModeUnspecified,
},
ShieldedNodes = new GoogleNative.Container.V1.Inputs.ShieldedNodesArgs
{
Enabled = false,
},
Subnetwork = "string",
VerticalPodAutoscaling = new GoogleNative.Container.V1.Inputs.VerticalPodAutoscalingArgs
{
Enabled = false,
},
WorkloadIdentityConfig = new GoogleNative.Container.V1.Inputs.WorkloadIdentityConfigArgs
{
WorkloadPool = "string",
},
});
example, err := container.NewCluster(ctx, "exampleclusterResourceResourceFromContainerv1", &container.ClusterArgs{
AddonsConfig: &container.AddonsConfigArgs{
CloudRunConfig: &container.CloudRunConfigArgs{
Disabled: pulumi.Bool(false),
LoadBalancerType: container.CloudRunConfigLoadBalancerTypeLoadBalancerTypeUnspecified,
},
ConfigConnectorConfig: &container.ConfigConnectorConfigArgs{
Enabled: pulumi.Bool(false),
},
DnsCacheConfig: &container.DnsCacheConfigArgs{
Enabled: pulumi.Bool(false),
},
GcePersistentDiskCsiDriverConfig: &container.GcePersistentDiskCsiDriverConfigArgs{
Enabled: pulumi.Bool(false),
},
GcpFilestoreCsiDriverConfig: &container.GcpFilestoreCsiDriverConfigArgs{
Enabled: pulumi.Bool(false),
},
GcsFuseCsiDriverConfig: &container.GcsFuseCsiDriverConfigArgs{
Enabled: pulumi.Bool(false),
},
GkeBackupAgentConfig: &container.GkeBackupAgentConfigArgs{
Enabled: pulumi.Bool(false),
},
HorizontalPodAutoscaling: &container.HorizontalPodAutoscalingArgs{
Disabled: pulumi.Bool(false),
},
HttpLoadBalancing: &container.HttpLoadBalancingArgs{
Disabled: pulumi.Bool(false),
},
KubernetesDashboard: &container.KubernetesDashboardArgs{
Disabled: pulumi.Bool(false),
},
NetworkPolicyConfig: &container.NetworkPolicyConfigArgs{
Disabled: pulumi.Bool(false),
},
},
AuthenticatorGroupsConfig: &container.AuthenticatorGroupsConfigArgs{
Enabled: pulumi.Bool(false),
SecurityGroup: pulumi.String("string"),
},
Autopilot: &container.AutopilotArgs{
Enabled: pulumi.Bool(false),
WorkloadPolicyConfig: &container.WorkloadPolicyConfigArgs{
AllowNetAdmin: pulumi.Bool(false),
},
},
Autoscaling: &container.ClusterAutoscalingArgs{
AutoprovisioningLocations: pulumi.StringArray{
pulumi.String("string"),
},
AutoprovisioningNodePoolDefaults: &container.AutoprovisioningNodePoolDefaultsArgs{
BootDiskKmsKey: pulumi.String("string"),
DiskSizeGb: pulumi.Int(0),
DiskType: pulumi.String("string"),
ImageType: pulumi.String("string"),
InsecureKubeletReadonlyPortEnabled: pulumi.Bool(false),
Management: &container.NodeManagementArgs{
AutoRepair: pulumi.Bool(false),
AutoUpgrade: pulumi.Bool(false),
UpgradeOptions: &container.AutoUpgradeOptionsArgs{},
},
OauthScopes: pulumi.StringArray{
pulumi.String("string"),
},
ServiceAccount: pulumi.String("string"),
ShieldedInstanceConfig: &container.ShieldedInstanceConfigArgs{
EnableIntegrityMonitoring: pulumi.Bool(false),
EnableSecureBoot: pulumi.Bool(false),
},
UpgradeSettings: &container.UpgradeSettingsArgs{
BlueGreenSettings: &container.BlueGreenSettingsArgs{
NodePoolSoakDuration: pulumi.String("string"),
StandardRolloutPolicy: &container.StandardRolloutPolicyArgs{
BatchNodeCount: pulumi.Int(0),
BatchPercentage: pulumi.Float64(0),
BatchSoakDuration: pulumi.String("string"),
},
},
MaxSurge: pulumi.Int(0),
MaxUnavailable: pulumi.Int(0),
Strategy: container.UpgradeSettingsStrategyNodePoolUpdateStrategyUnspecified,
},
},
AutoscalingProfile: container.ClusterAutoscalingAutoscalingProfileProfileUnspecified,
EnableNodeAutoprovisioning: pulumi.Bool(false),
ResourceLimits: container.ResourceLimitArray{
&container.ResourceLimitArgs{
Maximum: pulumi.String("string"),
Minimum: pulumi.String("string"),
ResourceType: pulumi.String("string"),
},
},
},
BinaryAuthorization: &container.BinaryAuthorizationArgs{
EvaluationMode: container.BinaryAuthorizationEvaluationModeEvaluationModeUnspecified,
},
ClusterIpv4Cidr: pulumi.String("string"),
Conditions: container.StatusConditionArray{
&container.StatusConditionArgs{
CanonicalCode: container.StatusConditionCanonicalCodeOk,
Message: pulumi.String("string"),
},
},
ConfidentialNodes: &container.ConfidentialNodesArgs{
Enabled: pulumi.Bool(false),
},
CostManagementConfig: &container.CostManagementConfigArgs{
Enabled: pulumi.Bool(false),
},
DatabaseEncryption: &container.DatabaseEncryptionArgs{
KeyName: pulumi.String("string"),
State: container.DatabaseEncryptionStateUnknown,
},
DefaultMaxPodsConstraint: &container.MaxPodsConstraintArgs{
MaxPodsPerNode: pulumi.String("string"),
},
Description: pulumi.String("string"),
EnableK8sBetaApis: &container.K8sBetaAPIConfigArgs{
EnabledApis: pulumi.StringArray{
pulumi.String("string"),
},
},
EnableKubernetesAlpha: pulumi.Bool(false),
EnableTpu: pulumi.Bool(false),
EnterpriseConfig: &container.EnterpriseConfigArgs{},
Etag: pulumi.String("string"),
Fleet: &container.FleetArgs{
Project: pulumi.String("string"),
},
IdentityServiceConfig: &container.IdentityServiceConfigArgs{
Enabled: pulumi.Bool(false),
},
InitialClusterVersion: pulumi.String("string"),
IpAllocationPolicy: &container.IPAllocationPolicyArgs{
ClusterIpv4CidrBlock: pulumi.String("string"),
ClusterSecondaryRangeName: pulumi.String("string"),
CreateSubnetwork: pulumi.Bool(false),
Ipv6AccessType: container.IPAllocationPolicyIpv6AccessTypeIpv6AccessTypeUnspecified,
NodeIpv4CidrBlock: pulumi.String("string"),
PodCidrOverprovisionConfig: &container.PodCIDROverprovisionConfigArgs{
Disable: pulumi.Bool(false),
},
ServicesIpv4CidrBlock: pulumi.String("string"),
ServicesSecondaryRangeName: pulumi.String("string"),
StackType: container.IPAllocationPolicyStackTypeStackTypeUnspecified,
SubnetworkName: pulumi.String("string"),
TpuIpv4CidrBlock: pulumi.String("string"),
UseIpAliases: pulumi.Bool(false),
UseRoutes: pulumi.Bool(false),
},
LegacyAbac: &container.LegacyAbacArgs{
Enabled: pulumi.Bool(false),
},
Location: pulumi.String("string"),
Locations: pulumi.StringArray{
pulumi.String("string"),
},
LoggingConfig: &container.LoggingConfigArgs{
ComponentConfig: &container.LoggingComponentConfigArgs{
EnableComponents: container.LoggingComponentConfigEnableComponentsItemArray{
container.LoggingComponentConfigEnableComponentsItemComponentUnspecified,
},
},
},
LoggingService: pulumi.String("string"),
MaintenancePolicy: &container.MaintenancePolicyArgs{
ResourceVersion: pulumi.String("string"),
Window: &container.MaintenanceWindowArgs{
DailyMaintenanceWindow: &container.DailyMaintenanceWindowArgs{
StartTime: pulumi.String("string"),
},
MaintenanceExclusions: pulumi.StringMap{
"string": pulumi.String("string"),
},
RecurringWindow: &container.RecurringTimeWindowArgs{
Recurrence: pulumi.String("string"),
Window: &container.TimeWindowArgs{
EndTime: pulumi.String("string"),
MaintenanceExclusionOptions: &container.MaintenanceExclusionOptionsArgs{
Scope: container.MaintenanceExclusionOptionsScopeNoUpgrades,
},
StartTime: pulumi.String("string"),
},
},
},
},
MasterAuth: &container.MasterAuthArgs{
ClientCertificateConfig: &container.ClientCertificateConfigArgs{
IssueClientCertificate: pulumi.Bool(false),
},
Password: pulumi.String("string"),
Username: pulumi.String("string"),
},
MasterAuthorizedNetworksConfig: &container.MasterAuthorizedNetworksConfigArgs{
CidrBlocks: container.CidrBlockArray{
&container.CidrBlockArgs{
CidrBlock: pulumi.String("string"),
DisplayName: pulumi.String("string"),
},
},
Enabled: pulumi.Bool(false),
GcpPublicCidrsAccessEnabled: pulumi.Bool(false),
},
MeshCertificates: &container.MeshCertificatesArgs{
EnableCertificates: pulumi.Bool(false),
},
MonitoringConfig: &container.MonitoringConfigArgs{
AdvancedDatapathObservabilityConfig: &container.AdvancedDatapathObservabilityConfigArgs{
EnableMetrics: pulumi.Bool(false),
RelayMode: container.AdvancedDatapathObservabilityConfigRelayModeRelayModeUnspecified,
},
ComponentConfig: &container.MonitoringComponentConfigArgs{
EnableComponents: container.MonitoringComponentConfigEnableComponentsItemArray{
container.MonitoringComponentConfigEnableComponentsItemComponentUnspecified,
},
},
ManagedPrometheusConfig: &container.ManagedPrometheusConfigArgs{
Enabled: pulumi.Bool(false),
},
},
MonitoringService: pulumi.String("string"),
Name: pulumi.String("string"),
Network: pulumi.String("string"),
NetworkConfig: &container.NetworkConfigArgs{
DatapathProvider: container.NetworkConfigDatapathProviderDatapathProviderUnspecified,
DefaultSnatStatus: &container.DefaultSnatStatusArgs{
Disabled: pulumi.Bool(false),
},
DnsConfig: &container.DNSConfigArgs{
ClusterDns: container.DNSConfigClusterDnsProviderUnspecified,
ClusterDnsDomain: pulumi.String("string"),
ClusterDnsScope: container.DNSConfigClusterDnsScopeDnsScopeUnspecified,
},
EnableFqdnNetworkPolicy: pulumi.Bool(false),
EnableIntraNodeVisibility: pulumi.Bool(false),
EnableL4ilbSubsetting: pulumi.Bool(false),
EnableMultiNetworking: pulumi.Bool(false),
GatewayApiConfig: &container.GatewayAPIConfigArgs{
Channel: container.GatewayAPIConfigChannelChannelUnspecified,
},
NetworkPerformanceConfig: &container.ClusterNetworkPerformanceConfigArgs{
TotalEgressBandwidthTier: container.ClusterNetworkPerformanceConfigTotalEgressBandwidthTierTierUnspecified,
},
PrivateIpv6GoogleAccess: container.NetworkConfigPrivateIpv6GoogleAccessPrivateIpv6GoogleAccessUnspecified,
ServiceExternalIpsConfig: &container.ServiceExternalIPsConfigArgs{
Enabled: pulumi.Bool(false),
},
},
NetworkPolicy: &container.NetworkPolicyArgs{
Enabled: pulumi.Bool(false),
Provider: container.NetworkPolicyProviderProviderUnspecified,
},
NodePoolAutoConfig: &container.NodePoolAutoConfigArgs{
NetworkTags: &container.NetworkTagsArgs{
Tags: pulumi.StringArray{
pulumi.String("string"),
},
},
ResourceManagerTags: &container.ResourceManagerTagsArgs{
Tags: pulumi.StringMap{
"string": pulumi.String("string"),
},
},
},
NodePoolDefaults: &container.NodePoolDefaultsArgs{
NodeConfigDefaults: &container.NodeConfigDefaultsArgs{
GcfsConfig: &container.GcfsConfigArgs{
Enabled: pulumi.Bool(false),
},
LoggingConfig: &container.NodePoolLoggingConfigArgs{
VariantConfig: &container.LoggingVariantConfigArgs{
Variant: container.LoggingVariantConfigVariantVariantUnspecified,
},
},
},
},
NodePools: container.NodePoolTypeArray{
&container.NodePoolTypeArgs{
Autoscaling: &container.NodePoolAutoscalingArgs{
Autoprovisioned: pulumi.Bool(false),
Enabled: pulumi.Bool(false),
LocationPolicy: container.NodePoolAutoscalingLocationPolicyLocationPolicyUnspecified,
MaxNodeCount: pulumi.Int(0),
MinNodeCount: pulumi.Int(0),
TotalMaxNodeCount: pulumi.Int(0),
TotalMinNodeCount: pulumi.Int(0),
},
BestEffortProvisioning: &container.BestEffortProvisioningArgs{
Enabled: pulumi.Bool(false),
MinProvisionNodes: pulumi.Int(0),
},
Conditions: container.StatusConditionArray{
&container.StatusConditionArgs{
CanonicalCode: container.StatusConditionCanonicalCodeOk,
Message: pulumi.String("string"),
},
},
Config: &container.NodeConfigArgs{
Accelerators: container.AcceleratorConfigArray{
&container.AcceleratorConfigArgs{
AcceleratorCount: pulumi.String("string"),
AcceleratorType: pulumi.String("string"),
GpuDriverInstallationConfig: &container.GPUDriverInstallationConfigArgs{
GpuDriverVersion: container.GPUDriverInstallationConfigGpuDriverVersionGpuDriverVersionUnspecified,
},
GpuPartitionSize: pulumi.String("string"),
GpuSharingConfig: &container.GPUSharingConfigArgs{
GpuSharingStrategy: container.GPUSharingConfigGpuSharingStrategyGpuSharingStrategyUnspecified,
MaxSharedClientsPerGpu: pulumi.String("string"),
},
},
},
AdvancedMachineFeatures: &container.AdvancedMachineFeaturesArgs{
ThreadsPerCore: pulumi.String("string"),
},
BootDiskKmsKey: pulumi.String("string"),
ConfidentialNodes: &container.ConfidentialNodesArgs{
Enabled: pulumi.Bool(false),
},
DiskSizeGb: pulumi.Int(0),
DiskType: pulumi.String("string"),
EphemeralStorageLocalSsdConfig: &container.EphemeralStorageLocalSsdConfigArgs{
LocalSsdCount: pulumi.Int(0),
},
FastSocket: &container.FastSocketArgs{
Enabled: pulumi.Bool(false),
},
GcfsConfig: &container.GcfsConfigArgs{
Enabled: pulumi.Bool(false),
},
Gvnic: &container.VirtualNICArgs{
Enabled: pulumi.Bool(false),
},
ImageType: pulumi.String("string"),
KubeletConfig: &container.NodeKubeletConfigArgs{
CpuCfsQuota: pulumi.Bool(false),
CpuCfsQuotaPeriod: pulumi.String("string"),
CpuManagerPolicy: pulumi.String("string"),
InsecureKubeletReadonlyPortEnabled: pulumi.Bool(false),
PodPidsLimit: pulumi.String("string"),
},
Labels: pulumi.StringMap{
"string": pulumi.String("string"),
},
LinuxNodeConfig: &container.LinuxNodeConfigArgs{
CgroupMode: container.LinuxNodeConfigCgroupModeCgroupModeUnspecified,
Sysctls: pulumi.StringMap{
"string": pulumi.String("string"),
},
},
LocalNvmeSsdBlockConfig: &container.LocalNvmeSsdBlockConfigArgs{
LocalSsdCount: pulumi.Int(0),
},
LocalSsdCount: pulumi.Int(0),
LoggingConfig: &container.NodePoolLoggingConfigArgs{
VariantConfig: &container.LoggingVariantConfigArgs{
Variant: container.LoggingVariantConfigVariantVariantUnspecified,
},
},
MachineType: pulumi.String("string"),
Metadata: pulumi.StringMap{
"string": pulumi.String("string"),
},
MinCpuPlatform: pulumi.String("string"),
NodeGroup: pulumi.String("string"),
OauthScopes: pulumi.StringArray{
pulumi.String("string"),
},
Preemptible: pulumi.Bool(false),
ReservationAffinity: &container.ReservationAffinityArgs{
ConsumeReservationType: container.ReservationAffinityConsumeReservationTypeUnspecified,
Key: pulumi.String("string"),
Values: pulumi.StringArray{
pulumi.String("string"),
},
},
ResourceLabels: pulumi.StringMap{
"string": pulumi.String("string"),
},
ResourceManagerTags: &container.ResourceManagerTagsArgs{
Tags: pulumi.StringMap{
"string": pulumi.String("string"),
},
},
SandboxConfig: &container.SandboxConfigArgs{
Type: container.SandboxConfigTypeUnspecified,
},
ServiceAccount: pulumi.String("string"),
ShieldedInstanceConfig: &container.ShieldedInstanceConfigArgs{
EnableIntegrityMonitoring: pulumi.Bool(false),
EnableSecureBoot: pulumi.Bool(false),
},
SoleTenantConfig: &container.SoleTenantConfigArgs{
NodeAffinities: container.NodeAffinityArray{
&container.NodeAffinityArgs{
Key: pulumi.String("string"),
Operator: container.NodeAffinityOperatorOperatorUnspecified,
Values: pulumi.StringArray{
pulumi.String("string"),
},
},
},
},
Spot: pulumi.Bool(false),
Tags: pulumi.StringArray{
pulumi.String("string"),
},
Taints: container.NodeTaintArray{
&container.NodeTaintArgs{
Effect: container.NodeTaintEffectEffectUnspecified,
Key: pulumi.String("string"),
Value: pulumi.String("string"),
},
},
WindowsNodeConfig: &container.WindowsNodeConfigArgs{
OsVersion: container.WindowsNodeConfigOsVersionOsVersionUnspecified,
},
WorkloadMetadataConfig: &container.WorkloadMetadataConfigArgs{
Mode: container.WorkloadMetadataConfigModeModeUnspecified,
},
},
Etag: pulumi.String("string"),
InitialNodeCount: pulumi.Int(0),
Locations: pulumi.StringArray{
pulumi.String("string"),
},
Management: &container.NodeManagementArgs{
AutoRepair: pulumi.Bool(false),
AutoUpgrade: pulumi.Bool(false),
UpgradeOptions: &container.AutoUpgradeOptionsArgs{},
},
MaxPodsConstraint: &container.MaxPodsConstraintArgs{
MaxPodsPerNode: pulumi.String("string"),
},
Name: pulumi.String("string"),
NetworkConfig: &container.NodeNetworkConfigArgs{
AdditionalNodeNetworkConfigs: container.AdditionalNodeNetworkConfigArray{
&container.AdditionalNodeNetworkConfigArgs{
Network: pulumi.String("string"),
Subnetwork: pulumi.String("string"),
},
},
AdditionalPodNetworkConfigs: container.AdditionalPodNetworkConfigArray{
&container.AdditionalPodNetworkConfigArgs{
MaxPodsPerNode: &container.MaxPodsConstraintArgs{
MaxPodsPerNode: pulumi.String("string"),
},
SecondaryPodRange: pulumi.String("string"),
Subnetwork: pulumi.String("string"),
},
},
CreatePodRange: pulumi.Bool(false),
EnablePrivateNodes: pulumi.Bool(false),
NetworkPerformanceConfig: &container.NetworkPerformanceConfigArgs{
TotalEgressBandwidthTier: container.NetworkPerformanceConfigTotalEgressBandwidthTierTierUnspecified,
},
PodCidrOverprovisionConfig: &container.PodCIDROverprovisionConfigArgs{
Disable: pulumi.Bool(false),
},
PodIpv4CidrBlock: pulumi.String("string"),
PodRange: pulumi.String("string"),
},
PlacementPolicy: &container.PlacementPolicyArgs{
PolicyName: pulumi.String("string"),
TpuTopology: pulumi.String("string"),
Type: container.PlacementPolicyTypeTypeUnspecified,
},
QueuedProvisioning: &container.QueuedProvisioningArgs{
Enabled: pulumi.Bool(false),
},
UpgradeSettings: &container.UpgradeSettingsArgs{
BlueGreenSettings: &container.BlueGreenSettingsArgs{
NodePoolSoakDuration: pulumi.String("string"),
StandardRolloutPolicy: &container.StandardRolloutPolicyArgs{
BatchNodeCount: pulumi.Int(0),
BatchPercentage: pulumi.Float64(0),
BatchSoakDuration: pulumi.String("string"),
},
},
MaxSurge: pulumi.Int(0),
MaxUnavailable: pulumi.Int(0),
Strategy: container.UpgradeSettingsStrategyNodePoolUpdateStrategyUnspecified,
},
Version: pulumi.String("string"),
},
},
NotificationConfig: &container.NotificationConfigArgs{
Pubsub: &container.PubSubArgs{
Enabled: pulumi.Bool(false),
Filter: &container.FilterArgs{
EventType: container.FilterEventTypeItemArray{
container.FilterEventTypeItemEventTypeUnspecified,
},
},
Topic: pulumi.String("string"),
},
},
Parent: pulumi.String("string"),
ParentProductConfig: &container.ParentProductConfigArgs{
Labels: pulumi.StringMap{
"string": pulumi.String("string"),
},
ProductName: pulumi.String("string"),
},
PrivateClusterConfig: &container.PrivateClusterConfigArgs{
EnablePrivateEndpoint: pulumi.Bool(false),
EnablePrivateNodes: pulumi.Bool(false),
MasterGlobalAccessConfig: &container.PrivateClusterMasterGlobalAccessConfigArgs{
Enabled: pulumi.Bool(false),
},
MasterIpv4CidrBlock: pulumi.String("string"),
PrivateEndpointSubnetwork: pulumi.String("string"),
},
ReleaseChannel: &container.ReleaseChannelArgs{
Channel: container.ReleaseChannelChannelUnspecified,
},
ResourceLabels: pulumi.StringMap{
"string": pulumi.String("string"),
},
ResourceUsageExportConfig: &container.ResourceUsageExportConfigArgs{
BigqueryDestination: &container.BigQueryDestinationArgs{
DatasetId: pulumi.String("string"),
},
ConsumptionMeteringConfig: &container.ConsumptionMeteringConfigArgs{
Enabled: pulumi.Bool(false),
},
EnableNetworkEgressMetering: pulumi.Bool(false),
},
SecurityPostureConfig: &container.SecurityPostureConfigArgs{
Mode: container.SecurityPostureConfigModeModeUnspecified,
VulnerabilityMode: container.SecurityPostureConfigVulnerabilityModeVulnerabilityModeUnspecified,
},
ShieldedNodes: &container.ShieldedNodesArgs{
Enabled: pulumi.Bool(false),
},
Subnetwork: pulumi.String("string"),
VerticalPodAutoscaling: &container.VerticalPodAutoscalingArgs{
Enabled: pulumi.Bool(false),
},
WorkloadIdentityConfig: &container.WorkloadIdentityConfigArgs{
WorkloadPool: pulumi.String("string"),
},
})
var exampleclusterResourceResourceFromContainerv1 = new Cluster("exampleclusterResourceResourceFromContainerv1", ClusterArgs.builder()
.addonsConfig(AddonsConfigArgs.builder()
.cloudRunConfig(CloudRunConfigArgs.builder()
.disabled(false)
.loadBalancerType("LOAD_BALANCER_TYPE_UNSPECIFIED")
.build())
.configConnectorConfig(ConfigConnectorConfigArgs.builder()
.enabled(false)
.build())
.dnsCacheConfig(DnsCacheConfigArgs.builder()
.enabled(false)
.build())
.gcePersistentDiskCsiDriverConfig(GcePersistentDiskCsiDriverConfigArgs.builder()
.enabled(false)
.build())
.gcpFilestoreCsiDriverConfig(GcpFilestoreCsiDriverConfigArgs.builder()
.enabled(false)
.build())
.gcsFuseCsiDriverConfig(GcsFuseCsiDriverConfigArgs.builder()
.enabled(false)
.build())
.gkeBackupAgentConfig(GkeBackupAgentConfigArgs.builder()
.enabled(false)
.build())
.horizontalPodAutoscaling(HorizontalPodAutoscalingArgs.builder()
.disabled(false)
.build())
.httpLoadBalancing(HttpLoadBalancingArgs.builder()
.disabled(false)
.build())
.kubernetesDashboard(KubernetesDashboardArgs.builder()
.disabled(false)
.build())
.networkPolicyConfig(NetworkPolicyConfigArgs.builder()
.disabled(false)
.build())
.build())
.authenticatorGroupsConfig(AuthenticatorGroupsConfigArgs.builder()
.enabled(false)
.securityGroup("string")
.build())
.autopilot(AutopilotArgs.builder()
.enabled(false)
.workloadPolicyConfig(WorkloadPolicyConfigArgs.builder()
.allowNetAdmin(false)
.build())
.build())
.autoscaling(ClusterAutoscalingArgs.builder()
.autoprovisioningLocations("string")
.autoprovisioningNodePoolDefaults(AutoprovisioningNodePoolDefaultsArgs.builder()
.bootDiskKmsKey("string")
.diskSizeGb(0)
.diskType("string")
.imageType("string")
.insecureKubeletReadonlyPortEnabled(false)
.management(NodeManagementArgs.builder()
.autoRepair(false)
.autoUpgrade(false)
.upgradeOptions()
.build())
.oauthScopes("string")
.serviceAccount("string")
.shieldedInstanceConfig(ShieldedInstanceConfigArgs.builder()
.enableIntegrityMonitoring(false)
.enableSecureBoot(false)
.build())
.upgradeSettings(UpgradeSettingsArgs.builder()
.blueGreenSettings(BlueGreenSettingsArgs.builder()
.nodePoolSoakDuration("string")
.standardRolloutPolicy(StandardRolloutPolicyArgs.builder()
.batchNodeCount(0)
.batchPercentage(0)
.batchSoakDuration("string")
.build())
.build())
.maxSurge(0)
.maxUnavailable(0)
.strategy("NODE_POOL_UPDATE_STRATEGY_UNSPECIFIED")
.build())
.build())
.autoscalingProfile("PROFILE_UNSPECIFIED")
.enableNodeAutoprovisioning(false)
.resourceLimits(ResourceLimitArgs.builder()
.maximum("string")
.minimum("string")
.resourceType("string")
.build())
.build())
.binaryAuthorization(BinaryAuthorizationArgs.builder()
.evaluationMode("EVALUATION_MODE_UNSPECIFIED")
.build())
.clusterIpv4Cidr("string")
.conditions(StatusConditionArgs.builder()
.canonicalCode("OK")
.message("string")
.build())
.confidentialNodes(ConfidentialNodesArgs.builder()
.enabled(false)
.build())
.costManagementConfig(CostManagementConfigArgs.builder()
.enabled(false)
.build())
.databaseEncryption(DatabaseEncryptionArgs.builder()
.keyName("string")
.state("UNKNOWN")
.build())
.defaultMaxPodsConstraint(MaxPodsConstraintArgs.builder()
.maxPodsPerNode("string")
.build())
.description("string")
.enableK8sBetaApis(K8sBetaAPIConfigArgs.builder()
.enabledApis("string")
.build())
.enableKubernetesAlpha(false)
.enableTpu(false)
.enterpriseConfig()
.etag("string")
.fleet(FleetArgs.builder()
.project("string")
.build())
.identityServiceConfig(IdentityServiceConfigArgs.builder()
.enabled(false)
.build())
.initialClusterVersion("string")
.ipAllocationPolicy(IPAllocationPolicyArgs.builder()
.clusterIpv4CidrBlock("string")
.clusterSecondaryRangeName("string")
.createSubnetwork(false)
.ipv6AccessType("IPV6_ACCESS_TYPE_UNSPECIFIED")
.nodeIpv4CidrBlock("string")
.podCidrOverprovisionConfig(PodCIDROverprovisionConfigArgs.builder()
.disable(false)
.build())
.servicesIpv4CidrBlock("string")
.servicesSecondaryRangeName("string")
.stackType("STACK_TYPE_UNSPECIFIED")
.subnetworkName("string")
.tpuIpv4CidrBlock("string")
.useIpAliases(false)
.useRoutes(false)
.build())
.legacyAbac(LegacyAbacArgs.builder()
.enabled(false)
.build())
.location("string")
.locations("string")
.loggingConfig(LoggingConfigArgs.builder()
.componentConfig(LoggingComponentConfigArgs.builder()
.enableComponents("COMPONENT_UNSPECIFIED")
.build())
.build())
.loggingService("string")
.maintenancePolicy(MaintenancePolicyArgs.builder()
.resourceVersion("string")
.window(MaintenanceWindowArgs.builder()
.dailyMaintenanceWindow(DailyMaintenanceWindowArgs.builder()
.startTime("string")
.build())
.maintenanceExclusions(Map.of("string", "string"))
.recurringWindow(RecurringTimeWindowArgs.builder()
.recurrence("string")
.window(TimeWindowArgs.builder()
.endTime("string")
.maintenanceExclusionOptions(MaintenanceExclusionOptionsArgs.builder()
.scope("NO_UPGRADES")
.build())
.startTime("string")
.build())
.build())
.build())
.build())
.masterAuth(MasterAuthArgs.builder()
.clientCertificateConfig(ClientCertificateConfigArgs.builder()
.issueClientCertificate(false)
.build())
.password("string")
.username("string")
.build())
.masterAuthorizedNetworksConfig(MasterAuthorizedNetworksConfigArgs.builder()
.cidrBlocks(CidrBlockArgs.builder()
.cidrBlock("string")
.displayName("string")
.build())
.enabled(false)
.gcpPublicCidrsAccessEnabled(false)
.build())
.meshCertificates(MeshCertificatesArgs.builder()
.enableCertificates(false)
.build())
.monitoringConfig(MonitoringConfigArgs.builder()
.advancedDatapathObservabilityConfig(AdvancedDatapathObservabilityConfigArgs.builder()
.enableMetrics(false)
.relayMode("RELAY_MODE_UNSPECIFIED")
.build())
.componentConfig(MonitoringComponentConfigArgs.builder()
.enableComponents("COMPONENT_UNSPECIFIED")
.build())
.managedPrometheusConfig(ManagedPrometheusConfigArgs.builder()
.enabled(false)
.build())
.build())
.monitoringService("string")
.name("string")
.network("string")
.networkConfig(NetworkConfigArgs.builder()
.datapathProvider("DATAPATH_PROVIDER_UNSPECIFIED")
.defaultSnatStatus(DefaultSnatStatusArgs.builder()
.disabled(false)
.build())
.dnsConfig(DNSConfigArgs.builder()
.clusterDns("PROVIDER_UNSPECIFIED")
.clusterDnsDomain("string")
.clusterDnsScope("DNS_SCOPE_UNSPECIFIED")
.build())
.enableFqdnNetworkPolicy(false)
.enableIntraNodeVisibility(false)
.enableL4ilbSubsetting(false)
.enableMultiNetworking(false)
.gatewayApiConfig(GatewayAPIConfigArgs.builder()
.channel("CHANNEL_UNSPECIFIED")
.build())
.networkPerformanceConfig(ClusterNetworkPerformanceConfigArgs.builder()
.totalEgressBandwidthTier("TIER_UNSPECIFIED")
.build())
.privateIpv6GoogleAccess("PRIVATE_IPV6_GOOGLE_ACCESS_UNSPECIFIED")
.serviceExternalIpsConfig(ServiceExternalIPsConfigArgs.builder()
.enabled(false)
.build())
.build())
.networkPolicy(NetworkPolicyArgs.builder()
.enabled(false)
.provider("PROVIDER_UNSPECIFIED")
.build())
.nodePoolAutoConfig(NodePoolAutoConfigArgs.builder()
.networkTags(NetworkTagsArgs.builder()
.tags("string")
.build())
.resourceManagerTags(ResourceManagerTagsArgs.builder()
.tags(Map.of("string", "string"))
.build())
.build())
.nodePoolDefaults(NodePoolDefaultsArgs.builder()
.nodeConfigDefaults(NodeConfigDefaultsArgs.builder()
.gcfsConfig(GcfsConfigArgs.builder()
.enabled(false)
.build())
.loggingConfig(NodePoolLoggingConfigArgs.builder()
.variantConfig(LoggingVariantConfigArgs.builder()
.variant("VARIANT_UNSPECIFIED")
.build())
.build())
.build())
.build())
.nodePools(NodePoolArgs.builder()
.autoscaling(NodePoolAutoscalingArgs.builder()
.autoprovisioned(false)
.enabled(false)
.locationPolicy("LOCATION_POLICY_UNSPECIFIED")
.maxNodeCount(0)
.minNodeCount(0)
.totalMaxNodeCount(0)
.totalMinNodeCount(0)
.build())
.bestEffortProvisioning(BestEffortProvisioningArgs.builder()
.enabled(false)
.minProvisionNodes(0)
.build())
.conditions(StatusConditionArgs.builder()
.canonicalCode("OK")
.message("string")
.build())
.config(NodeConfigArgs.builder()
.accelerators(AcceleratorConfigArgs.builder()
.acceleratorCount("string")
.acceleratorType("string")
.gpuDriverInstallationConfig(GPUDriverInstallationConfigArgs.builder()
.gpuDriverVersion("GPU_DRIVER_VERSION_UNSPECIFIED")
.build())
.gpuPartitionSize("string")
.gpuSharingConfig(GPUSharingConfigArgs.builder()
.gpuSharingStrategy("GPU_SHARING_STRATEGY_UNSPECIFIED")
.maxSharedClientsPerGpu("string")
.build())
.build())
.advancedMachineFeatures(AdvancedMachineFeaturesArgs.builder()
.threadsPerCore("string")
.build())
.bootDiskKmsKey("string")
.confidentialNodes(ConfidentialNodesArgs.builder()
.enabled(false)
.build())
.diskSizeGb(0)
.diskType("string")
.ephemeralStorageLocalSsdConfig(EphemeralStorageLocalSsdConfigArgs.builder()
.localSsdCount(0)
.build())
.fastSocket(FastSocketArgs.builder()
.enabled(false)
.build())
.gcfsConfig(GcfsConfigArgs.builder()
.enabled(false)
.build())
.gvnic(VirtualNICArgs.builder()
.enabled(false)
.build())
.imageType("string")
.kubeletConfig(NodeKubeletConfigArgs.builder()
.cpuCfsQuota(false)
.cpuCfsQuotaPeriod("string")
.cpuManagerPolicy("string")
.insecureKubeletReadonlyPortEnabled(false)
.podPidsLimit("string")
.build())
.labels(Map.of("string", "string"))
.linuxNodeConfig(LinuxNodeConfigArgs.builder()
.cgroupMode("CGROUP_MODE_UNSPECIFIED")
.sysctls(Map.of("string", "string"))
.build())
.localNvmeSsdBlockConfig(LocalNvmeSsdBlockConfigArgs.builder()
.localSsdCount(0)
.build())
.localSsdCount(0)
.loggingConfig(NodePoolLoggingConfigArgs.builder()
.variantConfig(LoggingVariantConfigArgs.builder()
.variant("VARIANT_UNSPECIFIED")
.build())
.build())
.machineType("string")
.metadata(Map.of("string", "string"))
.minCpuPlatform("string")
.nodeGroup("string")
.oauthScopes("string")
.preemptible(false)
.reservationAffinity(ReservationAffinityArgs.builder()
.consumeReservationType("UNSPECIFIED")
.key("string")
.values("string")
.build())
.resourceLabels(Map.of("string", "string"))
.resourceManagerTags(ResourceManagerTagsArgs.builder()
.tags(Map.of("string", "string"))
.build())
.sandboxConfig(SandboxConfigArgs.builder()
.type("UNSPECIFIED")
.build())
.serviceAccount("string")
.shieldedInstanceConfig(ShieldedInstanceConfigArgs.builder()
.enableIntegrityMonitoring(false)
.enableSecureBoot(false)
.build())
.soleTenantConfig(SoleTenantConfigArgs.builder()
.nodeAffinities(NodeAffinityArgs.builder()
.key("string")
.operator("OPERATOR_UNSPECIFIED")
.values("string")
.build())
.build())
.spot(false)
.tags("string")
.taints(NodeTaintArgs.builder()
.effect("EFFECT_UNSPECIFIED")
.key("string")
.value("string")
.build())
.windowsNodeConfig(WindowsNodeConfigArgs.builder()
.osVersion("OS_VERSION_UNSPECIFIED")
.build())
.workloadMetadataConfig(WorkloadMetadataConfigArgs.builder()
.mode("MODE_UNSPECIFIED")
.build())
.build())
.etag("string")
.initialNodeCount(0)
.locations("string")
.management(NodeManagementArgs.builder()
.autoRepair(false)
.autoUpgrade(false)
.upgradeOptions()
.build())
.maxPodsConstraint(MaxPodsConstraintArgs.builder()
.maxPodsPerNode("string")
.build())
.name("string")
.networkConfig(NodeNetworkConfigArgs.builder()
.additionalNodeNetworkConfigs(AdditionalNodeNetworkConfigArgs.builder()
.network("string")
.subnetwork("string")
.build())
.additionalPodNetworkConfigs(AdditionalPodNetworkConfigArgs.builder()
.maxPodsPerNode(MaxPodsConstraintArgs.builder()
.maxPodsPerNode("string")
.build())
.secondaryPodRange("string")
.subnetwork("string")
.build())
.createPodRange(false)
.enablePrivateNodes(false)
.networkPerformanceConfig(NetworkPerformanceConfigArgs.builder()
.totalEgressBandwidthTier("TIER_UNSPECIFIED")
.build())
.podCidrOverprovisionConfig(PodCIDROverprovisionConfigArgs.builder()
.disable(false)
.build())
.podIpv4CidrBlock("string")
.podRange("string")
.build())
.placementPolicy(PlacementPolicyArgs.builder()
.policyName("string")
.tpuTopology("string")
.type("TYPE_UNSPECIFIED")
.build())
.queuedProvisioning(QueuedProvisioningArgs.builder()
.enabled(false)
.build())
.upgradeSettings(UpgradeSettingsArgs.builder()
.blueGreenSettings(BlueGreenSettingsArgs.builder()
.nodePoolSoakDuration("string")
.standardRolloutPolicy(StandardRolloutPolicyArgs.builder()
.batchNodeCount(0)
.batchPercentage(0)
.batchSoakDuration("string")
.build())
.build())
.maxSurge(0)
.maxUnavailable(0)
.strategy("NODE_POOL_UPDATE_STRATEGY_UNSPECIFIED")
.build())
.version("string")
.build())
.notificationConfig(NotificationConfigArgs.builder()
.pubsub(PubSubArgs.builder()
.enabled(false)
.filter(FilterArgs.builder()
.eventType("EVENT_TYPE_UNSPECIFIED")
.build())
.topic("string")
.build())
.build())
.parent("string")
.parentProductConfig(ParentProductConfigArgs.builder()
.labels(Map.of("string", "string"))
.productName("string")
.build())
.privateClusterConfig(PrivateClusterConfigArgs.builder()
.enablePrivateEndpoint(false)
.enablePrivateNodes(false)
.masterGlobalAccessConfig(PrivateClusterMasterGlobalAccessConfigArgs.builder()
.enabled(false)
.build())
.masterIpv4CidrBlock("string")
.privateEndpointSubnetwork("string")
.build())
.releaseChannel(ReleaseChannelArgs.builder()
.channel("UNSPECIFIED")
.build())
.resourceLabels(Map.of("string", "string"))
.resourceUsageExportConfig(ResourceUsageExportConfigArgs.builder()
.bigqueryDestination(BigQueryDestinationArgs.builder()
.datasetId("string")
.build())
.consumptionMeteringConfig(ConsumptionMeteringConfigArgs.builder()
.enabled(false)
.build())
.enableNetworkEgressMetering(false)
.build())
.securityPostureConfig(SecurityPostureConfigArgs.builder()
.mode("MODE_UNSPECIFIED")
.vulnerabilityMode("VULNERABILITY_MODE_UNSPECIFIED")
.build())
.shieldedNodes(ShieldedNodesArgs.builder()
.enabled(false)
.build())
.subnetwork("string")
.verticalPodAutoscaling(VerticalPodAutoscalingArgs.builder()
.enabled(false)
.build())
.workloadIdentityConfig(WorkloadIdentityConfigArgs.builder()
.workloadPool("string")
.build())
.build());
examplecluster_resource_resource_from_containerv1 = google_native.container.v1.Cluster("exampleclusterResourceResourceFromContainerv1",
addons_config={
"cloud_run_config": {
"disabled": False,
"load_balancer_type": google_native.container.v1.CloudRunConfigLoadBalancerType.LOAD_BALANCER_TYPE_UNSPECIFIED,
},
"config_connector_config": {
"enabled": False,
},
"dns_cache_config": {
"enabled": False,
},
"gce_persistent_disk_csi_driver_config": {
"enabled": False,
},
"gcp_filestore_csi_driver_config": {
"enabled": False,
},
"gcs_fuse_csi_driver_config": {
"enabled": False,
},
"gke_backup_agent_config": {
"enabled": False,
},
"horizontal_pod_autoscaling": {
"disabled": False,
},
"http_load_balancing": {
"disabled": False,
},
"kubernetes_dashboard": {
"disabled": False,
},
"network_policy_config": {
"disabled": False,
},
},
authenticator_groups_config={
"enabled": False,
"security_group": "string",
},
autopilot={
"enabled": False,
"workload_policy_config": {
"allow_net_admin": False,
},
},
autoscaling={
"autoprovisioning_locations": ["string"],
"autoprovisioning_node_pool_defaults": {
"boot_disk_kms_key": "string",
"disk_size_gb": 0,
"disk_type": "string",
"image_type": "string",
"insecure_kubelet_readonly_port_enabled": False,
"management": {
"auto_repair": False,
"auto_upgrade": False,
"upgrade_options": {},
},
"oauth_scopes": ["string"],
"service_account": "string",
"shielded_instance_config": {
"enable_integrity_monitoring": False,
"enable_secure_boot": False,
},
"upgrade_settings": {
"blue_green_settings": {
"node_pool_soak_duration": "string",
"standard_rollout_policy": {
"batch_node_count": 0,
"batch_percentage": 0,
"batch_soak_duration": "string",
},
},
"max_surge": 0,
"max_unavailable": 0,
"strategy": google_native.container.v1.UpgradeSettingsStrategy.NODE_POOL_UPDATE_STRATEGY_UNSPECIFIED,
},
},
"autoscaling_profile": google_native.container.v1.ClusterAutoscalingAutoscalingProfile.PROFILE_UNSPECIFIED,
"enable_node_autoprovisioning": False,
"resource_limits": [{
"maximum": "string",
"minimum": "string",
"resource_type": "string",
}],
},
binary_authorization={
"evaluation_mode": google_native.container.v1.BinaryAuthorizationEvaluationMode.EVALUATION_MODE_UNSPECIFIED,
},
cluster_ipv4_cidr="string",
conditions=[{
"canonical_code": google_native.container.v1.StatusConditionCanonicalCode.OK,
"message": "string",
}],
confidential_nodes={
"enabled": False,
},
cost_management_config={
"enabled": False,
},
database_encryption={
"key_name": "string",
"state": google_native.container.v1.DatabaseEncryptionState.UNKNOWN,
},
default_max_pods_constraint={
"max_pods_per_node": "string",
},
description="string",
enable_k8s_beta_apis={
"enabled_apis": ["string"],
},
enable_kubernetes_alpha=False,
enable_tpu=False,
enterprise_config={},
etag="string",
fleet={
"project": "string",
},
identity_service_config={
"enabled": False,
},
initial_cluster_version="string",
ip_allocation_policy={
"cluster_ipv4_cidr_block": "string",
"cluster_secondary_range_name": "string",
"create_subnetwork": False,
"ipv6_access_type": google_native.container.v1.IPAllocationPolicyIpv6AccessType.IPV6_ACCESS_TYPE_UNSPECIFIED,
"node_ipv4_cidr_block": "string",
"pod_cidr_overprovision_config": {
"disable": False,
},
"services_ipv4_cidr_block": "string",
"services_secondary_range_name": "string",
"stack_type": google_native.container.v1.IPAllocationPolicyStackType.STACK_TYPE_UNSPECIFIED,
"subnetwork_name": "string",
"tpu_ipv4_cidr_block": "string",
"use_ip_aliases": False,
"use_routes": False,
},
legacy_abac={
"enabled": False,
},
location="string",
locations=["string"],
logging_config={
"component_config": {
"enable_components": [google_native.container.v1.LoggingComponentConfigEnableComponentsItem.COMPONENT_UNSPECIFIED],
},
},
logging_service="string",
maintenance_policy={
"resource_version": "string",
"window": {
"daily_maintenance_window": {
"start_time": "string",
},
"maintenance_exclusions": {
"string": "string",
},
"recurring_window": {
"recurrence": "string",
"window": {
"end_time": "string",
"maintenance_exclusion_options": {
"scope": google_native.container.v1.MaintenanceExclusionOptionsScope.NO_UPGRADES,
},
"start_time": "string",
},
},
},
},
master_auth={
"client_certificate_config": {
"issue_client_certificate": False,
},
"password": "string",
"username": "string",
},
master_authorized_networks_config={
"cidr_blocks": [{
"cidr_block": "string",
"display_name": "string",
}],
"enabled": False,
"gcp_public_cidrs_access_enabled": False,
},
mesh_certificates={
"enable_certificates": False,
},
monitoring_config={
"advanced_datapath_observability_config": {
"enable_metrics": False,
"relay_mode": google_native.container.v1.AdvancedDatapathObservabilityConfigRelayMode.RELAY_MODE_UNSPECIFIED,
},
"component_config": {
"enable_components": [google_native.container.v1.MonitoringComponentConfigEnableComponentsItem.COMPONENT_UNSPECIFIED],
},
"managed_prometheus_config": {
"enabled": False,
},
},
monitoring_service="string",
name="string",
network="string",
network_config={
"datapath_provider": google_native.container.v1.NetworkConfigDatapathProvider.DATAPATH_PROVIDER_UNSPECIFIED,
"default_snat_status": {
"disabled": False,
},
"dns_config": {
"cluster_dns": google_native.container.v1.DNSConfigClusterDns.PROVIDER_UNSPECIFIED,
"cluster_dns_domain": "string",
"cluster_dns_scope": google_native.container.v1.DNSConfigClusterDnsScope.DNS_SCOPE_UNSPECIFIED,
},
"enable_fqdn_network_policy": False,
"enable_intra_node_visibility": False,
"enable_l4ilb_subsetting": False,
"enable_multi_networking": False,
"gateway_api_config": {
"channel": google_native.container.v1.GatewayAPIConfigChannel.CHANNEL_UNSPECIFIED,
},
"network_performance_config": {
"total_egress_bandwidth_tier": google_native.container.v1.ClusterNetworkPerformanceConfigTotalEgressBandwidthTier.TIER_UNSPECIFIED,
},
"private_ipv6_google_access": google_native.container.v1.NetworkConfigPrivateIpv6GoogleAccess.PRIVATE_IPV6_GOOGLE_ACCESS_UNSPECIFIED,
"service_external_ips_config": {
"enabled": False,
},
},
network_policy={
"enabled": False,
"provider": google_native.container.v1.NetworkPolicyProvider.PROVIDER_UNSPECIFIED,
},
node_pool_auto_config={
"network_tags": {
"tags": ["string"],
},
"resource_manager_tags": {
"tags": {
"string": "string",
},
},
},
node_pool_defaults={
"node_config_defaults": {
"gcfs_config": {
"enabled": False,
},
"logging_config": {
"variant_config": {
"variant": google_native.container.v1.LoggingVariantConfigVariant.VARIANT_UNSPECIFIED,
},
},
},
},
node_pools=[{
"autoscaling": {
"autoprovisioned": False,
"enabled": False,
"location_policy": google_native.container.v1.NodePoolAutoscalingLocationPolicy.LOCATION_POLICY_UNSPECIFIED,
"max_node_count": 0,
"min_node_count": 0,
"total_max_node_count": 0,
"total_min_node_count": 0,
},
"best_effort_provisioning": {
"enabled": False,
"min_provision_nodes": 0,
},
"conditions": [{
"canonical_code": google_native.container.v1.StatusConditionCanonicalCode.OK,
"message": "string",
}],
"config": {
"accelerators": [{
"accelerator_count": "string",
"accelerator_type": "string",
"gpu_driver_installation_config": {
"gpu_driver_version": google_native.container.v1.GPUDriverInstallationConfigGpuDriverVersion.GPU_DRIVER_VERSION_UNSPECIFIED,
},
"gpu_partition_size": "string",
"gpu_sharing_config": {
"gpu_sharing_strategy": google_native.container.v1.GPUSharingConfigGpuSharingStrategy.GPU_SHARING_STRATEGY_UNSPECIFIED,
"max_shared_clients_per_gpu": "string",
},
}],
"advanced_machine_features": {
"threads_per_core": "string",
},
"boot_disk_kms_key": "string",
"confidential_nodes": {
"enabled": False,
},
"disk_size_gb": 0,
"disk_type": "string",
"ephemeral_storage_local_ssd_config": {
"local_ssd_count": 0,
},
"fast_socket": {
"enabled": False,
},
"gcfs_config": {
"enabled": False,
},
"gvnic": {
"enabled": False,
},
"image_type": "string",
"kubelet_config": {
"cpu_cfs_quota": False,
"cpu_cfs_quota_period": "string",
"cpu_manager_policy": "string",
"insecure_kubelet_readonly_port_enabled": False,
"pod_pids_limit": "string",
},
"labels": {
"string": "string",
},
"linux_node_config": {
"cgroup_mode": google_native.container.v1.LinuxNodeConfigCgroupMode.CGROUP_MODE_UNSPECIFIED,
"sysctls": {
"string": "string",
},
},
"local_nvme_ssd_block_config": {
"local_ssd_count": 0,
},
"local_ssd_count": 0,
"logging_config": {
"variant_config": {
"variant": google_native.container.v1.LoggingVariantConfigVariant.VARIANT_UNSPECIFIED,
},
},
"machine_type": "string",
"metadata": {
"string": "string",
},
"min_cpu_platform": "string",
"node_group": "string",
"oauth_scopes": ["string"],
"preemptible": False,
"reservation_affinity": {
"consume_reservation_type": google_native.container.v1.ReservationAffinityConsumeReservationType.UNSPECIFIED,
"key": "string",
"values": ["string"],
},
"resource_labels": {
"string": "string",
},
"resource_manager_tags": {
"tags": {
"string": "string",
},
},
"sandbox_config": {
"type": google_native.container.v1.SandboxConfigType.UNSPECIFIED,
},
"service_account": "string",
"shielded_instance_config": {
"enable_integrity_monitoring": False,
"enable_secure_boot": False,
},
"sole_tenant_config": {
"node_affinities": [{
"key": "string",
"operator": google_native.container.v1.NodeAffinityOperator.OPERATOR_UNSPECIFIED,
"values": ["string"],
}],
},
"spot": False,
"tags": ["string"],
"taints": [{
"effect": google_native.container.v1.NodeTaintEffect.EFFECT_UNSPECIFIED,
"key": "string",
"value": "string",
}],
"windows_node_config": {
"os_version": google_native.container.v1.WindowsNodeConfigOsVersion.OS_VERSION_UNSPECIFIED,
},
"workload_metadata_config": {
"mode": google_native.container.v1.WorkloadMetadataConfigMode.MODE_UNSPECIFIED,
},
},
"etag": "string",
"initial_node_count": 0,
"locations": ["string"],
"management": {
"auto_repair": False,
"auto_upgrade": False,
"upgrade_options": {},
},
"max_pods_constraint": {
"max_pods_per_node": "string",
},
"name": "string",
"network_config": {
"additional_node_network_configs": [{
"network": "string",
"subnetwork": "string",
}],
"additional_pod_network_configs": [{
"max_pods_per_node": {
"max_pods_per_node": "string",
},
"secondary_pod_range": "string",
"subnetwork": "string",
}],
"create_pod_range": False,
"enable_private_nodes": False,
"network_performance_config": {
"total_egress_bandwidth_tier": google_native.container.v1.NetworkPerformanceConfigTotalEgressBandwidthTier.TIER_UNSPECIFIED,
},
"pod_cidr_overprovision_config": {
"disable": False,
},
"pod_ipv4_cidr_block": "string",
"pod_range": "string",
},
"placement_policy": {
"policy_name": "string",
"tpu_topology": "string",
"type": google_native.container.v1.PlacementPolicyType.TYPE_UNSPECIFIED,
},
"queued_provisioning": {
"enabled": False,
},
"upgrade_settings": {
"blue_green_settings": {
"node_pool_soak_duration": "string",
"standard_rollout_policy": {
"batch_node_count": 0,
"batch_percentage": 0,
"batch_soak_duration": "string",
},
},
"max_surge": 0,
"max_unavailable": 0,
"strategy": google_native.container.v1.UpgradeSettingsStrategy.NODE_POOL_UPDATE_STRATEGY_UNSPECIFIED,
},
"version": "string",
}],
notification_config={
"pubsub": {
"enabled": False,
"filter": {
"event_type": [google_native.container.v1.FilterEventTypeItem.EVENT_TYPE_UNSPECIFIED],
},
"topic": "string",
},
},
parent="string",
parent_product_config={
"labels": {
"string": "string",
},
"product_name": "string",
},
private_cluster_config={
"enable_private_endpoint": False,
"enable_private_nodes": False,
"master_global_access_config": {
"enabled": False,
},
"master_ipv4_cidr_block": "string",
"private_endpoint_subnetwork": "string",
},
release_channel={
"channel": google_native.container.v1.ReleaseChannelChannel.UNSPECIFIED,
},
resource_labels={
"string": "string",
},
resource_usage_export_config={
"bigquery_destination": {
"dataset_id": "string",
},
"consumption_metering_config": {
"enabled": False,
},
"enable_network_egress_metering": False,
},
security_posture_config={
"mode": google_native.container.v1.SecurityPostureConfigMode.MODE_UNSPECIFIED,
"vulnerability_mode": google_native.container.v1.SecurityPostureConfigVulnerabilityMode.VULNERABILITY_MODE_UNSPECIFIED,
},
shielded_nodes={
"enabled": False,
},
subnetwork="string",
vertical_pod_autoscaling={
"enabled": False,
},
workload_identity_config={
"workload_pool": "string",
})
const exampleclusterResourceResourceFromContainerv1 = new google_native.container.v1.Cluster("exampleclusterResourceResourceFromContainerv1", {
addonsConfig: {
cloudRunConfig: {
disabled: false,
loadBalancerType: google_native.container.v1.CloudRunConfigLoadBalancerType.LoadBalancerTypeUnspecified,
},
configConnectorConfig: {
enabled: false,
},
dnsCacheConfig: {
enabled: false,
},
gcePersistentDiskCsiDriverConfig: {
enabled: false,
},
gcpFilestoreCsiDriverConfig: {
enabled: false,
},
gcsFuseCsiDriverConfig: {
enabled: false,
},
gkeBackupAgentConfig: {
enabled: false,
},
horizontalPodAutoscaling: {
disabled: false,
},
httpLoadBalancing: {
disabled: false,
},
kubernetesDashboard: {
disabled: false,
},
networkPolicyConfig: {
disabled: false,
},
},
authenticatorGroupsConfig: {
enabled: false,
securityGroup: "string",
},
autopilot: {
enabled: false,
workloadPolicyConfig: {
allowNetAdmin: false,
},
},
autoscaling: {
autoprovisioningLocations: ["string"],
autoprovisioningNodePoolDefaults: {
bootDiskKmsKey: "string",
diskSizeGb: 0,
diskType: "string",
imageType: "string",
insecureKubeletReadonlyPortEnabled: false,
management: {
autoRepair: false,
autoUpgrade: false,
upgradeOptions: {},
},
oauthScopes: ["string"],
serviceAccount: "string",
shieldedInstanceConfig: {
enableIntegrityMonitoring: false,
enableSecureBoot: false,
},
upgradeSettings: {
blueGreenSettings: {
nodePoolSoakDuration: "string",
standardRolloutPolicy: {
batchNodeCount: 0,
batchPercentage: 0,
batchSoakDuration: "string",
},
},
maxSurge: 0,
maxUnavailable: 0,
strategy: google_native.container.v1.UpgradeSettingsStrategy.NodePoolUpdateStrategyUnspecified,
},
},
autoscalingProfile: google_native.container.v1.ClusterAutoscalingAutoscalingProfile.ProfileUnspecified,
enableNodeAutoprovisioning: false,
resourceLimits: [{
maximum: "string",
minimum: "string",
resourceType: "string",
}],
},
binaryAuthorization: {
evaluationMode: google_native.container.v1.BinaryAuthorizationEvaluationMode.EvaluationModeUnspecified,
},
clusterIpv4Cidr: "string",
conditions: [{
canonicalCode: google_native.container.v1.StatusConditionCanonicalCode.Ok,
message: "string",
}],
confidentialNodes: {
enabled: false,
},
costManagementConfig: {
enabled: false,
},
databaseEncryption: {
keyName: "string",
state: google_native.container.v1.DatabaseEncryptionState.Unknown,
},
defaultMaxPodsConstraint: {
maxPodsPerNode: "string",
},
description: "string",
enableK8sBetaApis: {
enabledApis: ["string"],
},
enableKubernetesAlpha: false,
enableTpu: false,
enterpriseConfig: {},
etag: "string",
fleet: {
project: "string",
},
identityServiceConfig: {
enabled: false,
},
initialClusterVersion: "string",
ipAllocationPolicy: {
clusterIpv4CidrBlock: "string",
clusterSecondaryRangeName: "string",
createSubnetwork: false,
ipv6AccessType: google_native.container.v1.IPAllocationPolicyIpv6AccessType.Ipv6AccessTypeUnspecified,
nodeIpv4CidrBlock: "string",
podCidrOverprovisionConfig: {
disable: false,
},
servicesIpv4CidrBlock: "string",
servicesSecondaryRangeName: "string",
stackType: google_native.container.v1.IPAllocationPolicyStackType.StackTypeUnspecified,
subnetworkName: "string",
tpuIpv4CidrBlock: "string",
useIpAliases: false,
useRoutes: false,
},
legacyAbac: {
enabled: false,
},
location: "string",
locations: ["string"],
loggingConfig: {
componentConfig: {
enableComponents: [google_native.container.v1.LoggingComponentConfigEnableComponentsItem.ComponentUnspecified],
},
},
loggingService: "string",
maintenancePolicy: {
resourceVersion: "string",
window: {
dailyMaintenanceWindow: {
startTime: "string",
},
maintenanceExclusions: {
string: "string",
},
recurringWindow: {
recurrence: "string",
window: {
endTime: "string",
maintenanceExclusionOptions: {
scope: google_native.container.v1.MaintenanceExclusionOptionsScope.NoUpgrades,
},
startTime: "string",
},
},
},
},
masterAuth: {
clientCertificateConfig: {
issueClientCertificate: false,
},
password: "string",
username: "string",
},
masterAuthorizedNetworksConfig: {
cidrBlocks: [{
cidrBlock: "string",
displayName: "string",
}],
enabled: false,
gcpPublicCidrsAccessEnabled: false,
},
meshCertificates: {
enableCertificates: false,
},
monitoringConfig: {
advancedDatapathObservabilityConfig: {
enableMetrics: false,
relayMode: google_native.container.v1.AdvancedDatapathObservabilityConfigRelayMode.RelayModeUnspecified,
},
componentConfig: {
enableComponents: [google_native.container.v1.MonitoringComponentConfigEnableComponentsItem.ComponentUnspecified],
},
managedPrometheusConfig: {
enabled: false,
},
},
monitoringService: "string",
name: "string",
network: "string",
networkConfig: {
datapathProvider: google_native.container.v1.NetworkConfigDatapathProvider.DatapathProviderUnspecified,
defaultSnatStatus: {
disabled: false,
},
dnsConfig: {
clusterDns: google_native.container.v1.DNSConfigClusterDns.ProviderUnspecified,
clusterDnsDomain: "string",
clusterDnsScope: google_native.container.v1.DNSConfigClusterDnsScope.DnsScopeUnspecified,
},
enableFqdnNetworkPolicy: false,
enableIntraNodeVisibility: false,
enableL4ilbSubsetting: false,
enableMultiNetworking: false,
gatewayApiConfig: {
channel: google_native.container.v1.GatewayAPIConfigChannel.ChannelUnspecified,
},
networkPerformanceConfig: {
totalEgressBandwidthTier: google_native.container.v1.ClusterNetworkPerformanceConfigTotalEgressBandwidthTier.TierUnspecified,
},
privateIpv6GoogleAccess: google_native.container.v1.NetworkConfigPrivateIpv6GoogleAccess.PrivateIpv6GoogleAccessUnspecified,
serviceExternalIpsConfig: {
enabled: false,
},
},
networkPolicy: {
enabled: false,
provider: google_native.container.v1.NetworkPolicyProvider.ProviderUnspecified,
},
nodePoolAutoConfig: {
networkTags: {
tags: ["string"],
},
resourceManagerTags: {
tags: {
string: "string",
},
},
},
nodePoolDefaults: {
nodeConfigDefaults: {
gcfsConfig: {
enabled: false,
},
loggingConfig: {
variantConfig: {
variant: google_native.container.v1.LoggingVariantConfigVariant.VariantUnspecified,
},
},
},
},
nodePools: [{
autoscaling: {
autoprovisioned: false,
enabled: false,
locationPolicy: google_native.container.v1.NodePoolAutoscalingLocationPolicy.LocationPolicyUnspecified,
maxNodeCount: 0,
minNodeCount: 0,
totalMaxNodeCount: 0,
totalMinNodeCount: 0,
},
bestEffortProvisioning: {
enabled: false,
minProvisionNodes: 0,
},
conditions: [{
canonicalCode: google_native.container.v1.StatusConditionCanonicalCode.Ok,
message: "string",
}],
config: {
accelerators: [{
acceleratorCount: "string",
acceleratorType: "string",
gpuDriverInstallationConfig: {
gpuDriverVersion: google_native.container.v1.GPUDriverInstallationConfigGpuDriverVersion.GpuDriverVersionUnspecified,
},
gpuPartitionSize: "string",
gpuSharingConfig: {
gpuSharingStrategy: google_native.container.v1.GPUSharingConfigGpuSharingStrategy.GpuSharingStrategyUnspecified,
maxSharedClientsPerGpu: "string",
},
}],
advancedMachineFeatures: {
threadsPerCore: "string",
},
bootDiskKmsKey: "string",
confidentialNodes: {
enabled: false,
},
diskSizeGb: 0,
diskType: "string",
ephemeralStorageLocalSsdConfig: {
localSsdCount: 0,
},
fastSocket: {
enabled: false,
},
gcfsConfig: {
enabled: false,
},
gvnic: {
enabled: false,
},
imageType: "string",
kubeletConfig: {
cpuCfsQuota: false,
cpuCfsQuotaPeriod: "string",
cpuManagerPolicy: "string",
insecureKubeletReadonlyPortEnabled: false,
podPidsLimit: "string",
},
labels: {
string: "string",
},
linuxNodeConfig: {
cgroupMode: google_native.container.v1.LinuxNodeConfigCgroupMode.CgroupModeUnspecified,
sysctls: {
string: "string",
},
},
localNvmeSsdBlockConfig: {
localSsdCount: 0,
},
localSsdCount: 0,
loggingConfig: {
variantConfig: {
variant: google_native.container.v1.LoggingVariantConfigVariant.VariantUnspecified,
},
},
machineType: "string",
metadata: {
string: "string",
},
minCpuPlatform: "string",
nodeGroup: "string",
oauthScopes: ["string"],
preemptible: false,
reservationAffinity: {
consumeReservationType: google_native.container.v1.ReservationAffinityConsumeReservationType.Unspecified,
key: "string",
values: ["string"],
},
resourceLabels: {
string: "string",
},
resourceManagerTags: {
tags: {
string: "string",
},
},
sandboxConfig: {
type: google_native.container.v1.SandboxConfigType.Unspecified,
},
serviceAccount: "string",
shieldedInstanceConfig: {
enableIntegrityMonitoring: false,
enableSecureBoot: false,
},
soleTenantConfig: {
nodeAffinities: [{
key: "string",
operator: google_native.container.v1.NodeAffinityOperator.OperatorUnspecified,
values: ["string"],
}],
},
spot: false,
tags: ["string"],
taints: [{
effect: google_native.container.v1.NodeTaintEffect.EffectUnspecified,
key: "string",
value: "string",
}],
windowsNodeConfig: {
osVersion: google_native.container.v1.WindowsNodeConfigOsVersion.OsVersionUnspecified,
},
workloadMetadataConfig: {
mode: google_native.container.v1.WorkloadMetadataConfigMode.ModeUnspecified,
},
},
etag: "string",
initialNodeCount: 0,
locations: ["string"],
management: {
autoRepair: false,
autoUpgrade: false,
upgradeOptions: {},
},
maxPodsConstraint: {
maxPodsPerNode: "string",
},
name: "string",
networkConfig: {
additionalNodeNetworkConfigs: [{
network: "string",
subnetwork: "string",
}],
additionalPodNetworkConfigs: [{
maxPodsPerNode: {
maxPodsPerNode: "string",
},
secondaryPodRange: "string",
subnetwork: "string",
}],
createPodRange: false,
enablePrivateNodes: false,
networkPerformanceConfig: {
totalEgressBandwidthTier: google_native.container.v1.NetworkPerformanceConfigTotalEgressBandwidthTier.TierUnspecified,
},
podCidrOverprovisionConfig: {
disable: false,
},
podIpv4CidrBlock: "string",
podRange: "string",
},
placementPolicy: {
policyName: "string",
tpuTopology: "string",
type: google_native.container.v1.PlacementPolicyType.TypeUnspecified,
},
queuedProvisioning: {
enabled: false,
},
upgradeSettings: {
blueGreenSettings: {
nodePoolSoakDuration: "string",
standardRolloutPolicy: {
batchNodeCount: 0,
batchPercentage: 0,
batchSoakDuration: "string",
},
},
maxSurge: 0,
maxUnavailable: 0,
strategy: google_native.container.v1.UpgradeSettingsStrategy.NodePoolUpdateStrategyUnspecified,
},
version: "string",
}],
notificationConfig: {
pubsub: {
enabled: false,
filter: {
eventType: [google_native.container.v1.FilterEventTypeItem.EventTypeUnspecified],
},
topic: "string",
},
},
parent: "string",
parentProductConfig: {
labels: {
string: "string",
},
productName: "string",
},
privateClusterConfig: {
enablePrivateEndpoint: false,
enablePrivateNodes: false,
masterGlobalAccessConfig: {
enabled: false,
},
masterIpv4CidrBlock: "string",
privateEndpointSubnetwork: "string",
},
releaseChannel: {
channel: google_native.container.v1.ReleaseChannelChannel.Unspecified,
},
resourceLabels: {
string: "string",
},
resourceUsageExportConfig: {
bigqueryDestination: {
datasetId: "string",
},
consumptionMeteringConfig: {
enabled: false,
},
enableNetworkEgressMetering: false,
},
securityPostureConfig: {
mode: google_native.container.v1.SecurityPostureConfigMode.ModeUnspecified,
vulnerabilityMode: google_native.container.v1.SecurityPostureConfigVulnerabilityMode.VulnerabilityModeUnspecified,
},
shieldedNodes: {
enabled: false,
},
subnetwork: "string",
verticalPodAutoscaling: {
enabled: false,
},
workloadIdentityConfig: {
workloadPool: "string",
},
});
type: google-native:container/v1:Cluster
properties:
addonsConfig:
cloudRunConfig:
disabled: false
loadBalancerType: LOAD_BALANCER_TYPE_UNSPECIFIED
configConnectorConfig:
enabled: false
dnsCacheConfig:
enabled: false
gcePersistentDiskCsiDriverConfig:
enabled: false
gcpFilestoreCsiDriverConfig:
enabled: false
gcsFuseCsiDriverConfig:
enabled: false
gkeBackupAgentConfig:
enabled: false
horizontalPodAutoscaling:
disabled: false
httpLoadBalancing:
disabled: false
kubernetesDashboard:
disabled: false
networkPolicyConfig:
disabled: false
authenticatorGroupsConfig:
enabled: false
securityGroup: string
autopilot:
enabled: false
workloadPolicyConfig:
allowNetAdmin: false
autoscaling:
autoprovisioningLocations:
- string
autoprovisioningNodePoolDefaults:
bootDiskKmsKey: string
diskSizeGb: 0
diskType: string
imageType: string
insecureKubeletReadonlyPortEnabled: false
management:
autoRepair: false
autoUpgrade: false
upgradeOptions: {}
oauthScopes:
- string
serviceAccount: string
shieldedInstanceConfig:
enableIntegrityMonitoring: false
enableSecureBoot: false
upgradeSettings:
blueGreenSettings:
nodePoolSoakDuration: string
standardRolloutPolicy:
batchNodeCount: 0
batchPercentage: 0
batchSoakDuration: string
maxSurge: 0
maxUnavailable: 0
strategy: NODE_POOL_UPDATE_STRATEGY_UNSPECIFIED
autoscalingProfile: PROFILE_UNSPECIFIED
enableNodeAutoprovisioning: false
resourceLimits:
- maximum: string
minimum: string
resourceType: string
binaryAuthorization:
evaluationMode: EVALUATION_MODE_UNSPECIFIED
clusterIpv4Cidr: string
conditions:
- canonicalCode: OK
message: string
confidentialNodes:
enabled: false
costManagementConfig:
enabled: false
databaseEncryption:
keyName: string
state: UNKNOWN
defaultMaxPodsConstraint:
maxPodsPerNode: string
description: string
enableK8sBetaApis:
enabledApis:
- string
enableKubernetesAlpha: false
enableTpu: false
enterpriseConfig: {}
etag: string
fleet:
project: string
identityServiceConfig:
enabled: false
initialClusterVersion: string
ipAllocationPolicy:
clusterIpv4CidrBlock: string
clusterSecondaryRangeName: string
createSubnetwork: false
ipv6AccessType: IPV6_ACCESS_TYPE_UNSPECIFIED
nodeIpv4CidrBlock: string
podCidrOverprovisionConfig:
disable: false
servicesIpv4CidrBlock: string
servicesSecondaryRangeName: string
stackType: STACK_TYPE_UNSPECIFIED
subnetworkName: string
tpuIpv4CidrBlock: string
useIpAliases: false
useRoutes: false
legacyAbac:
enabled: false
location: string
locations:
- string
loggingConfig:
componentConfig:
enableComponents:
- COMPONENT_UNSPECIFIED
loggingService: string
maintenancePolicy:
resourceVersion: string
window:
dailyMaintenanceWindow:
startTime: string
maintenanceExclusions:
string: string
recurringWindow:
recurrence: string
window:
endTime: string
maintenanceExclusionOptions:
scope: NO_UPGRADES
startTime: string
masterAuth:
clientCertificateConfig:
issueClientCertificate: false
password: string
username: string
masterAuthorizedNetworksConfig:
cidrBlocks:
- cidrBlock: string
displayName: string
enabled: false
gcpPublicCidrsAccessEnabled: false
meshCertificates:
enableCertificates: false
monitoringConfig:
advancedDatapathObservabilityConfig:
enableMetrics: false
relayMode: RELAY_MODE_UNSPECIFIED
componentConfig:
enableComponents:
- COMPONENT_UNSPECIFIED
managedPrometheusConfig:
enabled: false
monitoringService: string
name: string
network: string
networkConfig:
datapathProvider: DATAPATH_PROVIDER_UNSPECIFIED
defaultSnatStatus:
disabled: false
dnsConfig:
clusterDns: PROVIDER_UNSPECIFIED
clusterDnsDomain: string
clusterDnsScope: DNS_SCOPE_UNSPECIFIED
enableFqdnNetworkPolicy: false
enableIntraNodeVisibility: false
enableL4ilbSubsetting: false
enableMultiNetworking: false
gatewayApiConfig:
channel: CHANNEL_UNSPECIFIED
networkPerformanceConfig:
totalEgressBandwidthTier: TIER_UNSPECIFIED
privateIpv6GoogleAccess: PRIVATE_IPV6_GOOGLE_ACCESS_UNSPECIFIED
serviceExternalIpsConfig:
enabled: false
networkPolicy:
enabled: false
provider: PROVIDER_UNSPECIFIED
nodePoolAutoConfig:
networkTags:
tags:
- string
resourceManagerTags:
tags:
string: string
nodePoolDefaults:
nodeConfigDefaults:
gcfsConfig:
enabled: false
loggingConfig:
variantConfig:
variant: VARIANT_UNSPECIFIED
nodePools:
- autoscaling:
autoprovisioned: false
enabled: false
locationPolicy: LOCATION_POLICY_UNSPECIFIED
maxNodeCount: 0
minNodeCount: 0
totalMaxNodeCount: 0
totalMinNodeCount: 0
bestEffortProvisioning:
enabled: false
minProvisionNodes: 0
conditions:
- canonicalCode: OK
message: string
config:
accelerators:
- acceleratorCount: string
acceleratorType: string
gpuDriverInstallationConfig:
gpuDriverVersion: GPU_DRIVER_VERSION_UNSPECIFIED
gpuPartitionSize: string
gpuSharingConfig:
gpuSharingStrategy: GPU_SHARING_STRATEGY_UNSPECIFIED
maxSharedClientsPerGpu: string
advancedMachineFeatures:
threadsPerCore: string
bootDiskKmsKey: string
confidentialNodes:
enabled: false
diskSizeGb: 0
diskType: string
ephemeralStorageLocalSsdConfig:
localSsdCount: 0
fastSocket:
enabled: false
gcfsConfig:
enabled: false
gvnic:
enabled: false
imageType: string
kubeletConfig:
cpuCfsQuota: false
cpuCfsQuotaPeriod: string
cpuManagerPolicy: string
insecureKubeletReadonlyPortEnabled: false
podPidsLimit: string
labels:
string: string
linuxNodeConfig:
cgroupMode: CGROUP_MODE_UNSPECIFIED
sysctls:
string: string
localNvmeSsdBlockConfig:
localSsdCount: 0
localSsdCount: 0
loggingConfig:
variantConfig:
variant: VARIANT_UNSPECIFIED
machineType: string
metadata:
string: string
minCpuPlatform: string
nodeGroup: string
oauthScopes:
- string
preemptible: false
reservationAffinity:
consumeReservationType: UNSPECIFIED
key: string
values:
- string
resourceLabels:
string: string
resourceManagerTags:
tags:
string: string
sandboxConfig:
type: UNSPECIFIED
serviceAccount: string
shieldedInstanceConfig:
enableIntegrityMonitoring: false
enableSecureBoot: false
soleTenantConfig:
nodeAffinities:
- key: string
operator: OPERATOR_UNSPECIFIED
values:
- string
spot: false
tags:
- string
taints:
- effect: EFFECT_UNSPECIFIED
key: string
value: string
windowsNodeConfig:
osVersion: OS_VERSION_UNSPECIFIED
workloadMetadataConfig:
mode: MODE_UNSPECIFIED
etag: string
initialNodeCount: 0
locations:
- string
management:
autoRepair: false
autoUpgrade: false
upgradeOptions: {}
maxPodsConstraint:
maxPodsPerNode: string
name: string
networkConfig:
additionalNodeNetworkConfigs:
- network: string
subnetwork: string
additionalPodNetworkConfigs:
- maxPodsPerNode:
maxPodsPerNode: string
secondaryPodRange: string
subnetwork: string
createPodRange: false
enablePrivateNodes: false
networkPerformanceConfig:
totalEgressBandwidthTier: TIER_UNSPECIFIED
podCidrOverprovisionConfig:
disable: false
podIpv4CidrBlock: string
podRange: string
placementPolicy:
policyName: string
tpuTopology: string
type: TYPE_UNSPECIFIED
queuedProvisioning:
enabled: false
upgradeSettings:
blueGreenSettings:
nodePoolSoakDuration: string
standardRolloutPolicy:
batchNodeCount: 0
batchPercentage: 0
batchSoakDuration: string
maxSurge: 0
maxUnavailable: 0
strategy: NODE_POOL_UPDATE_STRATEGY_UNSPECIFIED
version: string
notificationConfig:
pubsub:
enabled: false
filter:
eventType:
- EVENT_TYPE_UNSPECIFIED
topic: string
parent: string
parentProductConfig:
labels:
string: string
productName: string
privateClusterConfig:
enablePrivateEndpoint: false
enablePrivateNodes: false
masterGlobalAccessConfig:
enabled: false
masterIpv4CidrBlock: string
privateEndpointSubnetwork: string
releaseChannel:
channel: UNSPECIFIED
resourceLabels:
string: string
resourceUsageExportConfig:
bigqueryDestination:
datasetId: string
consumptionMeteringConfig:
enabled: false
enableNetworkEgressMetering: false
securityPostureConfig:
mode: MODE_UNSPECIFIED
vulnerabilityMode: VULNERABILITY_MODE_UNSPECIFIED
shieldedNodes:
enabled: false
subnetwork: string
verticalPodAutoscaling:
enabled: false
workloadIdentityConfig:
workloadPool: string
Cluster Resource Properties
To learn more about resource properties and how to use them, see Inputs and Outputs in the Architecture and Concepts docs.
Inputs
In Python, inputs that are objects can be passed either as argument classes or as dictionary literals.
The Cluster resource accepts the following input properties:
- Addons
Config Pulumi.Google Native. Container. V1. Inputs. Addons Config - Configurations for the various addons available to run in the cluster.
- Authenticator
Groups Pulumi.Config Google Native. Container. V1. Inputs. Authenticator Groups Config - Configuration controlling RBAC group membership information.
- Autopilot
Pulumi.
Google Native. Container. V1. Inputs. Autopilot - Autopilot configuration for the cluster.
- Autoscaling
Pulumi.
Google Native. Container. V1. Inputs. Cluster Autoscaling - Cluster-level autoscaling configuration.
- Pulumi.
Google Native. Container. V1. Inputs. Binary Authorization - Configuration for Binary Authorization.
- Cluster
Ipv4Cidr string - The IP address range of the container pods in this cluster, in CIDR notation (e.g.
10.96.0.0/14
). Leave blank to have one automatically chosen or specify a/14
block in10.0.0.0/8
. - Conditions
List<Pulumi.
Google Native. Container. V1. Inputs. Status Condition> - Which conditions caused the current cluster state.
- Confidential
Nodes Pulumi.Google Native. Container. V1. Inputs. Confidential Nodes - Configuration of Confidential Nodes. All the nodes in the cluster will be Confidential VM once enabled.
- Cost
Management Pulumi.Config Google Native. Container. V1. Inputs. Cost Management Config - Configuration for the fine-grained cost management feature.
- Database
Encryption Pulumi.Google Native. Container. V1. Inputs. Database Encryption - Configuration of etcd encryption.
- Default
Max Pulumi.Pods Constraint Google Native. Container. V1. Inputs. Max Pods Constraint - The default constraint on the maximum number of pods that can be run simultaneously on a node in the node pool of this cluster. Only honored if cluster created with IP Alias support.
- Description string
- An optional description of this cluster.
- Enable
K8s Pulumi.Beta Apis Google Native. Container. V1. Inputs. K8s Beta APIConfig - Beta APIs Config
- Enable
Kubernetes boolAlpha - Kubernetes alpha features are enabled on this cluster. This includes alpha API groups (e.g. v1alpha1) and features that may not be production ready in the kubernetes version of the master and nodes. The cluster has no SLA for uptime and master/node upgrades are disabled. Alpha enabled clusters are automatically deleted thirty days after creation.
- Enable
Tpu bool - Enable the ability to use Cloud TPUs in this cluster.
- Enterprise
Config Pulumi.Google Native. Container. V1. Inputs. Enterprise Config - GKE Enterprise Configuration.
- Etag string
- This checksum is computed by the server based on the value of cluster fields, and may be sent on update requests to ensure the client has an up-to-date value before proceeding.
- Fleet
Pulumi.
Google Native. Container. V1. Inputs. Fleet - Fleet information for the cluster.
- Identity
Service Pulumi.Config Google Native. Container. V1. Inputs. Identity Service Config - Configuration for Identity Service component.
- Initial
Cluster stringVersion - The initial Kubernetes version for this cluster. Valid versions are those found in validMasterVersions returned by getServerConfig. The version can be upgraded over time; such upgrades are reflected in currentMasterVersion and currentNodeVersion. Users may specify either explicit versions offered by Kubernetes Engine or version aliases, which have the following behavior: - "latest": picks the highest valid Kubernetes version - "1.X": picks the highest valid patch+gke.N patch in the 1.X version - "1.X.Y": picks the highest valid gke.N patch in the 1.X.Y version - "1.X.Y-gke.N": picks an explicit Kubernetes version - "","-": picks the default Kubernetes version
- Initial
Node intCount - The number of nodes to create in this cluster. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota. For requests, this field should only be used in lieu of a "node_pool" object, since this configuration (along with the "node_config") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a node_pool at the same time. This field is deprecated, use node_pool.initial_node_count instead.
- Instance
Group List<string>Urls - Deprecated. Use node_pools.instance_group_urls.
- Ip
Allocation Pulumi.Policy Google Native. Container. V1. Inputs. IPAllocation Policy - Configuration for cluster IP allocation.
- Legacy
Abac Pulumi.Google Native. Container. V1. Inputs. Legacy Abac - Configuration for the legacy ABAC authorization mode.
- Location string
- Locations List<string>
- The list of Google Compute Engine zones in which the cluster's nodes should be located. This field provides a default value if NodePool.Locations are not specified during node pool creation. Warning: changing cluster locations will update the NodePool.Locations of all node pools and will result in nodes being added and/or removed.
- Logging
Config Pulumi.Google Native. Container. V1. Inputs. Logging Config - Logging configuration for the cluster.
- Logging
Service string - The logging service the cluster should use to write logs. Currently available options: *
logging.googleapis.com/kubernetes
- The Cloud Logging service with a Kubernetes-native resource model *logging.googleapis.com
- The legacy Cloud Logging service (no longer available as of GKE 1.15). *none
- no logs will be exported from the cluster. If left as an empty string,logging.googleapis.com/kubernetes
will be used for GKE 1.14+ orlogging.googleapis.com
for earlier versions. - Maintenance
Policy Pulumi.Google Native. Container. V1. Inputs. Maintenance Policy - Configure the maintenance policy for this cluster.
- Master
Auth Pulumi.Google Native. Container. V1. Inputs. Master Auth - The authentication information for accessing the master endpoint. If unspecified, the defaults are used: For clusters before v1.12, if master_auth is unspecified,
username
will be set to "admin", a random password will be generated, and a client certificate will be issued. - Pulumi.
Google Native. Container. V1. Inputs. Master Authorized Networks Config - The configuration options for master authorized networks feature.
- Mesh
Certificates Pulumi.Google Native. Container. V1. Inputs. Mesh Certificates - Configuration for issuance of mTLS keys and certificates to Kubernetes pods.
- Monitoring
Config Pulumi.Google Native. Container. V1. Inputs. Monitoring Config - Monitoring configuration for the cluster.
- Monitoring
Service string - The monitoring service the cluster should use to write metrics. Currently available options: * "monitoring.googleapis.com/kubernetes" - The Cloud Monitoring service with a Kubernetes-native resource model *
monitoring.googleapis.com
- The legacy Cloud Monitoring service (no longer available as of GKE 1.15). *none
- No metrics will be exported from the cluster. If left as an empty string,monitoring.googleapis.com/kubernetes
will be used for GKE 1.14+ ormonitoring.googleapis.com
for earlier versions. - Name string
- The name of this cluster. The name must be unique within this project and location (e.g. zone or region), and can be up to 40 characters with the following restrictions: * Lowercase letters, numbers, and hyphens only. * Must start with a letter. * Must end with a number or a letter.
- Network string
- The name of the Google Compute Engine network to which the cluster is connected. If left unspecified, the
default
network will be used. - Network
Config Pulumi.Google Native. Container. V1. Inputs. Network Config - Configuration for cluster networking.
- Network
Policy Pulumi.Google Native. Container. V1. Inputs. Network Policy - Configuration options for the NetworkPolicy feature.
- Node
Config Pulumi.Google Native. Container. V1. Inputs. Node Config - Parameters used in creating the cluster's nodes. For requests, this field should only be used in lieu of a "node_pool" object, since this configuration (along with the "initial_node_count") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a node_pool at the same time. For responses, this field will be populated with the node configuration of the first node pool. (For configuration of each node pool, see
node_pool.config
) If unspecified, the defaults are used. This field is deprecated, use node_pool.config instead. - Node
Pool Pulumi.Auto Config Google Native. Container. V1. Inputs. Node Pool Auto Config - Node pool configs that apply to all auto-provisioned node pools in autopilot clusters and node auto-provisioning enabled clusters.
- Node
Pool Pulumi.Defaults Google Native. Container. V1. Inputs. Node Pool Defaults - Default NodePool settings for the entire cluster. These settings are overridden if specified on the specific NodePool object.
- Node
Pools List<Pulumi.Google Native. Container. V1. Inputs. Node Pool> - The node pools associated with this cluster. This field should not be set if "node_config" or "initial_node_count" are specified.
- Notification
Config Pulumi.Google Native. Container. V1. Inputs. Notification Config - Notification configuration of the cluster.
- Parent string
- The parent (project and location) where the cluster will be created. Specified in the format
projects/*/locations/*
. - Parent
Product Pulumi.Config Google Native. Container. V1. Inputs. Parent Product Config - The configuration of the parent product of the cluster. This field is used by Google internal products that are built on top of the GKE cluster and take the ownership of the cluster.
- Private
Cluster Pulumi.Config Google Native. Container. V1. Inputs. Private Cluster Config - Configuration for private cluster.
- Project string
- Deprecated. The Google Developers Console project ID or project number. This field has been deprecated and replaced by the parent field.
- Release
Channel Pulumi.Google Native. Container. V1. Inputs. Release Channel - Release channel configuration. If left unspecified on cluster creation and a version is specified, the cluster is enrolled in the most mature release channel where the version is available (first checking STABLE, then REGULAR, and finally RAPID). Otherwise, if no release channel configuration and no version is specified, the cluster is enrolled in the REGULAR channel with its default version.
- Resource
Labels Dictionary<string, string> - The resource labels for the cluster to use to annotate any related Google Compute Engine resources.
- Resource
Usage Pulumi.Export Config Google Native. Container. V1. Inputs. Resource Usage Export Config - Configuration for exporting resource usages. Resource usage export is disabled when this config is unspecified.
- Security
Posture Pulumi.Config Google Native. Container. V1. Inputs. Security Posture Config - Enable/Disable Security Posture API features for the cluster.
- Shielded
Nodes Pulumi.Google Native. Container. V1. Inputs. Shielded Nodes - Shielded Nodes configuration.
- Subnetwork string
- The name of the Google Compute Engine subnetwork to which the cluster is connected.
- Vertical
Pod Pulumi.Autoscaling Google Native. Container. V1. Inputs. Vertical Pod Autoscaling - Cluster-level Vertical Pod Autoscaling configuration.
- Workload
Identity Pulumi.Config Google Native. Container. V1. Inputs. Workload Identity Config - Configuration for the use of Kubernetes Service Accounts in GCP IAM policies.
- Zone string
- Deprecated. The name of the Google Compute Engine zone in which the cluster resides. This field has been deprecated and replaced by the parent field.
- Addons
Config AddonsConfig Args - Configurations for the various addons available to run in the cluster.
- Authenticator
Groups AuthenticatorConfig Groups Config Args - Configuration controlling RBAC group membership information.
- Autopilot
Autopilot
Args - Autopilot configuration for the cluster.
- Autoscaling
Cluster
Autoscaling Args - Cluster-level autoscaling configuration.
- Binary
Authorization Args - Configuration for Binary Authorization.
- Cluster
Ipv4Cidr string - The IP address range of the container pods in this cluster, in CIDR notation (e.g.
10.96.0.0/14
). Leave blank to have one automatically chosen or specify a/14
block in10.0.0.0/8
. - Conditions
[]Status
Condition Args - Which conditions caused the current cluster state.
- Confidential
Nodes ConfidentialNodes Args - Configuration of Confidential Nodes. All the nodes in the cluster will be Confidential VM once enabled.
- Cost
Management CostConfig Management Config Args - Configuration for the fine-grained cost management feature.
- Database
Encryption DatabaseEncryption Args - Configuration of etcd encryption.
- Default
Max MaxPods Constraint Pods Constraint Args - The default constraint on the maximum number of pods that can be run simultaneously on a node in the node pool of this cluster. Only honored if cluster created with IP Alias support.
- Description string
- An optional description of this cluster.
- Enable
K8s K8sBeta Apis Beta APIConfig Args - Beta APIs Config
- Enable
Kubernetes boolAlpha - Kubernetes alpha features are enabled on this cluster. This includes alpha API groups (e.g. v1alpha1) and features that may not be production ready in the kubernetes version of the master and nodes. The cluster has no SLA for uptime and master/node upgrades are disabled. Alpha enabled clusters are automatically deleted thirty days after creation.
- Enable
Tpu bool - Enable the ability to use Cloud TPUs in this cluster.
- Enterprise
Config EnterpriseConfig Args - GKE Enterprise Configuration.
- Etag string
- This checksum is computed by the server based on the value of cluster fields, and may be sent on update requests to ensure the client has an up-to-date value before proceeding.
- Fleet
Fleet
Args - Fleet information for the cluster.
- Identity
Service IdentityConfig Service Config Args - Configuration for Identity Service component.
- Initial
Cluster stringVersion - The initial Kubernetes version for this cluster. Valid versions are those found in validMasterVersions returned by getServerConfig. The version can be upgraded over time; such upgrades are reflected in currentMasterVersion and currentNodeVersion. Users may specify either explicit versions offered by Kubernetes Engine or version aliases, which have the following behavior: - "latest": picks the highest valid Kubernetes version - "1.X": picks the highest valid patch+gke.N patch in the 1.X version - "1.X.Y": picks the highest valid gke.N patch in the 1.X.Y version - "1.X.Y-gke.N": picks an explicit Kubernetes version - "","-": picks the default Kubernetes version
- Initial
Node intCount - The number of nodes to create in this cluster. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota. For requests, this field should only be used in lieu of a "node_pool" object, since this configuration (along with the "node_config") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a node_pool at the same time. This field is deprecated, use node_pool.initial_node_count instead.
- Instance
Group []stringUrls - Deprecated. Use node_pools.instance_group_urls.
- Ip
Allocation IPAllocationPolicy Policy Args - Configuration for cluster IP allocation.
- Legacy
Abac LegacyAbac Args - Configuration for the legacy ABAC authorization mode.
- Location string
- Locations []string
- The list of Google Compute Engine zones in which the cluster's nodes should be located. This field provides a default value if NodePool.Locations are not specified during node pool creation. Warning: changing cluster locations will update the NodePool.Locations of all node pools and will result in nodes being added and/or removed.
- Logging
Config LoggingConfig Args - Logging configuration for the cluster.
- Logging
Service string - The logging service the cluster should use to write logs. Currently available options: *
logging.googleapis.com/kubernetes
- The Cloud Logging service with a Kubernetes-native resource model *logging.googleapis.com
- The legacy Cloud Logging service (no longer available as of GKE 1.15). *none
- no logs will be exported from the cluster. If left as an empty string,logging.googleapis.com/kubernetes
will be used for GKE 1.14+ orlogging.googleapis.com
for earlier versions. - Maintenance
Policy MaintenancePolicy Args - Configure the maintenance policy for this cluster.
- Master
Auth MasterAuth Args - The authentication information for accessing the master endpoint. If unspecified, the defaults are used: For clusters before v1.12, if master_auth is unspecified,
username
will be set to "admin", a random password will be generated, and a client certificate will be issued. - Master
Authorized Networks Config Args - The configuration options for master authorized networks feature.
- Mesh
Certificates MeshCertificates Args - Configuration for issuance of mTLS keys and certificates to Kubernetes pods.
- Monitoring
Config MonitoringConfig Args - Monitoring configuration for the cluster.
- Monitoring
Service string - The monitoring service the cluster should use to write metrics. Currently available options: * "monitoring.googleapis.com/kubernetes" - The Cloud Monitoring service with a Kubernetes-native resource model *
monitoring.googleapis.com
- The legacy Cloud Monitoring service (no longer available as of GKE 1.15). *none
- No metrics will be exported from the cluster. If left as an empty string,monitoring.googleapis.com/kubernetes
will be used for GKE 1.14+ ormonitoring.googleapis.com
for earlier versions. - Name string
- The name of this cluster. The name must be unique within this project and location (e.g. zone or region), and can be up to 40 characters with the following restrictions: * Lowercase letters, numbers, and hyphens only. * Must start with a letter. * Must end with a number or a letter.
- Network string
- The name of the Google Compute Engine network to which the cluster is connected. If left unspecified, the
default
network will be used. - Network
Config NetworkConfig Args - Configuration for cluster networking.
- Network
Policy NetworkPolicy Args - Configuration options for the NetworkPolicy feature.
- Node
Config NodeConfig Args - Parameters used in creating the cluster's nodes. For requests, this field should only be used in lieu of a "node_pool" object, since this configuration (along with the "initial_node_count") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a node_pool at the same time. For responses, this field will be populated with the node configuration of the first node pool. (For configuration of each node pool, see
node_pool.config
) If unspecified, the defaults are used. This field is deprecated, use node_pool.config instead. - Node
Pool NodeAuto Config Pool Auto Config Args - Node pool configs that apply to all auto-provisioned node pools in autopilot clusters and node auto-provisioning enabled clusters.
- Node
Pool NodeDefaults Pool Defaults Args - Default NodePool settings for the entire cluster. These settings are overridden if specified on the specific NodePool object.
- Node
Pools []NodePool Type Args - The node pools associated with this cluster. This field should not be set if "node_config" or "initial_node_count" are specified.
- Notification
Config NotificationConfig Args - Notification configuration of the cluster.
- Parent string
- The parent (project and location) where the cluster will be created. Specified in the format
projects/*/locations/*
. - Parent
Product ParentConfig Product Config Args - The configuration of the parent product of the cluster. This field is used by Google internal products that are built on top of the GKE cluster and take the ownership of the cluster.
- Private
Cluster PrivateConfig Cluster Config Args - Configuration for private cluster.
- Project string
- Deprecated. The Google Developers Console project ID or project number. This field has been deprecated and replaced by the parent field.
- Release
Channel ReleaseChannel Args - Release channel configuration. If left unspecified on cluster creation and a version is specified, the cluster is enrolled in the most mature release channel where the version is available (first checking STABLE, then REGULAR, and finally RAPID). Otherwise, if no release channel configuration and no version is specified, the cluster is enrolled in the REGULAR channel with its default version.
- Resource
Labels map[string]string - The resource labels for the cluster to use to annotate any related Google Compute Engine resources.
- Resource
Usage ResourceExport Config Usage Export Config Args - Configuration for exporting resource usages. Resource usage export is disabled when this config is unspecified.
- Security
Posture SecurityConfig Posture Config Args - Enable/Disable Security Posture API features for the cluster.
- Shielded
Nodes ShieldedNodes Args - Shielded Nodes configuration.
- Subnetwork string
- The name of the Google Compute Engine subnetwork to which the cluster is connected.
- Vertical
Pod VerticalAutoscaling Pod Autoscaling Args - Cluster-level Vertical Pod Autoscaling configuration.
- Workload
Identity WorkloadConfig Identity Config Args - Configuration for the use of Kubernetes Service Accounts in GCP IAM policies.
- Zone string
- Deprecated. The name of the Google Compute Engine zone in which the cluster resides. This field has been deprecated and replaced by the parent field.
- addons
Config AddonsConfig - Configurations for the various addons available to run in the cluster.
- authenticator
Groups AuthenticatorConfig Groups Config - Configuration controlling RBAC group membership information.
- autopilot Autopilot
- Autopilot configuration for the cluster.
- autoscaling
Cluster
Autoscaling - Cluster-level autoscaling configuration.
- Binary
Authorization - Configuration for Binary Authorization.
- cluster
Ipv4Cidr String - The IP address range of the container pods in this cluster, in CIDR notation (e.g.
10.96.0.0/14
). Leave blank to have one automatically chosen or specify a/14
block in10.0.0.0/8
. - conditions
List<Status
Condition> - Which conditions caused the current cluster state.
- confidential
Nodes ConfidentialNodes - Configuration of Confidential Nodes. All the nodes in the cluster will be Confidential VM once enabled.
- cost
Management CostConfig Management Config - Configuration for the fine-grained cost management feature.
- database
Encryption DatabaseEncryption - Configuration of etcd encryption.
- default
Max MaxPods Constraint Pods Constraint - The default constraint on the maximum number of pods that can be run simultaneously on a node in the node pool of this cluster. Only honored if cluster created with IP Alias support.
- description String
- An optional description of this cluster.
- enable
K8s K8sBeta Apis Beta APIConfig - Beta APIs Config
- enable
Kubernetes BooleanAlpha - Kubernetes alpha features are enabled on this cluster. This includes alpha API groups (e.g. v1alpha1) and features that may not be production ready in the kubernetes version of the master and nodes. The cluster has no SLA for uptime and master/node upgrades are disabled. Alpha enabled clusters are automatically deleted thirty days after creation.
- enable
Tpu Boolean - Enable the ability to use Cloud TPUs in this cluster.
- enterprise
Config EnterpriseConfig - GKE Enterprise Configuration.
- etag String
- This checksum is computed by the server based on the value of cluster fields, and may be sent on update requests to ensure the client has an up-to-date value before proceeding.
- fleet Fleet
- Fleet information for the cluster.
- identity
Service IdentityConfig Service Config - Configuration for Identity Service component.
- initial
Cluster StringVersion - The initial Kubernetes version for this cluster. Valid versions are those found in validMasterVersions returned by getServerConfig. The version can be upgraded over time; such upgrades are reflected in currentMasterVersion and currentNodeVersion. Users may specify either explicit versions offered by Kubernetes Engine or version aliases, which have the following behavior: - "latest": picks the highest valid Kubernetes version - "1.X": picks the highest valid patch+gke.N patch in the 1.X version - "1.X.Y": picks the highest valid gke.N patch in the 1.X.Y version - "1.X.Y-gke.N": picks an explicit Kubernetes version - "","-": picks the default Kubernetes version
- initial
Node IntegerCount - The number of nodes to create in this cluster. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota. For requests, this field should only be used in lieu of a "node_pool" object, since this configuration (along with the "node_config") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a node_pool at the same time. This field is deprecated, use node_pool.initial_node_count instead.
- instance
Group List<String>Urls - Deprecated. Use node_pools.instance_group_urls.
- ip
Allocation IPAllocationPolicy Policy - Configuration for cluster IP allocation.
- legacy
Abac LegacyAbac - Configuration for the legacy ABAC authorization mode.
- location String
- locations List<String>
- The list of Google Compute Engine zones in which the cluster's nodes should be located. This field provides a default value if NodePool.Locations are not specified during node pool creation. Warning: changing cluster locations will update the NodePool.Locations of all node pools and will result in nodes being added and/or removed.
- logging
Config LoggingConfig - Logging configuration for the cluster.
- logging
Service String - The logging service the cluster should use to write logs. Currently available options: *
logging.googleapis.com/kubernetes
- The Cloud Logging service with a Kubernetes-native resource model *logging.googleapis.com
- The legacy Cloud Logging service (no longer available as of GKE 1.15). *none
- no logs will be exported from the cluster. If left as an empty string,logging.googleapis.com/kubernetes
will be used for GKE 1.14+ orlogging.googleapis.com
for earlier versions. - maintenance
Policy MaintenancePolicy - Configure the maintenance policy for this cluster.
- master
Auth MasterAuth - The authentication information for accessing the master endpoint. If unspecified, the defaults are used: For clusters before v1.12, if master_auth is unspecified,
username
will be set to "admin", a random password will be generated, and a client certificate will be issued. - Master
Authorized Networks Config - The configuration options for master authorized networks feature.
- mesh
Certificates MeshCertificates - Configuration for issuance of mTLS keys and certificates to Kubernetes pods.
- monitoring
Config MonitoringConfig - Monitoring configuration for the cluster.
- monitoring
Service String - The monitoring service the cluster should use to write metrics. Currently available options: * "monitoring.googleapis.com/kubernetes" - The Cloud Monitoring service with a Kubernetes-native resource model *
monitoring.googleapis.com
- The legacy Cloud Monitoring service (no longer available as of GKE 1.15). *none
- No metrics will be exported from the cluster. If left as an empty string,monitoring.googleapis.com/kubernetes
will be used for GKE 1.14+ ormonitoring.googleapis.com
for earlier versions. - name String
- The name of this cluster. The name must be unique within this project and location (e.g. zone or region), and can be up to 40 characters with the following restrictions: * Lowercase letters, numbers, and hyphens only. * Must start with a letter. * Must end with a number or a letter.
- network String
- The name of the Google Compute Engine network to which the cluster is connected. If left unspecified, the
default
network will be used. - network
Config NetworkConfig - Configuration for cluster networking.
- network
Policy NetworkPolicy - Configuration options for the NetworkPolicy feature.
- node
Config NodeConfig - Parameters used in creating the cluster's nodes. For requests, this field should only be used in lieu of a "node_pool" object, since this configuration (along with the "initial_node_count") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a node_pool at the same time. For responses, this field will be populated with the node configuration of the first node pool. (For configuration of each node pool, see
node_pool.config
) If unspecified, the defaults are used. This field is deprecated, use node_pool.config instead. - node
Pool NodeAuto Config Pool Auto Config - Node pool configs that apply to all auto-provisioned node pools in autopilot clusters and node auto-provisioning enabled clusters.
- node
Pool NodeDefaults Pool Defaults - Default NodePool settings for the entire cluster. These settings are overridden if specified on the specific NodePool object.
- node
Pools List<NodePool> - The node pools associated with this cluster. This field should not be set if "node_config" or "initial_node_count" are specified.
- notification
Config NotificationConfig - Notification configuration of the cluster.
- parent String
- The parent (project and location) where the cluster will be created. Specified in the format
projects/*/locations/*
. - parent
Product ParentConfig Product Config - The configuration of the parent product of the cluster. This field is used by Google internal products that are built on top of the GKE cluster and take the ownership of the cluster.
- private
Cluster PrivateConfig Cluster Config - Configuration for private cluster.
- project String
- Deprecated. The Google Developers Console project ID or project number. This field has been deprecated and replaced by the parent field.
- release
Channel ReleaseChannel - Release channel configuration. If left unspecified on cluster creation and a version is specified, the cluster is enrolled in the most mature release channel where the version is available (first checking STABLE, then REGULAR, and finally RAPID). Otherwise, if no release channel configuration and no version is specified, the cluster is enrolled in the REGULAR channel with its default version.
- resource
Labels Map<String,String> - The resource labels for the cluster to use to annotate any related Google Compute Engine resources.
- resource
Usage ResourceExport Config Usage Export Config - Configuration for exporting resource usages. Resource usage export is disabled when this config is unspecified.
- security
Posture SecurityConfig Posture Config - Enable/Disable Security Posture API features for the cluster.
- shielded
Nodes ShieldedNodes - Shielded Nodes configuration.
- subnetwork String
- The name of the Google Compute Engine subnetwork to which the cluster is connected.
- vertical
Pod VerticalAutoscaling Pod Autoscaling - Cluster-level Vertical Pod Autoscaling configuration.
- workload
Identity WorkloadConfig Identity Config - Configuration for the use of Kubernetes Service Accounts in GCP IAM policies.
- zone String
- Deprecated. The name of the Google Compute Engine zone in which the cluster resides. This field has been deprecated and replaced by the parent field.
- addons
Config AddonsConfig - Configurations for the various addons available to run in the cluster.
- authenticator
Groups AuthenticatorConfig Groups Config - Configuration controlling RBAC group membership information.
- autopilot Autopilot
- Autopilot configuration for the cluster.
- autoscaling
Cluster
Autoscaling - Cluster-level autoscaling configuration.
- Binary
Authorization - Configuration for Binary Authorization.
- cluster
Ipv4Cidr string - The IP address range of the container pods in this cluster, in CIDR notation (e.g.
10.96.0.0/14
). Leave blank to have one automatically chosen or specify a/14
block in10.0.0.0/8
. - conditions
Status
Condition[] - Which conditions caused the current cluster state.
- confidential
Nodes ConfidentialNodes - Configuration of Confidential Nodes. All the nodes in the cluster will be Confidential VM once enabled.
- cost
Management CostConfig Management Config - Configuration for the fine-grained cost management feature.
- database
Encryption DatabaseEncryption - Configuration of etcd encryption.
- default
Max MaxPods Constraint Pods Constraint - The default constraint on the maximum number of pods that can be run simultaneously on a node in the node pool of this cluster. Only honored if cluster created with IP Alias support.
- description string
- An optional description of this cluster.
- enable
K8s K8sBeta Apis Beta APIConfig - Beta APIs Config
- enable
Kubernetes booleanAlpha - Kubernetes alpha features are enabled on this cluster. This includes alpha API groups (e.g. v1alpha1) and features that may not be production ready in the kubernetes version of the master and nodes. The cluster has no SLA for uptime and master/node upgrades are disabled. Alpha enabled clusters are automatically deleted thirty days after creation.
- enable
Tpu boolean - Enable the ability to use Cloud TPUs in this cluster.
- enterprise
Config EnterpriseConfig - GKE Enterprise Configuration.
- etag string
- This checksum is computed by the server based on the value of cluster fields, and may be sent on update requests to ensure the client has an up-to-date value before proceeding.
- fleet Fleet
- Fleet information for the cluster.
- identity
Service IdentityConfig Service Config - Configuration for Identity Service component.
- initial
Cluster stringVersion - The initial Kubernetes version for this cluster. Valid versions are those found in validMasterVersions returned by getServerConfig. The version can be upgraded over time; such upgrades are reflected in currentMasterVersion and currentNodeVersion. Users may specify either explicit versions offered by Kubernetes Engine or version aliases, which have the following behavior: - "latest": picks the highest valid Kubernetes version - "1.X": picks the highest valid patch+gke.N patch in the 1.X version - "1.X.Y": picks the highest valid gke.N patch in the 1.X.Y version - "1.X.Y-gke.N": picks an explicit Kubernetes version - "","-": picks the default Kubernetes version
- initial
Node numberCount - The number of nodes to create in this cluster. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota. For requests, this field should only be used in lieu of a "node_pool" object, since this configuration (along with the "node_config") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a node_pool at the same time. This field is deprecated, use node_pool.initial_node_count instead.
- instance
Group string[]Urls - Deprecated. Use node_pools.instance_group_urls.
- ip
Allocation IPAllocationPolicy Policy - Configuration for cluster IP allocation.
- legacy
Abac LegacyAbac - Configuration for the legacy ABAC authorization mode.
- location string
- locations string[]
- The list of Google Compute Engine zones in which the cluster's nodes should be located. This field provides a default value if NodePool.Locations are not specified during node pool creation. Warning: changing cluster locations will update the NodePool.Locations of all node pools and will result in nodes being added and/or removed.
- logging
Config LoggingConfig - Logging configuration for the cluster.
- logging
Service string - The logging service the cluster should use to write logs. Currently available options: *
logging.googleapis.com/kubernetes
- The Cloud Logging service with a Kubernetes-native resource model *logging.googleapis.com
- The legacy Cloud Logging service (no longer available as of GKE 1.15). *none
- no logs will be exported from the cluster. If left as an empty string,logging.googleapis.com/kubernetes
will be used for GKE 1.14+ orlogging.googleapis.com
for earlier versions. - maintenance
Policy MaintenancePolicy - Configure the maintenance policy for this cluster.
- master
Auth MasterAuth - The authentication information for accessing the master endpoint. If unspecified, the defaults are used: For clusters before v1.12, if master_auth is unspecified,
username
will be set to "admin", a random password will be generated, and a client certificate will be issued. - Master
Authorized Networks Config - The configuration options for master authorized networks feature.
- mesh
Certificates MeshCertificates - Configuration for issuance of mTLS keys and certificates to Kubernetes pods.
- monitoring
Config MonitoringConfig - Monitoring configuration for the cluster.
- monitoring
Service string - The monitoring service the cluster should use to write metrics. Currently available options: * "monitoring.googleapis.com/kubernetes" - The Cloud Monitoring service with a Kubernetes-native resource model *
monitoring.googleapis.com
- The legacy Cloud Monitoring service (no longer available as of GKE 1.15). *none
- No metrics will be exported from the cluster. If left as an empty string,monitoring.googleapis.com/kubernetes
will be used for GKE 1.14+ ormonitoring.googleapis.com
for earlier versions. - name string
- The name of this cluster. The name must be unique within this project and location (e.g. zone or region), and can be up to 40 characters with the following restrictions: * Lowercase letters, numbers, and hyphens only. * Must start with a letter. * Must end with a number or a letter.
- network string
- The name of the Google Compute Engine network to which the cluster is connected. If left unspecified, the
default
network will be used. - network
Config NetworkConfig - Configuration for cluster networking.
- network
Policy NetworkPolicy - Configuration options for the NetworkPolicy feature.
- node
Config NodeConfig - Parameters used in creating the cluster's nodes. For requests, this field should only be used in lieu of a "node_pool" object, since this configuration (along with the "initial_node_count") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a node_pool at the same time. For responses, this field will be populated with the node configuration of the first node pool. (For configuration of each node pool, see
node_pool.config
) If unspecified, the defaults are used. This field is deprecated, use node_pool.config instead. - node
Pool NodeAuto Config Pool Auto Config - Node pool configs that apply to all auto-provisioned node pools in autopilot clusters and node auto-provisioning enabled clusters.
- node
Pool NodeDefaults Pool Defaults - Default NodePool settings for the entire cluster. These settings are overridden if specified on the specific NodePool object.
- node
Pools NodePool[] - The node pools associated with this cluster. This field should not be set if "node_config" or "initial_node_count" are specified.
- notification
Config NotificationConfig - Notification configuration of the cluster.
- parent string
- The parent (project and location) where the cluster will be created. Specified in the format
projects/*/locations/*
. - parent
Product ParentConfig Product Config - The configuration of the parent product of the cluster. This field is used by Google internal products that are built on top of the GKE cluster and take the ownership of the cluster.
- private
Cluster PrivateConfig Cluster Config - Configuration for private cluster.
- project string
- Deprecated. The Google Developers Console project ID or project number. This field has been deprecated and replaced by the parent field.
- release
Channel ReleaseChannel - Release channel configuration. If left unspecified on cluster creation and a version is specified, the cluster is enrolled in the most mature release channel where the version is available (first checking STABLE, then REGULAR, and finally RAPID). Otherwise, if no release channel configuration and no version is specified, the cluster is enrolled in the REGULAR channel with its default version.
- resource
Labels {[key: string]: string} - The resource labels for the cluster to use to annotate any related Google Compute Engine resources.
- resource
Usage ResourceExport Config Usage Export Config - Configuration for exporting resource usages. Resource usage export is disabled when this config is unspecified.
- security
Posture SecurityConfig Posture Config - Enable/Disable Security Posture API features for the cluster.
- shielded
Nodes ShieldedNodes - Shielded Nodes configuration.
- subnetwork string
- The name of the Google Compute Engine subnetwork to which the cluster is connected.
- vertical
Pod VerticalAutoscaling Pod Autoscaling - Cluster-level Vertical Pod Autoscaling configuration.
- workload
Identity WorkloadConfig Identity Config - Configuration for the use of Kubernetes Service Accounts in GCP IAM policies.
- zone string
- Deprecated. The name of the Google Compute Engine zone in which the cluster resides. This field has been deprecated and replaced by the parent field.
- addons_
config AddonsConfig Args - Configurations for the various addons available to run in the cluster.
- authenticator_
groups_ Authenticatorconfig Groups Config Args - Configuration controlling RBAC group membership information.
- autopilot
Autopilot
Args - Autopilot configuration for the cluster.
- autoscaling
Cluster
Autoscaling Args - Cluster-level autoscaling configuration.
- Binary
Authorization Args - Configuration for Binary Authorization.
- cluster_
ipv4_ strcidr - The IP address range of the container pods in this cluster, in CIDR notation (e.g.
10.96.0.0/14
). Leave blank to have one automatically chosen or specify a/14
block in10.0.0.0/8
. - conditions
Sequence[Status
Condition Args] - Which conditions caused the current cluster state.
- confidential_
nodes ConfidentialNodes Args - Configuration of Confidential Nodes. All the nodes in the cluster will be Confidential VM once enabled.
- cost_
management_ Costconfig Management Config Args - Configuration for the fine-grained cost management feature.
- database_
encryption DatabaseEncryption Args - Configuration of etcd encryption.
- default_
max_ Maxpods_ constraint Pods Constraint Args - The default constraint on the maximum number of pods that can be run simultaneously on a node in the node pool of this cluster. Only honored if cluster created with IP Alias support.
- description str
- An optional description of this cluster.
- enable_
k8s_ K8sbeta_ apis Beta APIConfig Args - Beta APIs Config
- enable_
kubernetes_ boolalpha - Kubernetes alpha features are enabled on this cluster. This includes alpha API groups (e.g. v1alpha1) and features that may not be production ready in the kubernetes version of the master and nodes. The cluster has no SLA for uptime and master/node upgrades are disabled. Alpha enabled clusters are automatically deleted thirty days after creation.
- enable_
tpu bool - Enable the ability to use Cloud TPUs in this cluster.
- enterprise_
config EnterpriseConfig Args - GKE Enterprise Configuration.
- etag str
- This checksum is computed by the server based on the value of cluster fields, and may be sent on update requests to ensure the client has an up-to-date value before proceeding.
- fleet
Fleet
Args - Fleet information for the cluster.
- identity_
service_ Identityconfig Service Config Args - Configuration for Identity Service component.
- initial_
cluster_ strversion - The initial Kubernetes version for this cluster. Valid versions are those found in validMasterVersions returned by getServerConfig. The version can be upgraded over time; such upgrades are reflected in currentMasterVersion and currentNodeVersion. Users may specify either explicit versions offered by Kubernetes Engine or version aliases, which have the following behavior: - "latest": picks the highest valid Kubernetes version - "1.X": picks the highest valid patch+gke.N patch in the 1.X version - "1.X.Y": picks the highest valid gke.N patch in the 1.X.Y version - "1.X.Y-gke.N": picks an explicit Kubernetes version - "","-": picks the default Kubernetes version
- initial_
node_ intcount - The number of nodes to create in this cluster. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota. For requests, this field should only be used in lieu of a "node_pool" object, since this configuration (along with the "node_config") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a node_pool at the same time. This field is deprecated, use node_pool.initial_node_count instead.
- instance_
group_ Sequence[str]urls - Deprecated. Use node_pools.instance_group_urls.
- ip_
allocation_ IPAllocationpolicy Policy Args - Configuration for cluster IP allocation.
- legacy_
abac LegacyAbac Args - Configuration for the legacy ABAC authorization mode.
- location str
- locations Sequence[str]
- The list of Google Compute Engine zones in which the cluster's nodes should be located. This field provides a default value if NodePool.Locations are not specified during node pool creation. Warning: changing cluster locations will update the NodePool.Locations of all node pools and will result in nodes being added and/or removed.
- logging_
config LoggingConfig Args - Logging configuration for the cluster.
- logging_
service str - The logging service the cluster should use to write logs. Currently available options: *
logging.googleapis.com/kubernetes
- The Cloud Logging service with a Kubernetes-native resource model *logging.googleapis.com
- The legacy Cloud Logging service (no longer available as of GKE 1.15). *none
- no logs will be exported from the cluster. If left as an empty string,logging.googleapis.com/kubernetes
will be used for GKE 1.14+ orlogging.googleapis.com
for earlier versions. - maintenance_
policy MaintenancePolicy Args - Configure the maintenance policy for this cluster.
- master_
auth MasterAuth Args - The authentication information for accessing the master endpoint. If unspecified, the defaults are used: For clusters before v1.12, if master_auth is unspecified,
username
will be set to "admin", a random password will be generated, and a client certificate will be issued. - Master
Authorized Networks Config Args - The configuration options for master authorized networks feature.
- mesh_
certificates MeshCertificates Args - Configuration for issuance of mTLS keys and certificates to Kubernetes pods.
- monitoring_
config MonitoringConfig Args - Monitoring configuration for the cluster.
- monitoring_
service str - The monitoring service the cluster should use to write metrics. Currently available options: * "monitoring.googleapis.com/kubernetes" - The Cloud Monitoring service with a Kubernetes-native resource model *
monitoring.googleapis.com
- The legacy Cloud Monitoring service (no longer available as of GKE 1.15). *none
- No metrics will be exported from the cluster. If left as an empty string,monitoring.googleapis.com/kubernetes
will be used for GKE 1.14+ ormonitoring.googleapis.com
for earlier versions. - name str
- The name of this cluster. The name must be unique within this project and location (e.g. zone or region), and can be up to 40 characters with the following restrictions: * Lowercase letters, numbers, and hyphens only. * Must start with a letter. * Must end with a number or a letter.
- network str
- The name of the Google Compute Engine network to which the cluster is connected. If left unspecified, the
default
network will be used. - network_
config NetworkConfig Args - Configuration for cluster networking.
- network_
policy NetworkPolicy Args - Configuration options for the NetworkPolicy feature.
- node_
config NodeConfig Args - Parameters used in creating the cluster's nodes. For requests, this field should only be used in lieu of a "node_pool" object, since this configuration (along with the "initial_node_count") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a node_pool at the same time. For responses, this field will be populated with the node configuration of the first node pool. (For configuration of each node pool, see
node_pool.config
) If unspecified, the defaults are used. This field is deprecated, use node_pool.config instead. - node_
pool_ Nodeauto_ config Pool Auto Config Args - Node pool configs that apply to all auto-provisioned node pools in autopilot clusters and node auto-provisioning enabled clusters.
- node_
pool_ Nodedefaults Pool Defaults Args - Default NodePool settings for the entire cluster. These settings are overridden if specified on the specific NodePool object.
- node_
pools Sequence[NodePool Args] - The node pools associated with this cluster. This field should not be set if "node_config" or "initial_node_count" are specified.
- notification_
config NotificationConfig Args - Notification configuration of the cluster.
- parent str
- The parent (project and location) where the cluster will be created. Specified in the format
projects/*/locations/*
. - parent_
product_ Parentconfig Product Config Args - The configuration of the parent product of the cluster. This field is used by Google internal products that are built on top of the GKE cluster and take the ownership of the cluster.
- private_
cluster_ Privateconfig Cluster Config Args - Configuration for private cluster.
- project str
- Deprecated. The Google Developers Console project ID or project number. This field has been deprecated and replaced by the parent field.
- release_
channel ReleaseChannel Args - Release channel configuration. If left unspecified on cluster creation and a version is specified, the cluster is enrolled in the most mature release channel where the version is available (first checking STABLE, then REGULAR, and finally RAPID). Otherwise, if no release channel configuration and no version is specified, the cluster is enrolled in the REGULAR channel with its default version.
- resource_
labels Mapping[str, str] - The resource labels for the cluster to use to annotate any related Google Compute Engine resources.
- resource_
usage_ Resourceexport_ config Usage Export Config Args - Configuration for exporting resource usages. Resource usage export is disabled when this config is unspecified.
- security_
posture_ Securityconfig Posture Config Args - Enable/Disable Security Posture API features for the cluster.
- shielded_
nodes ShieldedNodes Args - Shielded Nodes configuration.
- subnetwork str
- The name of the Google Compute Engine subnetwork to which the cluster is connected.
- vertical_
pod_ Verticalautoscaling Pod Autoscaling Args - Cluster-level Vertical Pod Autoscaling configuration.
- workload_
identity_ Workloadconfig Identity Config Args - Configuration for the use of Kubernetes Service Accounts in GCP IAM policies.
- zone str
- Deprecated. The name of the Google Compute Engine zone in which the cluster resides. This field has been deprecated and replaced by the parent field.
- addons
Config Property Map - Configurations for the various addons available to run in the cluster.
- authenticator
Groups Property MapConfig - Configuration controlling RBAC group membership information.
- autopilot Property Map
- Autopilot configuration for the cluster.
- autoscaling Property Map
- Cluster-level autoscaling configuration.
- Property Map
- Configuration for Binary Authorization.
- cluster
Ipv4Cidr String - The IP address range of the container pods in this cluster, in CIDR notation (e.g.
10.96.0.0/14
). Leave blank to have one automatically chosen or specify a/14
block in10.0.0.0/8
. - conditions List<Property Map>
- Which conditions caused the current cluster state.
- confidential
Nodes Property Map - Configuration of Confidential Nodes. All the nodes in the cluster will be Confidential VM once enabled.
- cost
Management Property MapConfig - Configuration for the fine-grained cost management feature.
- database
Encryption Property Map - Configuration of etcd encryption.
- default
Max Property MapPods Constraint - The default constraint on the maximum number of pods that can be run simultaneously on a node in the node pool of this cluster. Only honored if cluster created with IP Alias support.
- description String
- An optional description of this cluster.
- enable
K8s Property MapBeta Apis - Beta APIs Config
- enable
Kubernetes BooleanAlpha - Kubernetes alpha features are enabled on this cluster. This includes alpha API groups (e.g. v1alpha1) and features that may not be production ready in the kubernetes version of the master and nodes. The cluster has no SLA for uptime and master/node upgrades are disabled. Alpha enabled clusters are automatically deleted thirty days after creation.
- enable
Tpu Boolean - Enable the ability to use Cloud TPUs in this cluster.
- enterprise
Config Property Map - GKE Enterprise Configuration.
- etag String
- This checksum is computed by the server based on the value of cluster fields, and may be sent on update requests to ensure the client has an up-to-date value before proceeding.
- fleet Property Map
- Fleet information for the cluster.
- identity
Service Property MapConfig - Configuration for Identity Service component.
- initial
Cluster StringVersion - The initial Kubernetes version for this cluster. Valid versions are those found in validMasterVersions returned by getServerConfig. The version can be upgraded over time; such upgrades are reflected in currentMasterVersion and currentNodeVersion. Users may specify either explicit versions offered by Kubernetes Engine or version aliases, which have the following behavior: - "latest": picks the highest valid Kubernetes version - "1.X": picks the highest valid patch+gke.N patch in the 1.X version - "1.X.Y": picks the highest valid gke.N patch in the 1.X.Y version - "1.X.Y-gke.N": picks an explicit Kubernetes version - "","-": picks the default Kubernetes version
- initial
Node NumberCount - The number of nodes to create in this cluster. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota. For requests, this field should only be used in lieu of a "node_pool" object, since this configuration (along with the "node_config") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a node_pool at the same time. This field is deprecated, use node_pool.initial_node_count instead.
- instance
Group List<String>Urls - Deprecated. Use node_pools.instance_group_urls.
- ip
Allocation Property MapPolicy - Configuration for cluster IP allocation.
- legacy
Abac Property Map - Configuration for the legacy ABAC authorization mode.
- location String
- locations List<String>
- The list of Google Compute Engine zones in which the cluster's nodes should be located. This field provides a default value if NodePool.Locations are not specified during node pool creation. Warning: changing cluster locations will update the NodePool.Locations of all node pools and will result in nodes being added and/or removed.
- logging
Config Property Map - Logging configuration for the cluster.
- logging
Service String - The logging service the cluster should use to write logs. Currently available options: *
logging.googleapis.com/kubernetes
- The Cloud Logging service with a Kubernetes-native resource model *logging.googleapis.com
- The legacy Cloud Logging service (no longer available as of GKE 1.15). *none
- no logs will be exported from the cluster. If left as an empty string,logging.googleapis.com/kubernetes
will be used for GKE 1.14+ orlogging.googleapis.com
for earlier versions. - maintenance
Policy Property Map - Configure the maintenance policy for this cluster.
- master
Auth Property Map - The authentication information for accessing the master endpoint. If unspecified, the defaults are used: For clusters before v1.12, if master_auth is unspecified,
username
will be set to "admin", a random password will be generated, and a client certificate will be issued. - Property Map
- The configuration options for master authorized networks feature.
- mesh
Certificates Property Map - Configuration for issuance of mTLS keys and certificates to Kubernetes pods.
- monitoring
Config Property Map - Monitoring configuration for the cluster.
- monitoring
Service String - The monitoring service the cluster should use to write metrics. Currently available options: * "monitoring.googleapis.com/kubernetes" - The Cloud Monitoring service with a Kubernetes-native resource model *
monitoring.googleapis.com
- The legacy Cloud Monitoring service (no longer available as of GKE 1.15). *none
- No metrics will be exported from the cluster. If left as an empty string,monitoring.googleapis.com/kubernetes
will be used for GKE 1.14+ ormonitoring.googleapis.com
for earlier versions. - name String
- The name of this cluster. The name must be unique within this project and location (e.g. zone or region), and can be up to 40 characters with the following restrictions: * Lowercase letters, numbers, and hyphens only. * Must start with a letter. * Must end with a number or a letter.
- network String
- The name of the Google Compute Engine network to which the cluster is connected. If left unspecified, the
default
network will be used. - network
Config Property Map - Configuration for cluster networking.
- network
Policy Property Map - Configuration options for the NetworkPolicy feature.
- node
Config Property Map - Parameters used in creating the cluster's nodes. For requests, this field should only be used in lieu of a "node_pool" object, since this configuration (along with the "initial_node_count") will be used to create a "NodePool" object with an auto-generated name. Do not use this and a node_pool at the same time. For responses, this field will be populated with the node configuration of the first node pool. (For configuration of each node pool, see
node_pool.config
) If unspecified, the defaults are used. This field is deprecated, use node_pool.config instead. - node
Pool Property MapAuto Config - Node pool configs that apply to all auto-provisioned node pools in autopilot clusters and node auto-provisioning enabled clusters.
- node
Pool Property MapDefaults - Default NodePool settings for the entire cluster. These settings are overridden if specified on the specific NodePool object.
- node
Pools List<Property Map> - The node pools associated with this cluster. This field should not be set if "node_config" or "initial_node_count" are specified.
- notification
Config Property Map - Notification configuration of the cluster.
- parent String
- The parent (project and location) where the cluster will be created. Specified in the format
projects/*/locations/*
. - parent
Product Property MapConfig - The configuration of the parent product of the cluster. This field is used by Google internal products that are built on top of the GKE cluster and take the ownership of the cluster.
- private
Cluster Property MapConfig - Configuration for private cluster.
- project String
- Deprecated. The Google Developers Console project ID or project number. This field has been deprecated and replaced by the parent field.
- release
Channel Property Map - Release channel configuration. If left unspecified on cluster creation and a version is specified, the cluster is enrolled in the most mature release channel where the version is available (first checking STABLE, then REGULAR, and finally RAPID). Otherwise, if no release channel configuration and no version is specified, the cluster is enrolled in the REGULAR channel with its default version.
- resource
Labels Map<String> - The resource labels for the cluster to use to annotate any related Google Compute Engine resources.
- resource
Usage Property MapExport Config - Configuration for exporting resource usages. Resource usage export is disabled when this config is unspecified.
- security
Posture Property MapConfig - Enable/Disable Security Posture API features for the cluster.
- shielded
Nodes Property Map - Shielded Nodes configuration.
- subnetwork String
- The name of the Google Compute Engine subnetwork to which the cluster is connected.
- vertical
Pod Property MapAutoscaling - Cluster-level Vertical Pod Autoscaling configuration.
- workload
Identity Property MapConfig - Configuration for the use of Kubernetes Service Accounts in GCP IAM policies.
- zone String
- Deprecated. The name of the Google Compute Engine zone in which the cluster resides. This field has been deprecated and replaced by the parent field.
Outputs
All input properties are implicitly available as output properties. Additionally, the Cluster resource produces the following output properties:
- Create
Time string - [Output only] The time the cluster was created, in RFC3339 text format.
- Current
Master stringVersion - [Output only] The current software version of the master endpoint.
- Current
Node intCount - [Output only] The number of nodes currently in the cluster. Deprecated. Call Kubernetes API directly to retrieve node information.
- Current
Node stringVersion - [Output only] Deprecated, use NodePools.version instead. The current version of the node software components. If they are currently at multiple versions because they're in the process of being upgraded, this reflects the minimum version of all nodes.
- Endpoint string
- [Output only] The IP address of this cluster's master endpoint. The endpoint can be accessed from the internet at
https://username:password@endpoint/
. See themasterAuth
property of this resource for username and password information. - Expire
Time string - [Output only] The time the cluster will be automatically deleted in RFC3339 text format.
- Id string
- The provider-assigned unique ID for this managed resource.
- Label
Fingerprint string - The fingerprint of the set of labels for this cluster.
- Node
Ipv4Cidr intSize - [Output only] The size of the address space on each node for hosting containers. This is provisioned from within the
container_ipv4_cidr
range. This field will only be set when cluster is in route-based network mode. - Self
Link string - [Output only] Server-defined URL for the resource.
- Services
Ipv4Cidr string - [Output only] The IP address range of the Kubernetes services in this cluster, in CIDR notation (e.g.
1.2.3.4/29
). Service addresses are typically put in the last/16
from the container CIDR. - Status string
- [Output only] The current status of this cluster.
- Status
Message string - [Output only] Deprecated. Use conditions instead. Additional information about the current status of this cluster, if available.
- Tpu
Ipv4Cidr stringBlock - [Output only] The IP address range of the Cloud TPUs in this cluster, in CIDR notation (e.g.
1.2.3.4/29
).
- Create
Time string - [Output only] The time the cluster was created, in RFC3339 text format.
- Current
Master stringVersion - [Output only] The current software version of the master endpoint.
- Current
Node intCount - [Output only] The number of nodes currently in the cluster. Deprecated. Call Kubernetes API directly to retrieve node information.
- Current
Node stringVersion - [Output only] Deprecated, use NodePools.version instead. The current version of the node software components. If they are currently at multiple versions because they're in the process of being upgraded, this reflects the minimum version of all nodes.
- Endpoint string
- [Output only] The IP address of this cluster's master endpoint. The endpoint can be accessed from the internet at
https://username:password@endpoint/
. See themasterAuth
property of this resource for username and password information. - Expire
Time string - [Output only] The time the cluster will be automatically deleted in RFC3339 text format.
- Id string
- The provider-assigned unique ID for this managed resource.
- Label
Fingerprint string - The fingerprint of the set of labels for this cluster.
- Node
Ipv4Cidr intSize - [Output only] The size of the address space on each node for hosting containers. This is provisioned from within the
container_ipv4_cidr
range. This field will only be set when cluster is in route-based network mode. - Self
Link string - [Output only] Server-defined URL for the resource.
- Services
Ipv4Cidr string - [Output only] The IP address range of the Kubernetes services in this cluster, in CIDR notation (e.g.
1.2.3.4/29
). Service addresses are typically put in the last/16
from the container CIDR. - Status string
- [Output only] The current status of this cluster.
- Status
Message string - [Output only] Deprecated. Use conditions instead. Additional information about the current status of this cluster, if available.
- Tpu
Ipv4Cidr stringBlock - [Output only] The IP address range of the Cloud TPUs in this cluster, in CIDR notation (e.g.
1.2.3.4/29
).
- create
Time String - [Output only] The time the cluster was created, in RFC3339 text format.
- current
Master StringVersion - [Output only] The current software version of the master endpoint.
- current
Node IntegerCount - [Output only] The number of nodes currently in the cluster. Deprecated. Call Kubernetes API directly to retrieve node information.
- current
Node StringVersion - [Output only] Deprecated, use NodePools.version instead. The current version of the node software components. If they are currently at multiple versions because they're in the process of being upgraded, this reflects the minimum version of all nodes.
- endpoint String
- [Output only] The IP address of this cluster's master endpoint. The endpoint can be accessed from the internet at
https://username:password@endpoint/
. See themasterAuth
property of this resource for username and password information. - expire
Time String - [Output only] The time the cluster will be automatically deleted in RFC3339 text format.
- id String
- The provider-assigned unique ID for this managed resource.
- label
Fingerprint String - The fingerprint of the set of labels for this cluster.
- node
Ipv4Cidr IntegerSize - [Output only] The size of the address space on each node for hosting containers. This is provisioned from within the
container_ipv4_cidr
range. This field will only be set when cluster is in route-based network mode. - self
Link String - [Output only] Server-defined URL for the resource.
- services
Ipv4Cidr String - [Output only] The IP address range of the Kubernetes services in this cluster, in CIDR notation (e.g.
1.2.3.4/29
). Service addresses are typically put in the last/16
from the container CIDR. - status String
- [Output only] The current status of this cluster.
- status
Message String - [Output only] Deprecated. Use conditions instead. Additional information about the current status of this cluster, if available.
- tpu
Ipv4Cidr StringBlock - [Output only] The IP address range of the Cloud TPUs in this cluster, in CIDR notation (e.g.
1.2.3.4/29
).
- create
Time string - [Output only] The time the cluster was created, in RFC3339 text format.
- current
Master stringVersion - [Output only] The current software version of the master endpoint.
- current
Node numberCount - [Output only] The number of nodes currently in the cluster. Deprecated. Call Kubernetes API directly to retrieve node information.
- current
Node stringVersion - [Output only] Deprecated, use NodePools.version instead. The current version of the node software components. If they are currently at multiple versions because they're in the process of being upgraded, this reflects the minimum version of all nodes.
- endpoint string
- [Output only] The IP address of this cluster's master endpoint. The endpoint can be accessed from the internet at
https://username:password@endpoint/
. See themasterAuth
property of this resource for username and password information. - expire
Time string - [Output only] The time the cluster will be automatically deleted in RFC3339 text format.
- id string
- The provider-assigned unique ID for this managed resource.
- label
Fingerprint string - The fingerprint of the set of labels for this cluster.
- node
Ipv4Cidr numberSize - [Output only] The size of the address space on each node for hosting containers. This is provisioned from within the
container_ipv4_cidr
range. This field will only be set when cluster is in route-based network mode. - self
Link string - [Output only] Server-defined URL for the resource.
- services
Ipv4Cidr string - [Output only] The IP address range of the Kubernetes services in this cluster, in CIDR notation (e.g.
1.2.3.4/29
). Service addresses are typically put in the last/16
from the container CIDR. - status string
- [Output only] The current status of this cluster.
- status
Message string - [Output only] Deprecated. Use conditions instead. Additional information about the current status of this cluster, if available.
- tpu
Ipv4Cidr stringBlock - [Output only] The IP address range of the Cloud TPUs in this cluster, in CIDR notation (e.g.
1.2.3.4/29
).
- create_
time str - [Output only] The time the cluster was created, in RFC3339 text format.
- current_
master_ strversion - [Output only] The current software version of the master endpoint.
- current_
node_ intcount - [Output only] The number of nodes currently in the cluster. Deprecated. Call Kubernetes API directly to retrieve node information.
- current_
node_ strversion - [Output only] Deprecated, use NodePools.version instead. The current version of the node software components. If they are currently at multiple versions because they're in the process of being upgraded, this reflects the minimum version of all nodes.
- endpoint str
- [Output only] The IP address of this cluster's master endpoint. The endpoint can be accessed from the internet at
https://username:password@endpoint/
. See themasterAuth
property of this resource for username and password information. - expire_
time str - [Output only] The time the cluster will be automatically deleted in RFC3339 text format.
- id str
- The provider-assigned unique ID for this managed resource.
- label_
fingerprint str - The fingerprint of the set of labels for this cluster.
- node_
ipv4_ intcidr_ size - [Output only] The size of the address space on each node for hosting containers. This is provisioned from within the
container_ipv4_cidr
range. This field will only be set when cluster is in route-based network mode. - self_
link str - [Output only] Server-defined URL for the resource.
- services_
ipv4_ strcidr - [Output only] The IP address range of the Kubernetes services in this cluster, in CIDR notation (e.g.
1.2.3.4/29
). Service addresses are typically put in the last/16
from the container CIDR. - status str
- [Output only] The current status of this cluster.
- status_
message str - [Output only] Deprecated. Use conditions instead. Additional information about the current status of this cluster, if available.
- tpu_
ipv4_ strcidr_ block - [Output only] The IP address range of the Cloud TPUs in this cluster, in CIDR notation (e.g.
1.2.3.4/29
).
- create
Time String - [Output only] The time the cluster was created, in RFC3339 text format.
- current
Master StringVersion - [Output only] The current software version of the master endpoint.
- current
Node NumberCount - [Output only] The number of nodes currently in the cluster. Deprecated. Call Kubernetes API directly to retrieve node information.
- current
Node StringVersion - [Output only] Deprecated, use NodePools.version instead. The current version of the node software components. If they are currently at multiple versions because they're in the process of being upgraded, this reflects the minimum version of all nodes.
- endpoint String
- [Output only] The IP address of this cluster's master endpoint. The endpoint can be accessed from the internet at
https://username:password@endpoint/
. See themasterAuth
property of this resource for username and password information. - expire
Time String - [Output only] The time the cluster will be automatically deleted in RFC3339 text format.
- id String
- The provider-assigned unique ID for this managed resource.
- label
Fingerprint String - The fingerprint of the set of labels for this cluster.
- node
Ipv4Cidr NumberSize - [Output only] The size of the address space on each node for hosting containers. This is provisioned from within the
container_ipv4_cidr
range. This field will only be set when cluster is in route-based network mode. - self
Link String - [Output only] Server-defined URL for the resource.
- services
Ipv4Cidr String - [Output only] The IP address range of the Kubernetes services in this cluster, in CIDR notation (e.g.
1.2.3.4/29
). Service addresses are typically put in the last/16
from the container CIDR. - status String
- [Output only] The current status of this cluster.
- status
Message String - [Output only] Deprecated. Use conditions instead. Additional information about the current status of this cluster, if available.
- tpu
Ipv4Cidr StringBlock - [Output only] The IP address range of the Cloud TPUs in this cluster, in CIDR notation (e.g.
1.2.3.4/29
).
Cluster Resource Methods
GetKubeconfig Method
Generate a kubeconfig for cluster authentication.
The kubeconfig generated is automatically stringified for ease of use with the pulumi/kubernetes provider.
The kubeconfig uses the new gke-gcloud-auth-plugin
authentication plugin as recommended by Google.
See for more details:
- https://cloud.google.com/blog/products/containers-kubernetes/kubectl-auth-changes-in-gke
Using GetKubeconfig
getKubeconfig(): Output<string>
def get_kubeconfig() -> Output[str]
func (r *Cluster) GetKubeconfig() (pulumi.StringOutput, error)
public Output<string> GetKubeconfig()
GetKubeconfig Result
- Kubeconfig string
- Kubeconfig string
- kubeconfig String
- kubeconfig string
- kubeconfig str
- kubeconfig String
Supporting Types
AcceleratorConfig, AcceleratorConfigArgs
- Accelerator
Count string - The number of the accelerator cards exposed to an instance.
- Accelerator
Type string - The accelerator type resource name. List of supported accelerators here
- Gpu
Driver Pulumi.Installation Config Google Native. Container. V1. Inputs. GPUDriver Installation Config - The configuration for auto installation of GPU driver.
- Gpu
Partition stringSize - Size of partitions to create on the GPU. Valid values are described in the NVIDIA mig user guide.
- Gpu
Sharing Pulumi.Config Google Native. Container. V1. Inputs. GPUSharing Config - The configuration for GPU sharing options.
- Accelerator
Count string - The number of the accelerator cards exposed to an instance.
- Accelerator
Type string - The accelerator type resource name. List of supported accelerators here
- Gpu
Driver GPUDriverInstallation Config Installation Config - The configuration for auto installation of GPU driver.
- Gpu
Partition stringSize - Size of partitions to create on the GPU. Valid values are described in the NVIDIA mig user guide.
- Gpu
Sharing GPUSharingConfig Config - The configuration for GPU sharing options.
- accelerator
Count String - The number of the accelerator cards exposed to an instance.
- accelerator
Type String - The accelerator type resource name. List of supported accelerators here
- gpu
Driver GPUDriverInstallation Config Installation Config - The configuration for auto installation of GPU driver.
- gpu
Partition StringSize - Size of partitions to create on the GPU. Valid values are described in the NVIDIA mig user guide.
- gpu
Sharing GPUSharingConfig Config - The configuration for GPU sharing options.
- accelerator
Count string - The number of the accelerator cards exposed to an instance.
- accelerator
Type string - The accelerator type resource name. List of supported accelerators here
- gpu
Driver GPUDriverInstallation Config Installation Config - The configuration for auto installation of GPU driver.
- gpu
Partition stringSize - Size of partitions to create on the GPU. Valid values are described in the NVIDIA mig user guide.
- gpu
Sharing GPUSharingConfig Config - The configuration for GPU sharing options.
- accelerator_
count str - The number of the accelerator cards exposed to an instance.
- accelerator_
type str - The accelerator type resource name. List of supported accelerators here
- gpu_
driver_ GPUDriverinstallation_ config Installation Config - The configuration for auto installation of GPU driver.
- gpu_
partition_ strsize - Size of partitions to create on the GPU. Valid values are described in the NVIDIA mig user guide.
- gpu_
sharing_ GPUSharingconfig Config - The configuration for GPU sharing options.
- accelerator
Count String - The number of the accelerator cards exposed to an instance.
- accelerator
Type String - The accelerator type resource name. List of supported accelerators here
- gpu
Driver Property MapInstallation Config - The configuration for auto installation of GPU driver.
- gpu
Partition StringSize - Size of partitions to create on the GPU. Valid values are described in the NVIDIA mig user guide.
- gpu
Sharing Property MapConfig - The configuration for GPU sharing options.
AcceleratorConfigResponse, AcceleratorConfigResponseArgs
- Accelerator
Count string - The number of the accelerator cards exposed to an instance.
- Accelerator
Type string - The accelerator type resource name. List of supported accelerators here
- Gpu
Driver Pulumi.Installation Config Google Native. Container. V1. Inputs. GPUDriver Installation Config Response - The configuration for auto installation of GPU driver.
- Gpu
Partition stringSize - Size of partitions to create on the GPU. Valid values are described in the NVIDIA mig user guide.
- Gpu
Sharing Pulumi.Config Google Native. Container. V1. Inputs. GPUSharing Config Response - The configuration for GPU sharing options.
- Accelerator
Count string - The number of the accelerator cards exposed to an instance.
- Accelerator
Type string - The accelerator type resource name. List of supported accelerators here
- Gpu
Driver GPUDriverInstallation Config Installation Config Response - The configuration for auto installation of GPU driver.
- Gpu
Partition stringSize - Size of partitions to create on the GPU. Valid values are described in the NVIDIA mig user guide.
- Gpu
Sharing GPUSharingConfig Config Response - The configuration for GPU sharing options.
- accelerator
Count String - The number of the accelerator cards exposed to an instance.
- accelerator
Type String - The accelerator type resource name. List of supported accelerators here
- gpu
Driver GPUDriverInstallation Config Installation Config Response - The configuration for auto installation of GPU driver.
- gpu
Partition StringSize - Size of partitions to create on the GPU. Valid values are described in the NVIDIA mig user guide.
- gpu
Sharing GPUSharingConfig Config Response - The configuration for GPU sharing options.
- accelerator
Count string - The number of the accelerator cards exposed to an instance.
- accelerator
Type string - The accelerator type resource name. List of supported accelerators here
- gpu
Driver GPUDriverInstallation Config Installation Config Response - The configuration for auto installation of GPU driver.
- gpu
Partition stringSize - Size of partitions to create on the GPU. Valid values are described in the NVIDIA mig user guide.
- gpu
Sharing GPUSharingConfig Config Response - The configuration for GPU sharing options.
- accelerator_
count str - The number of the accelerator cards exposed to an instance.
- accelerator_
type str - The accelerator type resource name. List of supported accelerators here
- gpu_
driver_ GPUDriverinstallation_ config Installation Config Response - The configuration for auto installation of GPU driver.
- gpu_
partition_ strsize - Size of partitions to create on the GPU. Valid values are described in the NVIDIA mig user guide.
- gpu_
sharing_ GPUSharingconfig Config Response - The configuration for GPU sharing options.
- accelerator
Count String - The number of the accelerator cards exposed to an instance.
- accelerator
Type String - The accelerator type resource name. List of supported accelerators here
- gpu
Driver Property MapInstallation Config - The configuration for auto installation of GPU driver.
- gpu
Partition StringSize - Size of partitions to create on the GPU. Valid values are described in the NVIDIA mig user guide.
- gpu
Sharing Property MapConfig - The configuration for GPU sharing options.
AdditionalNodeNetworkConfig, AdditionalNodeNetworkConfigArgs
- Network string
- Name of the VPC where the additional interface belongs
- Subnetwork string
- Name of the subnetwork where the additional interface belongs
- Network string
- Name of the VPC where the additional interface belongs
- Subnetwork string
- Name of the subnetwork where the additional interface belongs
- network String
- Name of the VPC where the additional interface belongs
- subnetwork String
- Name of the subnetwork where the additional interface belongs
- network string
- Name of the VPC where the additional interface belongs
- subnetwork string
- Name of the subnetwork where the additional interface belongs
- network str
- Name of the VPC where the additional interface belongs
- subnetwork str
- Name of the subnetwork where the additional interface belongs
- network String
- Name of the VPC where the additional interface belongs
- subnetwork String
- Name of the subnetwork where the additional interface belongs
AdditionalNodeNetworkConfigResponse, AdditionalNodeNetworkConfigResponseArgs
- Network string
- Name of the VPC where the additional interface belongs
- Subnetwork string
- Name of the subnetwork where the additional interface belongs
- Network string
- Name of the VPC where the additional interface belongs
- Subnetwork string
- Name of the subnetwork where the additional interface belongs
- network String
- Name of the VPC where the additional interface belongs
- subnetwork String
- Name of the subnetwork where the additional interface belongs
- network string
- Name of the VPC where the additional interface belongs
- subnetwork string
- Name of the subnetwork where the additional interface belongs
- network str
- Name of the VPC where the additional interface belongs
- subnetwork str
- Name of the subnetwork where the additional interface belongs
- network String
- Name of the VPC where the additional interface belongs
- subnetwork String
- Name of the subnetwork where the additional interface belongs
AdditionalPodNetworkConfig, AdditionalPodNetworkConfigArgs
- Max
Pods Pulumi.Per Node Google Native. Container. V1. Inputs. Max Pods Constraint - The maximum number of pods per node which use this pod network
- Secondary
Pod stringRange - The name of the secondary range on the subnet which provides IP address for this pod range
- Subnetwork string
- Name of the subnetwork where the additional pod network belongs
- Max
Pods MaxPer Node Pods Constraint - The maximum number of pods per node which use this pod network
- Secondary
Pod stringRange - The name of the secondary range on the subnet which provides IP address for this pod range
- Subnetwork string
- Name of the subnetwork where the additional pod network belongs
- max
Pods MaxPer Node Pods Constraint - The maximum number of pods per node which use this pod network
- secondary
Pod StringRange - The name of the secondary range on the subnet which provides IP address for this pod range
- subnetwork String
- Name of the subnetwork where the additional pod network belongs
- max
Pods MaxPer Node Pods Constraint - The maximum number of pods per node which use this pod network
- secondary
Pod stringRange - The name of the secondary range on the subnet which provides IP address for this pod range
- subnetwork string
- Name of the subnetwork where the additional pod network belongs
- max_
pods_ Maxper_ node Pods Constraint - The maximum number of pods per node which use this pod network
- secondary_
pod_ strrange - The name of the secondary range on the subnet which provides IP address for this pod range
- subnetwork str
- Name of the subnetwork where the additional pod network belongs
- max
Pods Property MapPer Node - The maximum number of pods per node which use this pod network
- secondary
Pod StringRange - The name of the secondary range on the subnet which provides IP address for this pod range
- subnetwork String
- Name of the subnetwork where the additional pod network belongs
AdditionalPodNetworkConfigResponse, AdditionalPodNetworkConfigResponseArgs
- Max
Pods Pulumi.Per Node Google Native. Container. V1. Inputs. Max Pods Constraint Response - The maximum number of pods per node which use this pod network
- Secondary
Pod stringRange - The name of the secondary range on the subnet which provides IP address for this pod range
- Subnetwork string
- Name of the subnetwork where the additional pod network belongs
- Max
Pods MaxPer Node Pods Constraint Response - The maximum number of pods per node which use this pod network
- Secondary
Pod stringRange - The name of the secondary range on the subnet which provides IP address for this pod range
- Subnetwork string
- Name of the subnetwork where the additional pod network belongs
- max
Pods MaxPer Node Pods Constraint Response - The maximum number of pods per node which use this pod network
- secondary
Pod StringRange - The name of the secondary range on the subnet which provides IP address for this pod range
- subnetwork String
- Name of the subnetwork where the additional pod network belongs
- max
Pods MaxPer Node Pods Constraint Response - The maximum number of pods per node which use this pod network
- secondary
Pod stringRange - The name of the secondary range on the subnet which provides IP address for this pod range
- subnetwork string
- Name of the subnetwork where the additional pod network belongs
- max_
pods_ Maxper_ node Pods Constraint Response - The maximum number of pods per node which use this pod network
- secondary_
pod_ strrange - The name of the secondary range on the subnet which provides IP address for this pod range
- subnetwork str
- Name of the subnetwork where the additional pod network belongs
- max
Pods Property MapPer Node - The maximum number of pods per node which use this pod network
- secondary
Pod StringRange - The name of the secondary range on the subnet which provides IP address for this pod range
- subnetwork String
- Name of the subnetwork where the additional pod network belongs
AdditionalPodRangesConfigResponse, AdditionalPodRangesConfigResponseArgs
- Pod
Range List<Pulumi.Info Google Native. Container. V1. Inputs. Range Info Response> - [Output only] Information for additional pod range.
- Pod
Range List<string>Names - Name for pod secondary ipv4 range which has the actual range defined ahead.
- Pod
Range []RangeInfo Info Response - [Output only] Information for additional pod range.
- Pod
Range []stringNames - Name for pod secondary ipv4 range which has the actual range defined ahead.
- pod
Range List<RangeInfo Info Response> - [Output only] Information for additional pod range.
- pod
Range List<String>Names - Name for pod secondary ipv4 range which has the actual range defined ahead.
- pod
Range RangeInfo Info Response[] - [Output only] Information for additional pod range.
- pod
Range string[]Names - Name for pod secondary ipv4 range which has the actual range defined ahead.
- pod_
range_ Sequence[Rangeinfo Info Response] - [Output only] Information for additional pod range.
- pod_
range_ Sequence[str]names - Name for pod secondary ipv4 range which has the actual range defined ahead.
- pod
Range List<Property Map>Info - [Output only] Information for additional pod range.
- pod
Range List<String>Names - Name for pod secondary ipv4 range which has the actual range defined ahead.
AddonsConfig, AddonsConfigArgs
- Cloud
Run Pulumi.Config Google Native. Container. V1. Inputs. Cloud Run Config - Configuration for the Cloud Run addon, which allows the user to use a managed Knative service.
- Config
Connector Pulumi.Config Google Native. Container. V1. Inputs. Config Connector Config - Configuration for the ConfigConnector add-on, a Kubernetes extension to manage hosted GCP services through the Kubernetes API
- Dns
Cache Pulumi.Config Google Native. Container. V1. Inputs. Dns Cache Config - Configuration for NodeLocalDNS, a dns cache running on cluster nodes
- Gce
Persistent Pulumi.Disk Csi Driver Config Google Native. Container. V1. Inputs. Gce Persistent Disk Csi Driver Config - Configuration for the Compute Engine Persistent Disk CSI driver.
- Gcp
Filestore Pulumi.Csi Driver Config Google Native. Container. V1. Inputs. Gcp Filestore Csi Driver Config - Configuration for the GCP Filestore CSI driver.
- Gcs
Fuse Pulumi.Csi Driver Config Google Native. Container. V1. Inputs. Gcs Fuse Csi Driver Config - Configuration for the Cloud Storage Fuse CSI driver.
- Gke
Backup Pulumi.Agent Config Google Native. Container. V1. Inputs. Gke Backup Agent Config - Configuration for the Backup for GKE agent addon.
- Horizontal
Pod Pulumi.Autoscaling Google Native. Container. V1. Inputs. Horizontal Pod Autoscaling - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods.
- Http
Load Pulumi.Balancing Google Native. Container. V1. Inputs. Http Load Balancing - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster.
- Kubernetes
Dashboard Pulumi.Google Native. Container. V1. Inputs. Kubernetes Dashboard - Configuration for the Kubernetes Dashboard. This addon is deprecated, and will be disabled in 1.15. It is recommended to use the Cloud Console to manage and monitor your Kubernetes clusters, workloads and applications. For more information, see: https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
- Network
Policy Pulumi.Config Google Native. Container. V1. Inputs. Network Policy Config - Configuration for NetworkPolicy. This only tracks whether the addon is enabled or not on the Master, it does not track whether network policy is enabled for the nodes.
- Cloud
Run CloudConfig Run Config - Configuration for the Cloud Run addon, which allows the user to use a managed Knative service.
- Config
Connector ConfigConfig Connector Config - Configuration for the ConfigConnector add-on, a Kubernetes extension to manage hosted GCP services through the Kubernetes API
- Dns
Cache DnsConfig Cache Config - Configuration for NodeLocalDNS, a dns cache running on cluster nodes
- Gce
Persistent GceDisk Csi Driver Config Persistent Disk Csi Driver Config - Configuration for the Compute Engine Persistent Disk CSI driver.
- Gcp
Filestore GcpCsi Driver Config Filestore Csi Driver Config - Configuration for the GCP Filestore CSI driver.
- Gcs
Fuse GcsCsi Driver Config Fuse Csi Driver Config - Configuration for the Cloud Storage Fuse CSI driver.
- Gke
Backup GkeAgent Config Backup Agent Config - Configuration for the Backup for GKE agent addon.
- Horizontal
Pod HorizontalAutoscaling Pod Autoscaling - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods.
- Http
Load HttpBalancing Load Balancing - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster.
- Kubernetes
Dashboard KubernetesDashboard - Configuration for the Kubernetes Dashboard. This addon is deprecated, and will be disabled in 1.15. It is recommended to use the Cloud Console to manage and monitor your Kubernetes clusters, workloads and applications. For more information, see: https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
- Network
Policy NetworkConfig Policy Config - Configuration for NetworkPolicy. This only tracks whether the addon is enabled or not on the Master, it does not track whether network policy is enabled for the nodes.
- cloud
Run CloudConfig Run Config - Configuration for the Cloud Run addon, which allows the user to use a managed Knative service.
- config
Connector ConfigConfig Connector Config - Configuration for the ConfigConnector add-on, a Kubernetes extension to manage hosted GCP services through the Kubernetes API
- dns
Cache DnsConfig Cache Config - Configuration for NodeLocalDNS, a dns cache running on cluster nodes
- gce
Persistent GceDisk Csi Driver Config Persistent Disk Csi Driver Config - Configuration for the Compute Engine Persistent Disk CSI driver.
- gcp
Filestore GcpCsi Driver Config Filestore Csi Driver Config - Configuration for the GCP Filestore CSI driver.
- gcs
Fuse GcsCsi Driver Config Fuse Csi Driver Config - Configuration for the Cloud Storage Fuse CSI driver.
- gke
Backup GkeAgent Config Backup Agent Config - Configuration for the Backup for GKE agent addon.
- horizontal
Pod HorizontalAutoscaling Pod Autoscaling - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods.
- http
Load HttpBalancing Load Balancing - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster.
- kubernetes
Dashboard KubernetesDashboard - Configuration for the Kubernetes Dashboard. This addon is deprecated, and will be disabled in 1.15. It is recommended to use the Cloud Console to manage and monitor your Kubernetes clusters, workloads and applications. For more information, see: https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
- network
Policy NetworkConfig Policy Config - Configuration for NetworkPolicy. This only tracks whether the addon is enabled or not on the Master, it does not track whether network policy is enabled for the nodes.
- cloud
Run CloudConfig Run Config - Configuration for the Cloud Run addon, which allows the user to use a managed Knative service.
- config
Connector ConfigConfig Connector Config - Configuration for the ConfigConnector add-on, a Kubernetes extension to manage hosted GCP services through the Kubernetes API
- dns
Cache DnsConfig Cache Config - Configuration for NodeLocalDNS, a dns cache running on cluster nodes
- gce
Persistent GceDisk Csi Driver Config Persistent Disk Csi Driver Config - Configuration for the Compute Engine Persistent Disk CSI driver.
- gcp
Filestore GcpCsi Driver Config Filestore Csi Driver Config - Configuration for the GCP Filestore CSI driver.
- gcs
Fuse GcsCsi Driver Config Fuse Csi Driver Config - Configuration for the Cloud Storage Fuse CSI driver.
- gke
Backup GkeAgent Config Backup Agent Config - Configuration for the Backup for GKE agent addon.
- horizontal
Pod HorizontalAutoscaling Pod Autoscaling - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods.
- http
Load HttpBalancing Load Balancing - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster.
- kubernetes
Dashboard KubernetesDashboard - Configuration for the Kubernetes Dashboard. This addon is deprecated, and will be disabled in 1.15. It is recommended to use the Cloud Console to manage and monitor your Kubernetes clusters, workloads and applications. For more information, see: https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
- network
Policy NetworkConfig Policy Config - Configuration for NetworkPolicy. This only tracks whether the addon is enabled or not on the Master, it does not track whether network policy is enabled for the nodes.
- cloud_
run_ Cloudconfig Run Config - Configuration for the Cloud Run addon, which allows the user to use a managed Knative service.
- config_
connector_ Configconfig Connector Config - Configuration for the ConfigConnector add-on, a Kubernetes extension to manage hosted GCP services through the Kubernetes API
- dns_
cache_ Dnsconfig Cache Config - Configuration for NodeLocalDNS, a dns cache running on cluster nodes
- gce_
persistent_ Gcedisk_ csi_ driver_ config Persistent Disk Csi Driver Config - Configuration for the Compute Engine Persistent Disk CSI driver.
- gcp_
filestore_ Gcpcsi_ driver_ config Filestore Csi Driver Config - Configuration for the GCP Filestore CSI driver.
- gcs_
fuse_ Gcscsi_ driver_ config Fuse Csi Driver Config - Configuration for the Cloud Storage Fuse CSI driver.
- gke_
backup_ Gkeagent_ config Backup Agent Config - Configuration for the Backup for GKE agent addon.
- horizontal_
pod_ Horizontalautoscaling Pod Autoscaling - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods.
- http_
load_ Httpbalancing Load Balancing - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster.
- kubernetes_
dashboard KubernetesDashboard - Configuration for the Kubernetes Dashboard. This addon is deprecated, and will be disabled in 1.15. It is recommended to use the Cloud Console to manage and monitor your Kubernetes clusters, workloads and applications. For more information, see: https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
- network_
policy_ Networkconfig Policy Config - Configuration for NetworkPolicy. This only tracks whether the addon is enabled or not on the Master, it does not track whether network policy is enabled for the nodes.
- cloud
Run Property MapConfig - Configuration for the Cloud Run addon, which allows the user to use a managed Knative service.
- config
Connector Property MapConfig - Configuration for the ConfigConnector add-on, a Kubernetes extension to manage hosted GCP services through the Kubernetes API
- dns
Cache Property MapConfig - Configuration for NodeLocalDNS, a dns cache running on cluster nodes
- gce
Persistent Property MapDisk Csi Driver Config - Configuration for the Compute Engine Persistent Disk CSI driver.
- gcp
Filestore Property MapCsi Driver Config - Configuration for the GCP Filestore CSI driver.
- gcs
Fuse Property MapCsi Driver Config - Configuration for the Cloud Storage Fuse CSI driver.
- gke
Backup Property MapAgent Config - Configuration for the Backup for GKE agent addon.
- horizontal
Pod Property MapAutoscaling - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods.
- http
Load Property MapBalancing - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster.
- kubernetes
Dashboard Property Map - Configuration for the Kubernetes Dashboard. This addon is deprecated, and will be disabled in 1.15. It is recommended to use the Cloud Console to manage and monitor your Kubernetes clusters, workloads and applications. For more information, see: https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
- network
Policy Property MapConfig - Configuration for NetworkPolicy. This only tracks whether the addon is enabled or not on the Master, it does not track whether network policy is enabled for the nodes.
AddonsConfigResponse, AddonsConfigResponseArgs
- Cloud
Run Pulumi.Config Google Native. Container. V1. Inputs. Cloud Run Config Response - Configuration for the Cloud Run addon, which allows the user to use a managed Knative service.
- Config
Connector Pulumi.Config Google Native. Container. V1. Inputs. Config Connector Config Response - Configuration for the ConfigConnector add-on, a Kubernetes extension to manage hosted GCP services through the Kubernetes API
- Dns
Cache Pulumi.Config Google Native. Container. V1. Inputs. Dns Cache Config Response - Configuration for NodeLocalDNS, a dns cache running on cluster nodes
- Gce
Persistent Pulumi.Disk Csi Driver Config Google Native. Container. V1. Inputs. Gce Persistent Disk Csi Driver Config Response - Configuration for the Compute Engine Persistent Disk CSI driver.
- Gcp
Filestore Pulumi.Csi Driver Config Google Native. Container. V1. Inputs. Gcp Filestore Csi Driver Config Response - Configuration for the GCP Filestore CSI driver.
- Gcs
Fuse Pulumi.Csi Driver Config Google Native. Container. V1. Inputs. Gcs Fuse Csi Driver Config Response - Configuration for the Cloud Storage Fuse CSI driver.
- Gke
Backup Pulumi.Agent Config Google Native. Container. V1. Inputs. Gke Backup Agent Config Response - Configuration for the Backup for GKE agent addon.
- Horizontal
Pod Pulumi.Autoscaling Google Native. Container. V1. Inputs. Horizontal Pod Autoscaling Response - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods.
- Http
Load Pulumi.Balancing Google Native. Container. V1. Inputs. Http Load Balancing Response - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster.
- Kubernetes
Dashboard Pulumi.Google Native. Container. V1. Inputs. Kubernetes Dashboard Response - Configuration for the Kubernetes Dashboard. This addon is deprecated, and will be disabled in 1.15. It is recommended to use the Cloud Console to manage and monitor your Kubernetes clusters, workloads and applications. For more information, see: https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
- Network
Policy Pulumi.Config Google Native. Container. V1. Inputs. Network Policy Config Response - Configuration for NetworkPolicy. This only tracks whether the addon is enabled or not on the Master, it does not track whether network policy is enabled for the nodes.
- Cloud
Run CloudConfig Run Config Response - Configuration for the Cloud Run addon, which allows the user to use a managed Knative service.
- Config
Connector ConfigConfig Connector Config Response - Configuration for the ConfigConnector add-on, a Kubernetes extension to manage hosted GCP services through the Kubernetes API
- Dns
Cache DnsConfig Cache Config Response - Configuration for NodeLocalDNS, a dns cache running on cluster nodes
- Gce
Persistent GceDisk Csi Driver Config Persistent Disk Csi Driver Config Response - Configuration for the Compute Engine Persistent Disk CSI driver.
- Gcp
Filestore GcpCsi Driver Config Filestore Csi Driver Config Response - Configuration for the GCP Filestore CSI driver.
- Gcs
Fuse GcsCsi Driver Config Fuse Csi Driver Config Response - Configuration for the Cloud Storage Fuse CSI driver.
- Gke
Backup GkeAgent Config Backup Agent Config Response - Configuration for the Backup for GKE agent addon.
- Horizontal
Pod HorizontalAutoscaling Pod Autoscaling Response - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods.
- Http
Load HttpBalancing Load Balancing Response - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster.
- Kubernetes
Dashboard KubernetesDashboard Response - Configuration for the Kubernetes Dashboard. This addon is deprecated, and will be disabled in 1.15. It is recommended to use the Cloud Console to manage and monitor your Kubernetes clusters, workloads and applications. For more information, see: https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
- Network
Policy NetworkConfig Policy Config Response - Configuration for NetworkPolicy. This only tracks whether the addon is enabled or not on the Master, it does not track whether network policy is enabled for the nodes.
- cloud
Run CloudConfig Run Config Response - Configuration for the Cloud Run addon, which allows the user to use a managed Knative service.
- config
Connector ConfigConfig Connector Config Response - Configuration for the ConfigConnector add-on, a Kubernetes extension to manage hosted GCP services through the Kubernetes API
- dns
Cache DnsConfig Cache Config Response - Configuration for NodeLocalDNS, a dns cache running on cluster nodes
- gce
Persistent GceDisk Csi Driver Config Persistent Disk Csi Driver Config Response - Configuration for the Compute Engine Persistent Disk CSI driver.
- gcp
Filestore GcpCsi Driver Config Filestore Csi Driver Config Response - Configuration for the GCP Filestore CSI driver.
- gcs
Fuse GcsCsi Driver Config Fuse Csi Driver Config Response - Configuration for the Cloud Storage Fuse CSI driver.
- gke
Backup GkeAgent Config Backup Agent Config Response - Configuration for the Backup for GKE agent addon.
- horizontal
Pod HorizontalAutoscaling Pod Autoscaling Response - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods.
- http
Load HttpBalancing Load Balancing Response - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster.
- kubernetes
Dashboard KubernetesDashboard Response - Configuration for the Kubernetes Dashboard. This addon is deprecated, and will be disabled in 1.15. It is recommended to use the Cloud Console to manage and monitor your Kubernetes clusters, workloads and applications. For more information, see: https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
- network
Policy NetworkConfig Policy Config Response - Configuration for NetworkPolicy. This only tracks whether the addon is enabled or not on the Master, it does not track whether network policy is enabled for the nodes.
- cloud
Run CloudConfig Run Config Response - Configuration for the Cloud Run addon, which allows the user to use a managed Knative service.
- config
Connector ConfigConfig Connector Config Response - Configuration for the ConfigConnector add-on, a Kubernetes extension to manage hosted GCP services through the Kubernetes API
- dns
Cache DnsConfig Cache Config Response - Configuration for NodeLocalDNS, a dns cache running on cluster nodes
- gce
Persistent GceDisk Csi Driver Config Persistent Disk Csi Driver Config Response - Configuration for the Compute Engine Persistent Disk CSI driver.
- gcp
Filestore GcpCsi Driver Config Filestore Csi Driver Config Response - Configuration for the GCP Filestore CSI driver.
- gcs
Fuse GcsCsi Driver Config Fuse Csi Driver Config Response - Configuration for the Cloud Storage Fuse CSI driver.
- gke
Backup GkeAgent Config Backup Agent Config Response - Configuration for the Backup for GKE agent addon.
- horizontal
Pod HorizontalAutoscaling Pod Autoscaling Response - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods.
- http
Load HttpBalancing Load Balancing Response - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster.
- kubernetes
Dashboard KubernetesDashboard Response - Configuration for the Kubernetes Dashboard. This addon is deprecated, and will be disabled in 1.15. It is recommended to use the Cloud Console to manage and monitor your Kubernetes clusters, workloads and applications. For more information, see: https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
- network
Policy NetworkConfig Policy Config Response - Configuration for NetworkPolicy. This only tracks whether the addon is enabled or not on the Master, it does not track whether network policy is enabled for the nodes.
- cloud_
run_ Cloudconfig Run Config Response - Configuration for the Cloud Run addon, which allows the user to use a managed Knative service.
- config_
connector_ Configconfig Connector Config Response - Configuration for the ConfigConnector add-on, a Kubernetes extension to manage hosted GCP services through the Kubernetes API
- dns_
cache_ Dnsconfig Cache Config Response - Configuration for NodeLocalDNS, a dns cache running on cluster nodes
- gce_
persistent_ Gcedisk_ csi_ driver_ config Persistent Disk Csi Driver Config Response - Configuration for the Compute Engine Persistent Disk CSI driver.
- gcp_
filestore_ Gcpcsi_ driver_ config Filestore Csi Driver Config Response - Configuration for the GCP Filestore CSI driver.
- gcs_
fuse_ Gcscsi_ driver_ config Fuse Csi Driver Config Response - Configuration for the Cloud Storage Fuse CSI driver.
- gke_
backup_ Gkeagent_ config Backup Agent Config Response - Configuration for the Backup for GKE agent addon.
- horizontal_
pod_ Horizontalautoscaling Pod Autoscaling Response - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods.
- http_
load_ Httpbalancing Load Balancing Response - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster.
- kubernetes_
dashboard KubernetesDashboard Response - Configuration for the Kubernetes Dashboard. This addon is deprecated, and will be disabled in 1.15. It is recommended to use the Cloud Console to manage and monitor your Kubernetes clusters, workloads and applications. For more information, see: https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
- network_
policy_ Networkconfig Policy Config Response - Configuration for NetworkPolicy. This only tracks whether the addon is enabled or not on the Master, it does not track whether network policy is enabled for the nodes.
- cloud
Run Property MapConfig - Configuration for the Cloud Run addon, which allows the user to use a managed Knative service.
- config
Connector Property MapConfig - Configuration for the ConfigConnector add-on, a Kubernetes extension to manage hosted GCP services through the Kubernetes API
- dns
Cache Property MapConfig - Configuration for NodeLocalDNS, a dns cache running on cluster nodes
- gce
Persistent Property MapDisk Csi Driver Config - Configuration for the Compute Engine Persistent Disk CSI driver.
- gcp
Filestore Property MapCsi Driver Config - Configuration for the GCP Filestore CSI driver.
- gcs
Fuse Property MapCsi Driver Config - Configuration for the Cloud Storage Fuse CSI driver.
- gke
Backup Property MapAgent Config - Configuration for the Backup for GKE agent addon.
- horizontal
Pod Property MapAutoscaling - Configuration for the horizontal pod autoscaling feature, which increases or decreases the number of replica pods a replication controller has based on the resource usage of the existing pods.
- http
Load Property MapBalancing - Configuration for the HTTP (L7) load balancing controller addon, which makes it easy to set up HTTP load balancers for services in a cluster.
- kubernetes
Dashboard Property Map - Configuration for the Kubernetes Dashboard. This addon is deprecated, and will be disabled in 1.15. It is recommended to use the Cloud Console to manage and monitor your Kubernetes clusters, workloads and applications. For more information, see: https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
- network
Policy Property MapConfig - Configuration for NetworkPolicy. This only tracks whether the addon is enabled or not on the Master, it does not track whether network policy is enabled for the nodes.
AdvancedDatapathObservabilityConfig, AdvancedDatapathObservabilityConfigArgs
- Enable
Metrics bool - Expose flow metrics on nodes
- Relay
Mode Pulumi.Google Native. Container. V1. Advanced Datapath Observability Config Relay Mode - Method used to make Relay available
- Enable
Metrics bool - Expose flow metrics on nodes
- Relay
Mode AdvancedDatapath Observability Config Relay Mode - Method used to make Relay available
- enable
Metrics Boolean - Expose flow metrics on nodes
- relay
Mode AdvancedDatapath Observability Config Relay Mode - Method used to make Relay available
- enable
Metrics boolean - Expose flow metrics on nodes
- relay
Mode AdvancedDatapath Observability Config Relay Mode - Method used to make Relay available
- enable_
metrics bool - Expose flow metrics on nodes
- relay_
mode AdvancedDatapath Observability Config Relay Mode - Method used to make Relay available
- enable
Metrics Boolean - Expose flow metrics on nodes
- relay
Mode "RELAY_MODE_UNSPECIFIED" | "DISABLED" | "INTERNAL_VPC_LB" | "EXTERNAL_LB" - Method used to make Relay available
AdvancedDatapathObservabilityConfigRelayMode, AdvancedDatapathObservabilityConfigRelayModeArgs
- Relay
Mode Unspecified - RELAY_MODE_UNSPECIFIEDDefault value. This shouldn't be used.
- Disabled
- DISABLEDdisabled
- Internal
Vpc Lb - INTERNAL_VPC_LBexposed via internal load balancer
- External
Lb - EXTERNAL_LBexposed via external load balancer
- Advanced
Datapath Observability Config Relay Mode Relay Mode Unspecified - RELAY_MODE_UNSPECIFIEDDefault value. This shouldn't be used.
- Advanced
Datapath Observability Config Relay Mode Disabled - DISABLEDdisabled
- Advanced
Datapath Observability Config Relay Mode Internal Vpc Lb - INTERNAL_VPC_LBexposed via internal load balancer
- Advanced
Datapath Observability Config Relay Mode External Lb - EXTERNAL_LBexposed via external load balancer
- Relay
Mode Unspecified - RELAY_MODE_UNSPECIFIEDDefault value. This shouldn't be used.
- Disabled
- DISABLEDdisabled
- Internal
Vpc Lb - INTERNAL_VPC_LBexposed via internal load balancer
- External
Lb - EXTERNAL_LBexposed via external load balancer
- Relay
Mode Unspecified - RELAY_MODE_UNSPECIFIEDDefault value. This shouldn't be used.
- Disabled
- DISABLEDdisabled
- Internal
Vpc Lb - INTERNAL_VPC_LBexposed via internal load balancer
- External
Lb - EXTERNAL_LBexposed via external load balancer
- RELAY_MODE_UNSPECIFIED
- RELAY_MODE_UNSPECIFIEDDefault value. This shouldn't be used.
- DISABLED
- DISABLEDdisabled
- INTERNAL_VPC_LB
- INTERNAL_VPC_LBexposed via internal load balancer
- EXTERNAL_LB
- EXTERNAL_LBexposed via external load balancer
- "RELAY_MODE_UNSPECIFIED"
- RELAY_MODE_UNSPECIFIEDDefault value. This shouldn't be used.
- "DISABLED"
- DISABLEDdisabled
- "INTERNAL_VPC_LB"
- INTERNAL_VPC_LBexposed via internal load balancer
- "EXTERNAL_LB"
- EXTERNAL_LBexposed via external load balancer
AdvancedDatapathObservabilityConfigResponse, AdvancedDatapathObservabilityConfigResponseArgs
- Enable
Metrics bool - Expose flow metrics on nodes
- Relay
Mode string - Method used to make Relay available
- Enable
Metrics bool - Expose flow metrics on nodes
- Relay
Mode string - Method used to make Relay available
- enable
Metrics Boolean - Expose flow metrics on nodes
- relay
Mode String - Method used to make Relay available
- enable
Metrics boolean - Expose flow metrics on nodes
- relay
Mode string - Method used to make Relay available
- enable_
metrics bool - Expose flow metrics on nodes
- relay_
mode str - Method used to make Relay available
- enable
Metrics Boolean - Expose flow metrics on nodes
- relay
Mode String - Method used to make Relay available
AdvancedMachineFeatures, AdvancedMachineFeaturesArgs
- Threads
Per stringCore - The number of threads per physical core. To disable simultaneous multithreading (SMT) set this to 1. If unset, the maximum number of threads supported per core by the underlying processor is assumed.
- Threads
Per stringCore - The number of threads per physical core. To disable simultaneous multithreading (SMT) set this to 1. If unset, the maximum number of threads supported per core by the underlying processor is assumed.
- threads
Per StringCore - The number of threads per physical core. To disable simultaneous multithreading (SMT) set this to 1. If unset, the maximum number of threads supported per core by the underlying processor is assumed.
- threads
Per stringCore - The number of threads per physical core. To disable simultaneous multithreading (SMT) set this to 1. If unset, the maximum number of threads supported per core by the underlying processor is assumed.
- threads_
per_ strcore - The number of threads per physical core. To disable simultaneous multithreading (SMT) set this to 1. If unset, the maximum number of threads supported per core by the underlying processor is assumed.
- threads
Per StringCore - The number of threads per physical core. To disable simultaneous multithreading (SMT) set this to 1. If unset, the maximum number of threads supported per core by the underlying processor is assumed.
AdvancedMachineFeaturesResponse, AdvancedMachineFeaturesResponseArgs
- Threads
Per stringCore - The number of threads per physical core. To disable simultaneous multithreading (SMT) set this to 1. If unset, the maximum number of threads supported per core by the underlying processor is assumed.
- Threads
Per stringCore - The number of threads per physical core. To disable simultaneous multithreading (SMT) set this to 1. If unset, the maximum number of threads supported per core by the underlying processor is assumed.
- threads
Per StringCore - The number of threads per physical core. To disable simultaneous multithreading (SMT) set this to 1. If unset, the maximum number of threads supported per core by the underlying processor is assumed.
- threads
Per stringCore - The number of threads per physical core. To disable simultaneous multithreading (SMT) set this to 1. If unset, the maximum number of threads supported per core by the underlying processor is assumed.
- threads_
per_ strcore - The number of threads per physical core. To disable simultaneous multithreading (SMT) set this to 1. If unset, the maximum number of threads supported per core by the underlying processor is assumed.
- threads
Per StringCore - The number of threads per physical core. To disable simultaneous multithreading (SMT) set this to 1. If unset, the maximum number of threads supported per core by the underlying processor is assumed.
AuthenticatorGroupsConfig, AuthenticatorGroupsConfigArgs
- Enabled bool
- Whether this cluster should return group membership lookups during authentication using a group of security groups.
- Security
Group string - The name of the security group-of-groups to be used. Only relevant if enabled = true.
- Enabled bool
- Whether this cluster should return group membership lookups during authentication using a group of security groups.
- Security
Group string - The name of the security group-of-groups to be used. Only relevant if enabled = true.
- enabled Boolean
- Whether this cluster should return group membership lookups during authentication using a group of security groups.
- security
Group String - The name of the security group-of-groups to be used. Only relevant if enabled = true.
- enabled boolean
- Whether this cluster should return group membership lookups during authentication using a group of security groups.
- security
Group string - The name of the security group-of-groups to be used. Only relevant if enabled = true.
- enabled bool
- Whether this cluster should return group membership lookups during authentication using a group of security groups.
- security_
group str - The name of the security group-of-groups to be used. Only relevant if enabled = true.
- enabled Boolean
- Whether this cluster should return group membership lookups during authentication using a group of security groups.
- security
Group String - The name of the security group-of-groups to be used. Only relevant if enabled = true.
AuthenticatorGroupsConfigResponse, AuthenticatorGroupsConfigResponseArgs
- Enabled bool
- Whether this cluster should return group membership lookups during authentication using a group of security groups.
- Security
Group string - The name of the security group-of-groups to be used. Only relevant if enabled = true.
- Enabled bool
- Whether this cluster should return group membership lookups during authentication using a group of security groups.
- Security
Group string - The name of the security group-of-groups to be used. Only relevant if enabled = true.
- enabled Boolean
- Whether this cluster should return group membership lookups during authentication using a group of security groups.
- security
Group String - The name of the security group-of-groups to be used. Only relevant if enabled = true.
- enabled boolean
- Whether this cluster should return group membership lookups during authentication using a group of security groups.
- security
Group string - The name of the security group-of-groups to be used. Only relevant if enabled = true.
- enabled bool
- Whether this cluster should return group membership lookups during authentication using a group of security groups.
- security_
group str - The name of the security group-of-groups to be used. Only relevant if enabled = true.
- enabled Boolean
- Whether this cluster should return group membership lookups during authentication using a group of security groups.
- security
Group String - The name of the security group-of-groups to be used. Only relevant if enabled = true.
AutoUpgradeOptionsResponse, AutoUpgradeOptionsResponseArgs
- Auto
Upgrade stringStart Time - [Output only] This field is set when upgrades are about to commence with the approximate start time for the upgrades, in RFC3339 text format.
- Description string
- [Output only] This field is set when upgrades are about to commence with the description of the upgrade.
- Auto
Upgrade stringStart Time - [Output only] This field is set when upgrades are about to commence with the approximate start time for the upgrades, in RFC3339 text format.
- Description string
- [Output only] This field is set when upgrades are about to commence with the description of the upgrade.
- auto
Upgrade StringStart Time - [Output only] This field is set when upgrades are about to commence with the approximate start time for the upgrades, in RFC3339 text format.
- description String
- [Output only] This field is set when upgrades are about to commence with the description of the upgrade.
- auto
Upgrade stringStart Time - [Output only] This field is set when upgrades are about to commence with the approximate start time for the upgrades, in RFC3339 text format.
- description string
- [Output only] This field is set when upgrades are about to commence with the description of the upgrade.
- auto_
upgrade_ strstart_ time - [Output only] This field is set when upgrades are about to commence with the approximate start time for the upgrades, in RFC3339 text format.
- description str
- [Output only] This field is set when upgrades are about to commence with the description of the upgrade.
- auto
Upgrade StringStart Time - [Output only] This field is set when upgrades are about to commence with the approximate start time for the upgrades, in RFC3339 text format.
- description String
- [Output only] This field is set when upgrades are about to commence with the description of the upgrade.
Autopilot, AutopilotArgs
- Enabled bool
- Enable Autopilot
- Workload
Policy Pulumi.Config Google Native. Container. V1. Inputs. Workload Policy Config - Workload policy configuration for Autopilot.
- Enabled bool
- Enable Autopilot
- Workload
Policy WorkloadConfig Policy Config - Workload policy configuration for Autopilot.
- enabled Boolean
- Enable Autopilot
- workload
Policy WorkloadConfig Policy Config - Workload policy configuration for Autopilot.
- enabled boolean
- Enable Autopilot
- workload
Policy WorkloadConfig Policy Config - Workload policy configuration for Autopilot.
- enabled bool
- Enable Autopilot
- workload_
policy_ Workloadconfig Policy Config - Workload policy configuration for Autopilot.
- enabled Boolean
- Enable Autopilot
- workload
Policy Property MapConfig - Workload policy configuration for Autopilot.
AutopilotResponse, AutopilotResponseArgs
- Enabled bool
- Enable Autopilot
- Workload
Policy Pulumi.Config Google Native. Container. V1. Inputs. Workload Policy Config Response - Workload policy configuration for Autopilot.
- Enabled bool
- Enable Autopilot
- Workload
Policy WorkloadConfig Policy Config Response - Workload policy configuration for Autopilot.
- enabled Boolean
- Enable Autopilot
- workload
Policy WorkloadConfig Policy Config Response - Workload policy configuration for Autopilot.
- enabled boolean
- Enable Autopilot
- workload
Policy WorkloadConfig Policy Config Response - Workload policy configuration for Autopilot.
- enabled bool
- Enable Autopilot
- workload_
policy_ Workloadconfig Policy Config Response - Workload policy configuration for Autopilot.
- enabled Boolean
- Enable Autopilot
- workload
Policy Property MapConfig - Workload policy configuration for Autopilot.
AutoprovisioningNodePoolDefaults, AutoprovisioningNodePoolDefaultsArgs
- Boot
Disk stringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- Disk
Size intGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- Disk
Type string - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- Image
Type string - The image type to use for NAP created node. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- Insecure
Kubelet boolReadonly Port Enabled - Enable or disable Kubelet read only port.
- Management
Pulumi.
Google Native. Container. V1. Inputs. Node Management - Specifies the node management options for NAP created node-pools.
- Min
Cpu stringPlatform - Deprecated. Minimum CPU platform to be used for NAP created node pools. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as minCpuPlatform: Intel Haswell or minCpuPlatform: Intel Sandy Bridge. For more information, read how to specify min CPU platform. This field is deprecated, min_cpu_platform should be specified using
cloud.google.com/requested-min-cpu-platform
label selector on the pod. To unset the min cpu platform field pass "automatic" as field value. - Oauth
Scopes List<string> - Scopes that are used by NAP when creating node pools.
- Service
Account string - The Google Cloud Platform Service Account to be used by the node VMs.
- Shielded
Instance Pulumi.Config Google Native. Container. V1. Inputs. Shielded Instance Config - Shielded Instance options.
- Upgrade
Settings Pulumi.Google Native. Container. V1. Inputs. Upgrade Settings - Specifies the upgrade settings for NAP created node pools
- Boot
Disk stringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- Disk
Size intGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- Disk
Type string - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- Image
Type string - The image type to use for NAP created node. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- Insecure
Kubelet boolReadonly Port Enabled - Enable or disable Kubelet read only port.
- Management
Node
Management - Specifies the node management options for NAP created node-pools.
- Min
Cpu stringPlatform - Deprecated. Minimum CPU platform to be used for NAP created node pools. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as minCpuPlatform: Intel Haswell or minCpuPlatform: Intel Sandy Bridge. For more information, read how to specify min CPU platform. This field is deprecated, min_cpu_platform should be specified using
cloud.google.com/requested-min-cpu-platform
label selector on the pod. To unset the min cpu platform field pass "automatic" as field value. - Oauth
Scopes []string - Scopes that are used by NAP when creating node pools.
- Service
Account string - The Google Cloud Platform Service Account to be used by the node VMs.
- Shielded
Instance ShieldedConfig Instance Config - Shielded Instance options.
- Upgrade
Settings UpgradeSettings - Specifies the upgrade settings for NAP created node pools
- boot
Disk StringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- disk
Size IntegerGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk
Type String - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- image
Type String - The image type to use for NAP created node. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- insecure
Kubelet BooleanReadonly Port Enabled - Enable or disable Kubelet read only port.
- management
Node
Management - Specifies the node management options for NAP created node-pools.
- min
Cpu StringPlatform - Deprecated. Minimum CPU platform to be used for NAP created node pools. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as minCpuPlatform: Intel Haswell or minCpuPlatform: Intel Sandy Bridge. For more information, read how to specify min CPU platform. This field is deprecated, min_cpu_platform should be specified using
cloud.google.com/requested-min-cpu-platform
label selector on the pod. To unset the min cpu platform field pass "automatic" as field value. - oauth
Scopes List<String> - Scopes that are used by NAP when creating node pools.
- service
Account String - The Google Cloud Platform Service Account to be used by the node VMs.
- shielded
Instance ShieldedConfig Instance Config - Shielded Instance options.
- upgrade
Settings UpgradeSettings - Specifies the upgrade settings for NAP created node pools
- boot
Disk stringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- disk
Size numberGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk
Type string - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- image
Type string - The image type to use for NAP created node. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- insecure
Kubelet booleanReadonly Port Enabled - Enable or disable Kubelet read only port.
- management
Node
Management - Specifies the node management options for NAP created node-pools.
- min
Cpu stringPlatform - Deprecated. Minimum CPU platform to be used for NAP created node pools. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as minCpuPlatform: Intel Haswell or minCpuPlatform: Intel Sandy Bridge. For more information, read how to specify min CPU platform. This field is deprecated, min_cpu_platform should be specified using
cloud.google.com/requested-min-cpu-platform
label selector on the pod. To unset the min cpu platform field pass "automatic" as field value. - oauth
Scopes string[] - Scopes that are used by NAP when creating node pools.
- service
Account string - The Google Cloud Platform Service Account to be used by the node VMs.
- shielded
Instance ShieldedConfig Instance Config - Shielded Instance options.
- upgrade
Settings UpgradeSettings - Specifies the upgrade settings for NAP created node pools
- boot_
disk_ strkms_ key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- disk_
size_ intgb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk_
type str - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- image_
type str - The image type to use for NAP created node. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- insecure_
kubelet_ boolreadonly_ port_ enabled - Enable or disable Kubelet read only port.
- management
Node
Management - Specifies the node management options for NAP created node-pools.
- min_
cpu_ strplatform - Deprecated. Minimum CPU platform to be used for NAP created node pools. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as minCpuPlatform: Intel Haswell or minCpuPlatform: Intel Sandy Bridge. For more information, read how to specify min CPU platform. This field is deprecated, min_cpu_platform should be specified using
cloud.google.com/requested-min-cpu-platform
label selector on the pod. To unset the min cpu platform field pass "automatic" as field value. - oauth_
scopes Sequence[str] - Scopes that are used by NAP when creating node pools.
- service_
account str - The Google Cloud Platform Service Account to be used by the node VMs.
- shielded_
instance_ Shieldedconfig Instance Config - Shielded Instance options.
- upgrade_
settings UpgradeSettings - Specifies the upgrade settings for NAP created node pools
- boot
Disk StringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- disk
Size NumberGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk
Type String - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- image
Type String - The image type to use for NAP created node. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- insecure
Kubelet BooleanReadonly Port Enabled - Enable or disable Kubelet read only port.
- management Property Map
- Specifies the node management options for NAP created node-pools.
- min
Cpu StringPlatform - Deprecated. Minimum CPU platform to be used for NAP created node pools. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as minCpuPlatform: Intel Haswell or minCpuPlatform: Intel Sandy Bridge. For more information, read how to specify min CPU platform. This field is deprecated, min_cpu_platform should be specified using
cloud.google.com/requested-min-cpu-platform
label selector on the pod. To unset the min cpu platform field pass "automatic" as field value. - oauth
Scopes List<String> - Scopes that are used by NAP when creating node pools.
- service
Account String - The Google Cloud Platform Service Account to be used by the node VMs.
- shielded
Instance Property MapConfig - Shielded Instance options.
- upgrade
Settings Property Map - Specifies the upgrade settings for NAP created node pools
AutoprovisioningNodePoolDefaultsResponse, AutoprovisioningNodePoolDefaultsResponseArgs
- Boot
Disk stringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- Disk
Size intGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- Disk
Type string - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- Image
Type string - The image type to use for NAP created node. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- Insecure
Kubelet boolReadonly Port Enabled - Enable or disable Kubelet read only port.
- Management
Pulumi.
Google Native. Container. V1. Inputs. Node Management Response - Specifies the node management options for NAP created node-pools.
- Min
Cpu stringPlatform - Deprecated. Minimum CPU platform to be used for NAP created node pools. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as minCpuPlatform: Intel Haswell or minCpuPlatform: Intel Sandy Bridge. For more information, read how to specify min CPU platform. This field is deprecated, min_cpu_platform should be specified using
cloud.google.com/requested-min-cpu-platform
label selector on the pod. To unset the min cpu platform field pass "automatic" as field value. - Oauth
Scopes List<string> - Scopes that are used by NAP when creating node pools.
- Service
Account string - The Google Cloud Platform Service Account to be used by the node VMs.
- Shielded
Instance Pulumi.Config Google Native. Container. V1. Inputs. Shielded Instance Config Response - Shielded Instance options.
- Upgrade
Settings Pulumi.Google Native. Container. V1. Inputs. Upgrade Settings Response - Specifies the upgrade settings for NAP created node pools
- Boot
Disk stringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- Disk
Size intGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- Disk
Type string - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- Image
Type string - The image type to use for NAP created node. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- Insecure
Kubelet boolReadonly Port Enabled - Enable or disable Kubelet read only port.
- Management
Node
Management Response - Specifies the node management options for NAP created node-pools.
- Min
Cpu stringPlatform - Deprecated. Minimum CPU platform to be used for NAP created node pools. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as minCpuPlatform: Intel Haswell or minCpuPlatform: Intel Sandy Bridge. For more information, read how to specify min CPU platform. This field is deprecated, min_cpu_platform should be specified using
cloud.google.com/requested-min-cpu-platform
label selector on the pod. To unset the min cpu platform field pass "automatic" as field value. - Oauth
Scopes []string - Scopes that are used by NAP when creating node pools.
- Service
Account string - The Google Cloud Platform Service Account to be used by the node VMs.
- Shielded
Instance ShieldedConfig Instance Config Response - Shielded Instance options.
- Upgrade
Settings UpgradeSettings Response - Specifies the upgrade settings for NAP created node pools
- boot
Disk StringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- disk
Size IntegerGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk
Type String - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- image
Type String - The image type to use for NAP created node. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- insecure
Kubelet BooleanReadonly Port Enabled - Enable or disable Kubelet read only port.
- management
Node
Management Response - Specifies the node management options for NAP created node-pools.
- min
Cpu StringPlatform - Deprecated. Minimum CPU platform to be used for NAP created node pools. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as minCpuPlatform: Intel Haswell or minCpuPlatform: Intel Sandy Bridge. For more information, read how to specify min CPU platform. This field is deprecated, min_cpu_platform should be specified using
cloud.google.com/requested-min-cpu-platform
label selector on the pod. To unset the min cpu platform field pass "automatic" as field value. - oauth
Scopes List<String> - Scopes that are used by NAP when creating node pools.
- service
Account String - The Google Cloud Platform Service Account to be used by the node VMs.
- shielded
Instance ShieldedConfig Instance Config Response - Shielded Instance options.
- upgrade
Settings UpgradeSettings Response - Specifies the upgrade settings for NAP created node pools
- boot
Disk stringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- disk
Size numberGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk
Type string - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- image
Type string - The image type to use for NAP created node. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- insecure
Kubelet booleanReadonly Port Enabled - Enable or disable Kubelet read only port.
- management
Node
Management Response - Specifies the node management options for NAP created node-pools.
- min
Cpu stringPlatform - Deprecated. Minimum CPU platform to be used for NAP created node pools. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as minCpuPlatform: Intel Haswell or minCpuPlatform: Intel Sandy Bridge. For more information, read how to specify min CPU platform. This field is deprecated, min_cpu_platform should be specified using
cloud.google.com/requested-min-cpu-platform
label selector on the pod. To unset the min cpu platform field pass "automatic" as field value. - oauth
Scopes string[] - Scopes that are used by NAP when creating node pools.
- service
Account string - The Google Cloud Platform Service Account to be used by the node VMs.
- shielded
Instance ShieldedConfig Instance Config Response - Shielded Instance options.
- upgrade
Settings UpgradeSettings Response - Specifies the upgrade settings for NAP created node pools
- boot_
disk_ strkms_ key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- disk_
size_ intgb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk_
type str - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- image_
type str - The image type to use for NAP created node. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- insecure_
kubelet_ boolreadonly_ port_ enabled - Enable or disable Kubelet read only port.
- management
Node
Management Response - Specifies the node management options for NAP created node-pools.
- min_
cpu_ strplatform - Deprecated. Minimum CPU platform to be used for NAP created node pools. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as minCpuPlatform: Intel Haswell or minCpuPlatform: Intel Sandy Bridge. For more information, read how to specify min CPU platform. This field is deprecated, min_cpu_platform should be specified using
cloud.google.com/requested-min-cpu-platform
label selector on the pod. To unset the min cpu platform field pass "automatic" as field value. - oauth_
scopes Sequence[str] - Scopes that are used by NAP when creating node pools.
- service_
account str - The Google Cloud Platform Service Account to be used by the node VMs.
- shielded_
instance_ Shieldedconfig Instance Config Response - Shielded Instance options.
- upgrade_
settings UpgradeSettings Response - Specifies the upgrade settings for NAP created node pools
- boot
Disk StringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- disk
Size NumberGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk
Type String - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- image
Type String - The image type to use for NAP created node. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- insecure
Kubelet BooleanReadonly Port Enabled - Enable or disable Kubelet read only port.
- management Property Map
- Specifies the node management options for NAP created node-pools.
- min
Cpu StringPlatform - Deprecated. Minimum CPU platform to be used for NAP created node pools. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as minCpuPlatform: Intel Haswell or minCpuPlatform: Intel Sandy Bridge. For more information, read how to specify min CPU platform. This field is deprecated, min_cpu_platform should be specified using
cloud.google.com/requested-min-cpu-platform
label selector on the pod. To unset the min cpu platform field pass "automatic" as field value. - oauth
Scopes List<String> - Scopes that are used by NAP when creating node pools.
- service
Account String - The Google Cloud Platform Service Account to be used by the node VMs.
- shielded
Instance Property MapConfig - Shielded Instance options.
- upgrade
Settings Property Map - Specifies the upgrade settings for NAP created node pools
BestEffortProvisioning, BestEffortProvisioningArgs
- Enabled bool
- When this is enabled, cluster/node pool creations will ignore non-fatal errors like stockout to best provision as many nodes as possible right now and eventually bring up all target number of nodes
- Min
Provision intNodes - Minimum number of nodes to be provisioned to be considered as succeeded, and the rest of nodes will be provisioned gradually and eventually when stockout issue has been resolved.
- Enabled bool
- When this is enabled, cluster/node pool creations will ignore non-fatal errors like stockout to best provision as many nodes as possible right now and eventually bring up all target number of nodes
- Min
Provision intNodes - Minimum number of nodes to be provisioned to be considered as succeeded, and the rest of nodes will be provisioned gradually and eventually when stockout issue has been resolved.
- enabled Boolean
- When this is enabled, cluster/node pool creations will ignore non-fatal errors like stockout to best provision as many nodes as possible right now and eventually bring up all target number of nodes
- min
Provision IntegerNodes - Minimum number of nodes to be provisioned to be considered as succeeded, and the rest of nodes will be provisioned gradually and eventually when stockout issue has been resolved.
- enabled boolean
- When this is enabled, cluster/node pool creations will ignore non-fatal errors like stockout to best provision as many nodes as possible right now and eventually bring up all target number of nodes
- min
Provision numberNodes - Minimum number of nodes to be provisioned to be considered as succeeded, and the rest of nodes will be provisioned gradually and eventually when stockout issue has been resolved.
- enabled bool
- When this is enabled, cluster/node pool creations will ignore non-fatal errors like stockout to best provision as many nodes as possible right now and eventually bring up all target number of nodes
- min_
provision_ intnodes - Minimum number of nodes to be provisioned to be considered as succeeded, and the rest of nodes will be provisioned gradually and eventually when stockout issue has been resolved.
- enabled Boolean
- When this is enabled, cluster/node pool creations will ignore non-fatal errors like stockout to best provision as many nodes as possible right now and eventually bring up all target number of nodes
- min
Provision NumberNodes - Minimum number of nodes to be provisioned to be considered as succeeded, and the rest of nodes will be provisioned gradually and eventually when stockout issue has been resolved.
BestEffortProvisioningResponse, BestEffortProvisioningResponseArgs
- Enabled bool
- When this is enabled, cluster/node pool creations will ignore non-fatal errors like stockout to best provision as many nodes as possible right now and eventually bring up all target number of nodes
- Min
Provision intNodes - Minimum number of nodes to be provisioned to be considered as succeeded, and the rest of nodes will be provisioned gradually and eventually when stockout issue has been resolved.
- Enabled bool
- When this is enabled, cluster/node pool creations will ignore non-fatal errors like stockout to best provision as many nodes as possible right now and eventually bring up all target number of nodes
- Min
Provision intNodes - Minimum number of nodes to be provisioned to be considered as succeeded, and the rest of nodes will be provisioned gradually and eventually when stockout issue has been resolved.
- enabled Boolean
- When this is enabled, cluster/node pool creations will ignore non-fatal errors like stockout to best provision as many nodes as possible right now and eventually bring up all target number of nodes
- min
Provision IntegerNodes - Minimum number of nodes to be provisioned to be considered as succeeded, and the rest of nodes will be provisioned gradually and eventually when stockout issue has been resolved.
- enabled boolean
- When this is enabled, cluster/node pool creations will ignore non-fatal errors like stockout to best provision as many nodes as possible right now and eventually bring up all target number of nodes
- min
Provision numberNodes - Minimum number of nodes to be provisioned to be considered as succeeded, and the rest of nodes will be provisioned gradually and eventually when stockout issue has been resolved.
- enabled bool
- When this is enabled, cluster/node pool creations will ignore non-fatal errors like stockout to best provision as many nodes as possible right now and eventually bring up all target number of nodes
- min_
provision_ intnodes - Minimum number of nodes to be provisioned to be considered as succeeded, and the rest of nodes will be provisioned gradually and eventually when stockout issue has been resolved.
- enabled Boolean
- When this is enabled, cluster/node pool creations will ignore non-fatal errors like stockout to best provision as many nodes as possible right now and eventually bring up all target number of nodes
- min
Provision NumberNodes - Minimum number of nodes to be provisioned to be considered as succeeded, and the rest of nodes will be provisioned gradually and eventually when stockout issue has been resolved.
BigQueryDestination, BigQueryDestinationArgs
- Dataset
Id string - The ID of a BigQuery Dataset.
- Dataset
Id string - The ID of a BigQuery Dataset.
- dataset
Id String - The ID of a BigQuery Dataset.
- dataset
Id string - The ID of a BigQuery Dataset.
- dataset_
id str - The ID of a BigQuery Dataset.
- dataset
Id String - The ID of a BigQuery Dataset.
BigQueryDestinationResponse, BigQueryDestinationResponseArgs
- Dataset
Id string - The ID of a BigQuery Dataset.
- Dataset
Id string - The ID of a BigQuery Dataset.
- dataset
Id String - The ID of a BigQuery Dataset.
- dataset
Id string - The ID of a BigQuery Dataset.
- dataset_
id str - The ID of a BigQuery Dataset.
- dataset
Id String - The ID of a BigQuery Dataset.
BinaryAuthorization, BinaryAuthorizationArgs
- Enabled bool
- This field is deprecated. Leave this unset and instead configure BinaryAuthorization using evaluation_mode. If evaluation_mode is set to anything other than EVALUATION_MODE_UNSPECIFIED, this field is ignored.
- Evaluation
Mode Pulumi.Google Native. Container. V1. Binary Authorization Evaluation Mode - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- Enabled bool
- This field is deprecated. Leave this unset and instead configure BinaryAuthorization using evaluation_mode. If evaluation_mode is set to anything other than EVALUATION_MODE_UNSPECIFIED, this field is ignored.
- Evaluation
Mode BinaryAuthorization Evaluation Mode - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- enabled Boolean
- This field is deprecated. Leave this unset and instead configure BinaryAuthorization using evaluation_mode. If evaluation_mode is set to anything other than EVALUATION_MODE_UNSPECIFIED, this field is ignored.
- evaluation
Mode BinaryAuthorization Evaluation Mode - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- enabled boolean
- This field is deprecated. Leave this unset and instead configure BinaryAuthorization using evaluation_mode. If evaluation_mode is set to anything other than EVALUATION_MODE_UNSPECIFIED, this field is ignored.
- evaluation
Mode BinaryAuthorization Evaluation Mode - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- enabled bool
- This field is deprecated. Leave this unset and instead configure BinaryAuthorization using evaluation_mode. If evaluation_mode is set to anything other than EVALUATION_MODE_UNSPECIFIED, this field is ignored.
- evaluation_
mode BinaryAuthorization Evaluation Mode - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- enabled Boolean
- This field is deprecated. Leave this unset and instead configure BinaryAuthorization using evaluation_mode. If evaluation_mode is set to anything other than EVALUATION_MODE_UNSPECIFIED, this field is ignored.
- evaluation
Mode "EVALUATION_MODE_UNSPECIFIED" | "DISABLED" | "PROJECT_SINGLETON_POLICY_ENFORCE" - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
BinaryAuthorizationEvaluationMode, BinaryAuthorizationEvaluationModeArgs
- Evaluation
Mode Unspecified - EVALUATION_MODE_UNSPECIFIEDDefault value
- Disabled
- DISABLEDDisable BinaryAuthorization
- Project
Singleton Policy Enforce - PROJECT_SINGLETON_POLICY_ENFORCEEnforce Kubernetes admission requests with BinaryAuthorization using the project's singleton policy. This is equivalent to setting the enabled boolean to true.
- Binary
Authorization Evaluation Mode Evaluation Mode Unspecified - EVALUATION_MODE_UNSPECIFIEDDefault value
- Binary
Authorization Evaluation Mode Disabled - DISABLEDDisable BinaryAuthorization
- Binary
Authorization Evaluation Mode Project Singleton Policy Enforce - PROJECT_SINGLETON_POLICY_ENFORCEEnforce Kubernetes admission requests with BinaryAuthorization using the project's singleton policy. This is equivalent to setting the enabled boolean to true.
- Evaluation
Mode Unspecified - EVALUATION_MODE_UNSPECIFIEDDefault value
- Disabled
- DISABLEDDisable BinaryAuthorization
- Project
Singleton Policy Enforce - PROJECT_SINGLETON_POLICY_ENFORCEEnforce Kubernetes admission requests with BinaryAuthorization using the project's singleton policy. This is equivalent to setting the enabled boolean to true.
- Evaluation
Mode Unspecified - EVALUATION_MODE_UNSPECIFIEDDefault value
- Disabled
- DISABLEDDisable BinaryAuthorization
- Project
Singleton Policy Enforce - PROJECT_SINGLETON_POLICY_ENFORCEEnforce Kubernetes admission requests with BinaryAuthorization using the project's singleton policy. This is equivalent to setting the enabled boolean to true.
- EVALUATION_MODE_UNSPECIFIED
- EVALUATION_MODE_UNSPECIFIEDDefault value
- DISABLED
- DISABLEDDisable BinaryAuthorization
- PROJECT_SINGLETON_POLICY_ENFORCE
- PROJECT_SINGLETON_POLICY_ENFORCEEnforce Kubernetes admission requests with BinaryAuthorization using the project's singleton policy. This is equivalent to setting the enabled boolean to true.
- "EVALUATION_MODE_UNSPECIFIED"
- EVALUATION_MODE_UNSPECIFIEDDefault value
- "DISABLED"
- DISABLEDDisable BinaryAuthorization
- "PROJECT_SINGLETON_POLICY_ENFORCE"
- PROJECT_SINGLETON_POLICY_ENFORCEEnforce Kubernetes admission requests with BinaryAuthorization using the project's singleton policy. This is equivalent to setting the enabled boolean to true.
BinaryAuthorizationResponse, BinaryAuthorizationResponseArgs
- Enabled bool
- This field is deprecated. Leave this unset and instead configure BinaryAuthorization using evaluation_mode. If evaluation_mode is set to anything other than EVALUATION_MODE_UNSPECIFIED, this field is ignored.
- Evaluation
Mode string - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- Enabled bool
- This field is deprecated. Leave this unset and instead configure BinaryAuthorization using evaluation_mode. If evaluation_mode is set to anything other than EVALUATION_MODE_UNSPECIFIED, this field is ignored.
- Evaluation
Mode string - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- enabled Boolean
- This field is deprecated. Leave this unset and instead configure BinaryAuthorization using evaluation_mode. If evaluation_mode is set to anything other than EVALUATION_MODE_UNSPECIFIED, this field is ignored.
- evaluation
Mode String - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- enabled boolean
- This field is deprecated. Leave this unset and instead configure BinaryAuthorization using evaluation_mode. If evaluation_mode is set to anything other than EVALUATION_MODE_UNSPECIFIED, this field is ignored.
- evaluation
Mode string - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- enabled bool
- This field is deprecated. Leave this unset and instead configure BinaryAuthorization using evaluation_mode. If evaluation_mode is set to anything other than EVALUATION_MODE_UNSPECIFIED, this field is ignored.
- evaluation_
mode str - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- enabled Boolean
- This field is deprecated. Leave this unset and instead configure BinaryAuthorization using evaluation_mode. If evaluation_mode is set to anything other than EVALUATION_MODE_UNSPECIFIED, this field is ignored.
- evaluation
Mode String - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
BlueGreenInfoResponse, BlueGreenInfoResponseArgs
- Blue
Instance List<string>Group Urls - The resource URLs of the [managed instance groups] (/compute/docs/instance-groups/creating-groups-of-managed-instances) associated with blue pool.
- Blue
Pool stringDeletion Start Time - Time to start deleting blue pool to complete blue-green upgrade, in RFC3339 text format.
- Green
Instance List<string>Group Urls - The resource URLs of the [managed instance groups] (/compute/docs/instance-groups/creating-groups-of-managed-instances) associated with green pool.
- Green
Pool stringVersion - Version of green pool.
- Phase string
- Current blue-green upgrade phase.
- Blue
Instance []stringGroup Urls - The resource URLs of the [managed instance groups] (/compute/docs/instance-groups/creating-groups-of-managed-instances) associated with blue pool.
- Blue
Pool stringDeletion Start Time - Time to start deleting blue pool to complete blue-green upgrade, in RFC3339 text format.
- Green
Instance []stringGroup Urls - The resource URLs of the [managed instance groups] (/compute/docs/instance-groups/creating-groups-of-managed-instances) associated with green pool.
- Green
Pool stringVersion - Version of green pool.
- Phase string
- Current blue-green upgrade phase.
- blue
Instance List<String>Group Urls - The resource URLs of the [managed instance groups] (/compute/docs/instance-groups/creating-groups-of-managed-instances) associated with blue pool.
- blue
Pool StringDeletion Start Time - Time to start deleting blue pool to complete blue-green upgrade, in RFC3339 text format.
- green
Instance List<String>Group Urls - The resource URLs of the [managed instance groups] (/compute/docs/instance-groups/creating-groups-of-managed-instances) associated with green pool.
- green
Pool StringVersion - Version of green pool.
- phase String
- Current blue-green upgrade phase.
- blue
Instance string[]Group Urls - The resource URLs of the [managed instance groups] (/compute/docs/instance-groups/creating-groups-of-managed-instances) associated with blue pool.
- blue
Pool stringDeletion Start Time - Time to start deleting blue pool to complete blue-green upgrade, in RFC3339 text format.
- green
Instance string[]Group Urls - The resource URLs of the [managed instance groups] (/compute/docs/instance-groups/creating-groups-of-managed-instances) associated with green pool.
- green
Pool stringVersion - Version of green pool.
- phase string
- Current blue-green upgrade phase.
- blue_
instance_ Sequence[str]group_ urls - The resource URLs of the [managed instance groups] (/compute/docs/instance-groups/creating-groups-of-managed-instances) associated with blue pool.
- blue_
pool_ strdeletion_ start_ time - Time to start deleting blue pool to complete blue-green upgrade, in RFC3339 text format.
- green_
instance_ Sequence[str]group_ urls - The resource URLs of the [managed instance groups] (/compute/docs/instance-groups/creating-groups-of-managed-instances) associated with green pool.
- green_
pool_ strversion - Version of green pool.
- phase str
- Current blue-green upgrade phase.
- blue
Instance List<String>Group Urls - The resource URLs of the [managed instance groups] (/compute/docs/instance-groups/creating-groups-of-managed-instances) associated with blue pool.
- blue
Pool StringDeletion Start Time - Time to start deleting blue pool to complete blue-green upgrade, in RFC3339 text format.
- green
Instance List<String>Group Urls - The resource URLs of the [managed instance groups] (/compute/docs/instance-groups/creating-groups-of-managed-instances) associated with green pool.
- green
Pool StringVersion - Version of green pool.
- phase String
- Current blue-green upgrade phase.
BlueGreenSettings, BlueGreenSettingsArgs
- Node
Pool stringSoak Duration - Time needed after draining entire blue pool. After this period, blue pool will be cleaned up.
- Standard
Rollout Pulumi.Policy Google Native. Container. V1. Inputs. Standard Rollout Policy - Standard policy for the blue-green upgrade.
- Node
Pool stringSoak Duration - Time needed after draining entire blue pool. After this period, blue pool will be cleaned up.
- Standard
Rollout StandardPolicy Rollout Policy - Standard policy for the blue-green upgrade.
- node
Pool StringSoak Duration - Time needed after draining entire blue pool. After this period, blue pool will be cleaned up.
- standard
Rollout StandardPolicy Rollout Policy - Standard policy for the blue-green upgrade.
- node
Pool stringSoak Duration - Time needed after draining entire blue pool. After this period, blue pool will be cleaned up.
- standard
Rollout StandardPolicy Rollout Policy - Standard policy for the blue-green upgrade.
- node_
pool_ strsoak_ duration - Time needed after draining entire blue pool. After this period, blue pool will be cleaned up.
- standard_
rollout_ Standardpolicy Rollout Policy - Standard policy for the blue-green upgrade.
- node
Pool StringSoak Duration - Time needed after draining entire blue pool. After this period, blue pool will be cleaned up.
- standard
Rollout Property MapPolicy - Standard policy for the blue-green upgrade.
BlueGreenSettingsResponse, BlueGreenSettingsResponseArgs
- Node
Pool stringSoak Duration - Time needed after draining entire blue pool. After this period, blue pool will be cleaned up.
- Standard
Rollout Pulumi.Policy Google Native. Container. V1. Inputs. Standard Rollout Policy Response - Standard policy for the blue-green upgrade.
- Node
Pool stringSoak Duration - Time needed after draining entire blue pool. After this period, blue pool will be cleaned up.
- Standard
Rollout StandardPolicy Rollout Policy Response - Standard policy for the blue-green upgrade.
- node
Pool StringSoak Duration - Time needed after draining entire blue pool. After this period, blue pool will be cleaned up.
- standard
Rollout StandardPolicy Rollout Policy Response - Standard policy for the blue-green upgrade.
- node
Pool stringSoak Duration - Time needed after draining entire blue pool. After this period, blue pool will be cleaned up.
- standard
Rollout StandardPolicy Rollout Policy Response - Standard policy for the blue-green upgrade.
- node_
pool_ strsoak_ duration - Time needed after draining entire blue pool. After this period, blue pool will be cleaned up.
- standard_
rollout_ Standardpolicy Rollout Policy Response - Standard policy for the blue-green upgrade.
- node
Pool StringSoak Duration - Time needed after draining entire blue pool. After this period, blue pool will be cleaned up.
- standard
Rollout Property MapPolicy - Standard policy for the blue-green upgrade.
CidrBlock, CidrBlockArgs
- Cidr
Block string - cidr_block must be specified in CIDR notation.
- Display
Name string - display_name is an optional field for users to identify CIDR blocks.
- Cidr
Block string - cidr_block must be specified in CIDR notation.
- Display
Name string - display_name is an optional field for users to identify CIDR blocks.
- cidr
Block String - cidr_block must be specified in CIDR notation.
- display
Name String - display_name is an optional field for users to identify CIDR blocks.
- cidr
Block string - cidr_block must be specified in CIDR notation.
- display
Name string - display_name is an optional field for users to identify CIDR blocks.
- cidr_
block str - cidr_block must be specified in CIDR notation.
- display_
name str - display_name is an optional field for users to identify CIDR blocks.
- cidr
Block String - cidr_block must be specified in CIDR notation.
- display
Name String - display_name is an optional field for users to identify CIDR blocks.
CidrBlockResponse, CidrBlockResponseArgs
- Cidr
Block string - cidr_block must be specified in CIDR notation.
- Display
Name string - display_name is an optional field for users to identify CIDR blocks.
- Cidr
Block string - cidr_block must be specified in CIDR notation.
- Display
Name string - display_name is an optional field for users to identify CIDR blocks.
- cidr
Block String - cidr_block must be specified in CIDR notation.
- display
Name String - display_name is an optional field for users to identify CIDR blocks.
- cidr
Block string - cidr_block must be specified in CIDR notation.
- display
Name string - display_name is an optional field for users to identify CIDR blocks.
- cidr_
block str - cidr_block must be specified in CIDR notation.
- display_
name str - display_name is an optional field for users to identify CIDR blocks.
- cidr
Block String - cidr_block must be specified in CIDR notation.
- display
Name String - display_name is an optional field for users to identify CIDR blocks.
ClientCertificateConfig, ClientCertificateConfigArgs
- Issue
Client boolCertificate - Issue a client certificate.
- Issue
Client boolCertificate - Issue a client certificate.
- issue
Client BooleanCertificate - Issue a client certificate.
- issue
Client booleanCertificate - Issue a client certificate.
- issue_
client_ boolcertificate - Issue a client certificate.
- issue
Client BooleanCertificate - Issue a client certificate.
ClientCertificateConfigResponse, ClientCertificateConfigResponseArgs
- Issue
Client boolCertificate - Issue a client certificate.
- Issue
Client boolCertificate - Issue a client certificate.
- issue
Client BooleanCertificate - Issue a client certificate.
- issue
Client booleanCertificate - Issue a client certificate.
- issue_
client_ boolcertificate - Issue a client certificate.
- issue
Client BooleanCertificate - Issue a client certificate.
CloudRunConfig, CloudRunConfigArgs
- Disabled bool
- Whether Cloud Run addon is enabled for this cluster.
- Load
Balancer Pulumi.Type Google Native. Container. V1. Cloud Run Config Load Balancer Type - Which load balancer type is installed for Cloud Run.
- Disabled bool
- Whether Cloud Run addon is enabled for this cluster.
- Load
Balancer CloudType Run Config Load Balancer Type - Which load balancer type is installed for Cloud Run.
- disabled Boolean
- Whether Cloud Run addon is enabled for this cluster.
- load
Balancer CloudType Run Config Load Balancer Type - Which load balancer type is installed for Cloud Run.
- disabled boolean
- Whether Cloud Run addon is enabled for this cluster.
- load
Balancer CloudType Run Config Load Balancer Type - Which load balancer type is installed for Cloud Run.
- disabled bool
- Whether Cloud Run addon is enabled for this cluster.
- load_
balancer_ Cloudtype Run Config Load Balancer Type - Which load balancer type is installed for Cloud Run.
- disabled Boolean
- Whether Cloud Run addon is enabled for this cluster.
- load
Balancer "LOAD_BALANCER_TYPE_UNSPECIFIED" | "LOAD_BALANCER_TYPE_EXTERNAL" | "LOAD_BALANCER_TYPE_INTERNAL"Type - Which load balancer type is installed for Cloud Run.
CloudRunConfigLoadBalancerType, CloudRunConfigLoadBalancerTypeArgs
- Load
Balancer Type Unspecified - LOAD_BALANCER_TYPE_UNSPECIFIEDLoad balancer type for Cloud Run is unspecified.
- Load
Balancer Type External - LOAD_BALANCER_TYPE_EXTERNALInstall external load balancer for Cloud Run.
- Load
Balancer Type Internal - LOAD_BALANCER_TYPE_INTERNALInstall internal load balancer for Cloud Run.
- Cloud
Run Config Load Balancer Type Load Balancer Type Unspecified - LOAD_BALANCER_TYPE_UNSPECIFIEDLoad balancer type for Cloud Run is unspecified.
- Cloud
Run Config Load Balancer Type Load Balancer Type External - LOAD_BALANCER_TYPE_EXTERNALInstall external load balancer for Cloud Run.
- Cloud
Run Config Load Balancer Type Load Balancer Type Internal - LOAD_BALANCER_TYPE_INTERNALInstall internal load balancer for Cloud Run.
- Load
Balancer Type Unspecified - LOAD_BALANCER_TYPE_UNSPECIFIEDLoad balancer type for Cloud Run is unspecified.
- Load
Balancer Type External - LOAD_BALANCER_TYPE_EXTERNALInstall external load balancer for Cloud Run.
- Load
Balancer Type Internal - LOAD_BALANCER_TYPE_INTERNALInstall internal load balancer for Cloud Run.
- Load
Balancer Type Unspecified - LOAD_BALANCER_TYPE_UNSPECIFIEDLoad balancer type for Cloud Run is unspecified.
- Load
Balancer Type External - LOAD_BALANCER_TYPE_EXTERNALInstall external load balancer for Cloud Run.
- Load
Balancer Type Internal - LOAD_BALANCER_TYPE_INTERNALInstall internal load balancer for Cloud Run.
- LOAD_BALANCER_TYPE_UNSPECIFIED
- LOAD_BALANCER_TYPE_UNSPECIFIEDLoad balancer type for Cloud Run is unspecified.
- LOAD_BALANCER_TYPE_EXTERNAL
- LOAD_BALANCER_TYPE_EXTERNALInstall external load balancer for Cloud Run.
- LOAD_BALANCER_TYPE_INTERNAL
- LOAD_BALANCER_TYPE_INTERNALInstall internal load balancer for Cloud Run.
- "LOAD_BALANCER_TYPE_UNSPECIFIED"
- LOAD_BALANCER_TYPE_UNSPECIFIEDLoad balancer type for Cloud Run is unspecified.
- "LOAD_BALANCER_TYPE_EXTERNAL"
- LOAD_BALANCER_TYPE_EXTERNALInstall external load balancer for Cloud Run.
- "LOAD_BALANCER_TYPE_INTERNAL"
- LOAD_BALANCER_TYPE_INTERNALInstall internal load balancer for Cloud Run.
CloudRunConfigResponse, CloudRunConfigResponseArgs
- Disabled bool
- Whether Cloud Run addon is enabled for this cluster.
- Load
Balancer stringType - Which load balancer type is installed for Cloud Run.
- Disabled bool
- Whether Cloud Run addon is enabled for this cluster.
- Load
Balancer stringType - Which load balancer type is installed for Cloud Run.
- disabled Boolean
- Whether Cloud Run addon is enabled for this cluster.
- load
Balancer StringType - Which load balancer type is installed for Cloud Run.
- disabled boolean
- Whether Cloud Run addon is enabled for this cluster.
- load
Balancer stringType - Which load balancer type is installed for Cloud Run.
- disabled bool
- Whether Cloud Run addon is enabled for this cluster.
- load_
balancer_ strtype - Which load balancer type is installed for Cloud Run.
- disabled Boolean
- Whether Cloud Run addon is enabled for this cluster.
- load
Balancer StringType - Which load balancer type is installed for Cloud Run.
ClusterAutoscaling, ClusterAutoscalingArgs
- Autoprovisioning
Locations List<string> - The list of Google Compute Engine zones in which the NodePool's nodes can be created by NAP.
- Autoprovisioning
Node Pulumi.Pool Defaults Google Native. Container. V1. Inputs. Autoprovisioning Node Pool Defaults - AutoprovisioningNodePoolDefaults contains defaults for a node pool created by NAP.
- Autoscaling
Profile Pulumi.Google Native. Container. V1. Cluster Autoscaling Autoscaling Profile - Defines autoscaling behaviour.
- Enable
Node boolAutoprovisioning - Enables automatic node pool creation and deletion.
- Resource
Limits List<Pulumi.Google Native. Container. V1. Inputs. Resource Limit> - Contains global constraints regarding minimum and maximum amount of resources in the cluster.
- Autoprovisioning
Locations []string - The list of Google Compute Engine zones in which the NodePool's nodes can be created by NAP.
- Autoprovisioning
Node AutoprovisioningPool Defaults Node Pool Defaults - AutoprovisioningNodePoolDefaults contains defaults for a node pool created by NAP.
- Autoscaling
Profile ClusterAutoscaling Autoscaling Profile - Defines autoscaling behaviour.
- Enable
Node boolAutoprovisioning - Enables automatic node pool creation and deletion.
- Resource
Limits []ResourceLimit - Contains global constraints regarding minimum and maximum amount of resources in the cluster.
- autoprovisioning
Locations List<String> - The list of Google Compute Engine zones in which the NodePool's nodes can be created by NAP.
- autoprovisioning
Node AutoprovisioningPool Defaults Node Pool Defaults - AutoprovisioningNodePoolDefaults contains defaults for a node pool created by NAP.
- autoscaling
Profile ClusterAutoscaling Autoscaling Profile - Defines autoscaling behaviour.
- enable
Node BooleanAutoprovisioning - Enables automatic node pool creation and deletion.
- resource
Limits List<ResourceLimit> - Contains global constraints regarding minimum and maximum amount of resources in the cluster.
- autoprovisioning
Locations string[] - The list of Google Compute Engine zones in which the NodePool's nodes can be created by NAP.
- autoprovisioning
Node AutoprovisioningPool Defaults Node Pool Defaults - AutoprovisioningNodePoolDefaults contains defaults for a node pool created by NAP.
- autoscaling
Profile ClusterAutoscaling Autoscaling Profile - Defines autoscaling behaviour.
- enable
Node booleanAutoprovisioning - Enables automatic node pool creation and deletion.
- resource
Limits ResourceLimit[] - Contains global constraints regarding minimum and maximum amount of resources in the cluster.
- autoprovisioning_
locations Sequence[str] - The list of Google Compute Engine zones in which the NodePool's nodes can be created by NAP.
- autoprovisioning_
node_ Autoprovisioningpool_ defaults Node Pool Defaults - AutoprovisioningNodePoolDefaults contains defaults for a node pool created by NAP.
- autoscaling_
profile ClusterAutoscaling Autoscaling Profile - Defines autoscaling behaviour.
- enable_
node_ boolautoprovisioning - Enables automatic node pool creation and deletion.
- resource_
limits Sequence[ResourceLimit] - Contains global constraints regarding minimum and maximum amount of resources in the cluster.
- autoprovisioning
Locations List<String> - The list of Google Compute Engine zones in which the NodePool's nodes can be created by NAP.
- autoprovisioning
Node Property MapPool Defaults - AutoprovisioningNodePoolDefaults contains defaults for a node pool created by NAP.
- autoscaling
Profile "PROFILE_UNSPECIFIED" | "OPTIMIZE_UTILIZATION" | "BALANCED" - Defines autoscaling behaviour.
- enable
Node BooleanAutoprovisioning - Enables automatic node pool creation and deletion.
- resource
Limits List<Property Map> - Contains global constraints regarding minimum and maximum amount of resources in the cluster.
ClusterAutoscalingAutoscalingProfile, ClusterAutoscalingAutoscalingProfileArgs
- Profile
Unspecified - PROFILE_UNSPECIFIEDNo change to autoscaling configuration.
- Optimize
Utilization - OPTIMIZE_UTILIZATIONPrioritize optimizing utilization of resources.
- Balanced
- BALANCEDUse default (balanced) autoscaling configuration.
- Cluster
Autoscaling Autoscaling Profile Profile Unspecified - PROFILE_UNSPECIFIEDNo change to autoscaling configuration.
- Cluster
Autoscaling Autoscaling Profile Optimize Utilization - OPTIMIZE_UTILIZATIONPrioritize optimizing utilization of resources.
- Cluster
Autoscaling Autoscaling Profile Balanced - BALANCEDUse default (balanced) autoscaling configuration.
- Profile
Unspecified - PROFILE_UNSPECIFIEDNo change to autoscaling configuration.
- Optimize
Utilization - OPTIMIZE_UTILIZATIONPrioritize optimizing utilization of resources.
- Balanced
- BALANCEDUse default (balanced) autoscaling configuration.
- Profile
Unspecified - PROFILE_UNSPECIFIEDNo change to autoscaling configuration.
- Optimize
Utilization - OPTIMIZE_UTILIZATIONPrioritize optimizing utilization of resources.
- Balanced
- BALANCEDUse default (balanced) autoscaling configuration.
- PROFILE_UNSPECIFIED
- PROFILE_UNSPECIFIEDNo change to autoscaling configuration.
- OPTIMIZE_UTILIZATION
- OPTIMIZE_UTILIZATIONPrioritize optimizing utilization of resources.
- BALANCED
- BALANCEDUse default (balanced) autoscaling configuration.
- "PROFILE_UNSPECIFIED"
- PROFILE_UNSPECIFIEDNo change to autoscaling configuration.
- "OPTIMIZE_UTILIZATION"
- OPTIMIZE_UTILIZATIONPrioritize optimizing utilization of resources.
- "BALANCED"
- BALANCEDUse default (balanced) autoscaling configuration.
ClusterAutoscalingResponse, ClusterAutoscalingResponseArgs
- Autoprovisioning
Locations List<string> - The list of Google Compute Engine zones in which the NodePool's nodes can be created by NAP.
- Autoprovisioning
Node Pulumi.Pool Defaults Google Native. Container. V1. Inputs. Autoprovisioning Node Pool Defaults Response - AutoprovisioningNodePoolDefaults contains defaults for a node pool created by NAP.
- Autoscaling
Profile string - Defines autoscaling behaviour.
- Enable
Node boolAutoprovisioning - Enables automatic node pool creation and deletion.
- Resource
Limits List<Pulumi.Google Native. Container. V1. Inputs. Resource Limit Response> - Contains global constraints regarding minimum and maximum amount of resources in the cluster.
- Autoprovisioning
Locations []string - The list of Google Compute Engine zones in which the NodePool's nodes can be created by NAP.
- Autoprovisioning
Node AutoprovisioningPool Defaults Node Pool Defaults Response - AutoprovisioningNodePoolDefaults contains defaults for a node pool created by NAP.
- Autoscaling
Profile string - Defines autoscaling behaviour.
- Enable
Node boolAutoprovisioning - Enables automatic node pool creation and deletion.
- Resource
Limits []ResourceLimit Response - Contains global constraints regarding minimum and maximum amount of resources in the cluster.
- autoprovisioning
Locations List<String> - The list of Google Compute Engine zones in which the NodePool's nodes can be created by NAP.
- autoprovisioning
Node AutoprovisioningPool Defaults Node Pool Defaults Response - AutoprovisioningNodePoolDefaults contains defaults for a node pool created by NAP.
- autoscaling
Profile String - Defines autoscaling behaviour.
- enable
Node BooleanAutoprovisioning - Enables automatic node pool creation and deletion.
- resource
Limits List<ResourceLimit Response> - Contains global constraints regarding minimum and maximum amount of resources in the cluster.
- autoprovisioning
Locations string[] - The list of Google Compute Engine zones in which the NodePool's nodes can be created by NAP.
- autoprovisioning
Node AutoprovisioningPool Defaults Node Pool Defaults Response - AutoprovisioningNodePoolDefaults contains defaults for a node pool created by NAP.
- autoscaling
Profile string - Defines autoscaling behaviour.
- enable
Node booleanAutoprovisioning - Enables automatic node pool creation and deletion.
- resource
Limits ResourceLimit Response[] - Contains global constraints regarding minimum and maximum amount of resources in the cluster.
- autoprovisioning_
locations Sequence[str] - The list of Google Compute Engine zones in which the NodePool's nodes can be created by NAP.
- autoprovisioning_
node_ Autoprovisioningpool_ defaults Node Pool Defaults Response - AutoprovisioningNodePoolDefaults contains defaults for a node pool created by NAP.
- autoscaling_
profile str - Defines autoscaling behaviour.
- enable_
node_ boolautoprovisioning - Enables automatic node pool creation and deletion.
- resource_
limits Sequence[ResourceLimit Response] - Contains global constraints regarding minimum and maximum amount of resources in the cluster.
- autoprovisioning
Locations List<String> - The list of Google Compute Engine zones in which the NodePool's nodes can be created by NAP.
- autoprovisioning
Node Property MapPool Defaults - AutoprovisioningNodePoolDefaults contains defaults for a node pool created by NAP.
- autoscaling
Profile String - Defines autoscaling behaviour.
- enable
Node BooleanAutoprovisioning - Enables automatic node pool creation and deletion.
- resource
Limits List<Property Map> - Contains global constraints regarding minimum and maximum amount of resources in the cluster.
ClusterNetworkPerformanceConfig, ClusterNetworkPerformanceConfigArgs
- Total
Egress Pulumi.Bandwidth Tier Google Native. Container. V1. Cluster Network Performance Config Total Egress Bandwidth Tier - Specifies the total network bandwidth tier for NodePools in the cluster.
- Total
Egress ClusterBandwidth Tier Network Performance Config Total Egress Bandwidth Tier - Specifies the total network bandwidth tier for NodePools in the cluster.
- total
Egress ClusterBandwidth Tier Network Performance Config Total Egress Bandwidth Tier - Specifies the total network bandwidth tier for NodePools in the cluster.
- total
Egress ClusterBandwidth Tier Network Performance Config Total Egress Bandwidth Tier - Specifies the total network bandwidth tier for NodePools in the cluster.
- total_
egress_ Clusterbandwidth_ tier Network Performance Config Total Egress Bandwidth Tier - Specifies the total network bandwidth tier for NodePools in the cluster.
- total
Egress "TIER_UNSPECIFIED" | "TIER_1"Bandwidth Tier - Specifies the total network bandwidth tier for NodePools in the cluster.
ClusterNetworkPerformanceConfigResponse, ClusterNetworkPerformanceConfigResponseArgs
- Total
Egress stringBandwidth Tier - Specifies the total network bandwidth tier for NodePools in the cluster.
- Total
Egress stringBandwidth Tier - Specifies the total network bandwidth tier for NodePools in the cluster.
- total
Egress StringBandwidth Tier - Specifies the total network bandwidth tier for NodePools in the cluster.
- total
Egress stringBandwidth Tier - Specifies the total network bandwidth tier for NodePools in the cluster.
- total_
egress_ strbandwidth_ tier - Specifies the total network bandwidth tier for NodePools in the cluster.
- total
Egress StringBandwidth Tier - Specifies the total network bandwidth tier for NodePools in the cluster.
ClusterNetworkPerformanceConfigTotalEgressBandwidthTier, ClusterNetworkPerformanceConfigTotalEgressBandwidthTierArgs
- Tier
Unspecified - TIER_UNSPECIFIEDDefault value
- Tier1
- TIER_1Higher bandwidth, actual values based on VM size.
- Cluster
Network Performance Config Total Egress Bandwidth Tier Tier Unspecified - TIER_UNSPECIFIEDDefault value
- Cluster
Network Performance Config Total Egress Bandwidth Tier Tier1 - TIER_1Higher bandwidth, actual values based on VM size.
- Tier
Unspecified - TIER_UNSPECIFIEDDefault value
- Tier1
- TIER_1Higher bandwidth, actual values based on VM size.
- Tier
Unspecified - TIER_UNSPECIFIEDDefault value
- Tier1
- TIER_1Higher bandwidth, actual values based on VM size.
- TIER_UNSPECIFIED
- TIER_UNSPECIFIEDDefault value
- TIER1
- TIER_1Higher bandwidth, actual values based on VM size.
- "TIER_UNSPECIFIED"
- TIER_UNSPECIFIEDDefault value
- "TIER_1"
- TIER_1Higher bandwidth, actual values based on VM size.
ConfidentialNodes, ConfidentialNodesArgs
- Enabled bool
- Whether Confidential Nodes feature is enabled.
- Enabled bool
- Whether Confidential Nodes feature is enabled.
- enabled Boolean
- Whether Confidential Nodes feature is enabled.
- enabled boolean
- Whether Confidential Nodes feature is enabled.
- enabled bool
- Whether Confidential Nodes feature is enabled.
- enabled Boolean
- Whether Confidential Nodes feature is enabled.
ConfidentialNodesResponse, ConfidentialNodesResponseArgs
- Enabled bool
- Whether Confidential Nodes feature is enabled.
- Enabled bool
- Whether Confidential Nodes feature is enabled.
- enabled Boolean
- Whether Confidential Nodes feature is enabled.
- enabled boolean
- Whether Confidential Nodes feature is enabled.
- enabled bool
- Whether Confidential Nodes feature is enabled.
- enabled Boolean
- Whether Confidential Nodes feature is enabled.
ConfigConnectorConfig, ConfigConnectorConfigArgs
- Enabled bool
- Whether Cloud Connector is enabled for this cluster.
- Enabled bool
- Whether Cloud Connector is enabled for this cluster.
- enabled Boolean
- Whether Cloud Connector is enabled for this cluster.
- enabled boolean
- Whether Cloud Connector is enabled for this cluster.
- enabled bool
- Whether Cloud Connector is enabled for this cluster.
- enabled Boolean
- Whether Cloud Connector is enabled for this cluster.
ConfigConnectorConfigResponse, ConfigConnectorConfigResponseArgs
- Enabled bool
- Whether Cloud Connector is enabled for this cluster.
- Enabled bool
- Whether Cloud Connector is enabled for this cluster.
- enabled Boolean
- Whether Cloud Connector is enabled for this cluster.
- enabled boolean
- Whether Cloud Connector is enabled for this cluster.
- enabled bool
- Whether Cloud Connector is enabled for this cluster.
- enabled Boolean
- Whether Cloud Connector is enabled for this cluster.
ConsumptionMeteringConfig, ConsumptionMeteringConfigArgs
- Enabled bool
- Whether to enable consumption metering for this cluster. If enabled, a second BigQuery table will be created to hold resource consumption records.
- Enabled bool
- Whether to enable consumption metering for this cluster. If enabled, a second BigQuery table will be created to hold resource consumption records.
- enabled Boolean
- Whether to enable consumption metering for this cluster. If enabled, a second BigQuery table will be created to hold resource consumption records.
- enabled boolean
- Whether to enable consumption metering for this cluster. If enabled, a second BigQuery table will be created to hold resource consumption records.
- enabled bool
- Whether to enable consumption metering for this cluster. If enabled, a second BigQuery table will be created to hold resource consumption records.
- enabled Boolean
- Whether to enable consumption metering for this cluster. If enabled, a second BigQuery table will be created to hold resource consumption records.
ConsumptionMeteringConfigResponse, ConsumptionMeteringConfigResponseArgs
- Enabled bool
- Whether to enable consumption metering for this cluster. If enabled, a second BigQuery table will be created to hold resource consumption records.
- Enabled bool
- Whether to enable consumption metering for this cluster. If enabled, a second BigQuery table will be created to hold resource consumption records.
- enabled Boolean
- Whether to enable consumption metering for this cluster. If enabled, a second BigQuery table will be created to hold resource consumption records.
- enabled boolean
- Whether to enable consumption metering for this cluster. If enabled, a second BigQuery table will be created to hold resource consumption records.
- enabled bool
- Whether to enable consumption metering for this cluster. If enabled, a second BigQuery table will be created to hold resource consumption records.
- enabled Boolean
- Whether to enable consumption metering for this cluster. If enabled, a second BigQuery table will be created to hold resource consumption records.
CostManagementConfig, CostManagementConfigArgs
- Enabled bool
- Whether the feature is enabled or not.
- Enabled bool
- Whether the feature is enabled or not.
- enabled Boolean
- Whether the feature is enabled or not.
- enabled boolean
- Whether the feature is enabled or not.
- enabled bool
- Whether the feature is enabled or not.
- enabled Boolean
- Whether the feature is enabled or not.
CostManagementConfigResponse, CostManagementConfigResponseArgs
- Enabled bool
- Whether the feature is enabled or not.
- Enabled bool
- Whether the feature is enabled or not.
- enabled Boolean
- Whether the feature is enabled or not.
- enabled boolean
- Whether the feature is enabled or not.
- enabled bool
- Whether the feature is enabled or not.
- enabled Boolean
- Whether the feature is enabled or not.
DNSConfig, DNSConfigArgs
- Cluster
Dns Pulumi.Google Native. Container. V1. DNSConfig Cluster Dns - cluster_dns indicates which in-cluster DNS provider should be used.
- Cluster
Dns stringDomain - cluster_dns_domain is the suffix used for all cluster service records.
- Cluster
Dns Pulumi.Scope Google Native. Container. V1. DNSConfig Cluster Dns Scope - cluster_dns_scope indicates the scope of access to cluster DNS records.
- Cluster
Dns DNSConfigCluster Dns - cluster_dns indicates which in-cluster DNS provider should be used.
- Cluster
Dns stringDomain - cluster_dns_domain is the suffix used for all cluster service records.
- Cluster
Dns DNSConfigScope Cluster Dns Scope - cluster_dns_scope indicates the scope of access to cluster DNS records.
- cluster
Dns DNSConfigCluster Dns - cluster_dns indicates which in-cluster DNS provider should be used.
- cluster
Dns StringDomain - cluster_dns_domain is the suffix used for all cluster service records.
- cluster
Dns DNSConfigScope Cluster Dns Scope - cluster_dns_scope indicates the scope of access to cluster DNS records.
- cluster
Dns DNSConfigCluster Dns - cluster_dns indicates which in-cluster DNS provider should be used.
- cluster
Dns stringDomain - cluster_dns_domain is the suffix used for all cluster service records.
- cluster
Dns DNSConfigScope Cluster Dns Scope - cluster_dns_scope indicates the scope of access to cluster DNS records.
- cluster_
dns DNSConfigCluster Dns - cluster_dns indicates which in-cluster DNS provider should be used.
- cluster_
dns_ strdomain - cluster_dns_domain is the suffix used for all cluster service records.
- cluster_
dns_ DNSConfigscope Cluster Dns Scope - cluster_dns_scope indicates the scope of access to cluster DNS records.
- cluster
Dns "PROVIDER_UNSPECIFIED" | "PLATFORM_DEFAULT" | "CLOUD_DNS" | "KUBE_DNS" - cluster_dns indicates which in-cluster DNS provider should be used.
- cluster
Dns StringDomain - cluster_dns_domain is the suffix used for all cluster service records.
- cluster
Dns "DNS_SCOPE_UNSPECIFIED" | "CLUSTER_SCOPE" | "VPC_SCOPE"Scope - cluster_dns_scope indicates the scope of access to cluster DNS records.
DNSConfigClusterDns, DNSConfigClusterDnsArgs
- Provider
Unspecified - PROVIDER_UNSPECIFIEDDefault value
- Platform
Default - PLATFORM_DEFAULTUse GKE default DNS provider(kube-dns) for DNS resolution.
- Cloud
Dns - CLOUD_DNSUse CloudDNS for DNS resolution.
- Kube
Dns - KUBE_DNSUse KubeDNS for DNS resolution.
- DNSConfig
Cluster Dns Provider Unspecified - PROVIDER_UNSPECIFIEDDefault value
- DNSConfig
Cluster Dns Platform Default - PLATFORM_DEFAULTUse GKE default DNS provider(kube-dns) for DNS resolution.
- DNSConfig
Cluster Dns Cloud Dns - CLOUD_DNSUse CloudDNS for DNS resolution.
- DNSConfig
Cluster Dns Kube Dns - KUBE_DNSUse KubeDNS for DNS resolution.
- Provider
Unspecified - PROVIDER_UNSPECIFIEDDefault value
- Platform
Default - PLATFORM_DEFAULTUse GKE default DNS provider(kube-dns) for DNS resolution.
- Cloud
Dns - CLOUD_DNSUse CloudDNS for DNS resolution.
- Kube
Dns - KUBE_DNSUse KubeDNS for DNS resolution.
- Provider
Unspecified - PROVIDER_UNSPECIFIEDDefault value
- Platform
Default - PLATFORM_DEFAULTUse GKE default DNS provider(kube-dns) for DNS resolution.
- Cloud
Dns - CLOUD_DNSUse CloudDNS for DNS resolution.
- Kube
Dns - KUBE_DNSUse KubeDNS for DNS resolution.
- PROVIDER_UNSPECIFIED
- PROVIDER_UNSPECIFIEDDefault value
- PLATFORM_DEFAULT
- PLATFORM_DEFAULTUse GKE default DNS provider(kube-dns) for DNS resolution.
- CLOUD_DNS
- CLOUD_DNSUse CloudDNS for DNS resolution.
- KUBE_DNS
- KUBE_DNSUse KubeDNS for DNS resolution.
- "PROVIDER_UNSPECIFIED"
- PROVIDER_UNSPECIFIEDDefault value
- "PLATFORM_DEFAULT"
- PLATFORM_DEFAULTUse GKE default DNS provider(kube-dns) for DNS resolution.
- "CLOUD_DNS"
- CLOUD_DNSUse CloudDNS for DNS resolution.
- "KUBE_DNS"
- KUBE_DNSUse KubeDNS for DNS resolution.
DNSConfigClusterDnsScope, DNSConfigClusterDnsScopeArgs
- Dns
Scope Unspecified - DNS_SCOPE_UNSPECIFIEDDefault value, will be inferred as cluster scope.
- Cluster
Scope - CLUSTER_SCOPEDNS records are accessible from within the cluster.
- Vpc
Scope - VPC_SCOPEDNS records are accessible from within the VPC.
- DNSConfig
Cluster Dns Scope Dns Scope Unspecified - DNS_SCOPE_UNSPECIFIEDDefault value, will be inferred as cluster scope.
- DNSConfig
Cluster Dns Scope Cluster Scope - CLUSTER_SCOPEDNS records are accessible from within the cluster.
- DNSConfig
Cluster Dns Scope Vpc Scope - VPC_SCOPEDNS records are accessible from within the VPC.
- Dns
Scope Unspecified - DNS_SCOPE_UNSPECIFIEDDefault value, will be inferred as cluster scope.
- Cluster
Scope - CLUSTER_SCOPEDNS records are accessible from within the cluster.
- Vpc
Scope - VPC_SCOPEDNS records are accessible from within the VPC.
- Dns
Scope Unspecified - DNS_SCOPE_UNSPECIFIEDDefault value, will be inferred as cluster scope.
- Cluster
Scope - CLUSTER_SCOPEDNS records are accessible from within the cluster.
- Vpc
Scope - VPC_SCOPEDNS records are accessible from within the VPC.
- DNS_SCOPE_UNSPECIFIED
- DNS_SCOPE_UNSPECIFIEDDefault value, will be inferred as cluster scope.
- CLUSTER_SCOPE
- CLUSTER_SCOPEDNS records are accessible from within the cluster.
- VPC_SCOPE
- VPC_SCOPEDNS records are accessible from within the VPC.
- "DNS_SCOPE_UNSPECIFIED"
- DNS_SCOPE_UNSPECIFIEDDefault value, will be inferred as cluster scope.
- "CLUSTER_SCOPE"
- CLUSTER_SCOPEDNS records are accessible from within the cluster.
- "VPC_SCOPE"
- VPC_SCOPEDNS records are accessible from within the VPC.
DNSConfigResponse, DNSConfigResponseArgs
- Cluster
Dns string - cluster_dns indicates which in-cluster DNS provider should be used.
- Cluster
Dns stringDomain - cluster_dns_domain is the suffix used for all cluster service records.
- Cluster
Dns stringScope - cluster_dns_scope indicates the scope of access to cluster DNS records.
- Cluster
Dns string - cluster_dns indicates which in-cluster DNS provider should be used.
- Cluster
Dns stringDomain - cluster_dns_domain is the suffix used for all cluster service records.
- Cluster
Dns stringScope - cluster_dns_scope indicates the scope of access to cluster DNS records.
- cluster
Dns String - cluster_dns indicates which in-cluster DNS provider should be used.
- cluster
Dns StringDomain - cluster_dns_domain is the suffix used for all cluster service records.
- cluster
Dns StringScope - cluster_dns_scope indicates the scope of access to cluster DNS records.
- cluster
Dns string - cluster_dns indicates which in-cluster DNS provider should be used.
- cluster
Dns stringDomain - cluster_dns_domain is the suffix used for all cluster service records.
- cluster
Dns stringScope - cluster_dns_scope indicates the scope of access to cluster DNS records.
- cluster_
dns str - cluster_dns indicates which in-cluster DNS provider should be used.
- cluster_
dns_ strdomain - cluster_dns_domain is the suffix used for all cluster service records.
- cluster_
dns_ strscope - cluster_dns_scope indicates the scope of access to cluster DNS records.
- cluster
Dns String - cluster_dns indicates which in-cluster DNS provider should be used.
- cluster
Dns StringDomain - cluster_dns_domain is the suffix used for all cluster service records.
- cluster
Dns StringScope - cluster_dns_scope indicates the scope of access to cluster DNS records.
DailyMaintenanceWindow, DailyMaintenanceWindowArgs
- start_
time str - Time within the maintenance window to start the maintenance operations. Time format should be in RFC3339 format "HH:MM", where HH : [00-23] and MM : [00-59] GMT.
DailyMaintenanceWindowResponse, DailyMaintenanceWindowResponseArgs
- Duration string
- [Output only] Duration of the time window, automatically chosen to be smallest possible in the given scenario. Duration will be in RFC3339 format "PTnHnMnS".
- Start
Time string - Time within the maintenance window to start the maintenance operations. Time format should be in RFC3339 format "HH:MM", where HH : [00-23] and MM : [00-59] GMT.
- Duration string
- [Output only] Duration of the time window, automatically chosen to be smallest possible in the given scenario. Duration will be in RFC3339 format "PTnHnMnS".
- Start
Time string - Time within the maintenance window to start the maintenance operations. Time format should be in RFC3339 format "HH:MM", where HH : [00-23] and MM : [00-59] GMT.
- duration String
- [Output only] Duration of the time window, automatically chosen to be smallest possible in the given scenario. Duration will be in RFC3339 format "PTnHnMnS".
- start
Time String - Time within the maintenance window to start the maintenance operations. Time format should be in RFC3339 format "HH:MM", where HH : [00-23] and MM : [00-59] GMT.
- duration string
- [Output only] Duration of the time window, automatically chosen to be smallest possible in the given scenario. Duration will be in RFC3339 format "PTnHnMnS".
- start
Time string - Time within the maintenance window to start the maintenance operations. Time format should be in RFC3339 format "HH:MM", where HH : [00-23] and MM : [00-59] GMT.
- duration str
- [Output only] Duration of the time window, automatically chosen to be smallest possible in the given scenario. Duration will be in RFC3339 format "PTnHnMnS".
- start_
time str - Time within the maintenance window to start the maintenance operations. Time format should be in RFC3339 format "HH:MM", where HH : [00-23] and MM : [00-59] GMT.
- duration String
- [Output only] Duration of the time window, automatically chosen to be smallest possible in the given scenario. Duration will be in RFC3339 format "PTnHnMnS".
- start
Time String - Time within the maintenance window to start the maintenance operations. Time format should be in RFC3339 format "HH:MM", where HH : [00-23] and MM : [00-59] GMT.
DatabaseEncryption, DatabaseEncryptionArgs
- Key
Name string - Name of CloudKMS key to use for the encryption of secrets in etcd. Ex. projects/my-project/locations/global/keyRings/my-ring/cryptoKeys/my-key
- State
Pulumi.
Google Native. Container. V1. Database Encryption State - The desired state of etcd encryption.
- Key
Name string - Name of CloudKMS key to use for the encryption of secrets in etcd. Ex. projects/my-project/locations/global/keyRings/my-ring/cryptoKeys/my-key
- State
Database
Encryption State - The desired state of etcd encryption.
- key
Name String - Name of CloudKMS key to use for the encryption of secrets in etcd. Ex. projects/my-project/locations/global/keyRings/my-ring/cryptoKeys/my-key
- state
Database
Encryption State - The desired state of etcd encryption.
- key
Name string - Name of CloudKMS key to use for the encryption of secrets in etcd. Ex. projects/my-project/locations/global/keyRings/my-ring/cryptoKeys/my-key
- state
Database
Encryption State - The desired state of etcd encryption.
- key_
name str - Name of CloudKMS key to use for the encryption of secrets in etcd. Ex. projects/my-project/locations/global/keyRings/my-ring/cryptoKeys/my-key
- state
Database
Encryption State - The desired state of etcd encryption.
- key
Name String - Name of CloudKMS key to use for the encryption of secrets in etcd. Ex. projects/my-project/locations/global/keyRings/my-ring/cryptoKeys/my-key
- state "UNKNOWN" | "ENCRYPTED" | "DECRYPTED"
- The desired state of etcd encryption.
DatabaseEncryptionResponse, DatabaseEncryptionResponseArgs
DatabaseEncryptionState, DatabaseEncryptionStateArgs
- Unknown
- UNKNOWNShould never be set
- Encrypted
- ENCRYPTEDSecrets in etcd are encrypted.
- Decrypted
- DECRYPTEDSecrets in etcd are stored in plain text (at etcd level) - this is unrelated to Compute Engine level full disk encryption.
- Database
Encryption State Unknown - UNKNOWNShould never be set
- Database
Encryption State Encrypted - ENCRYPTEDSecrets in etcd are encrypted.
- Database
Encryption State Decrypted - DECRYPTEDSecrets in etcd are stored in plain text (at etcd level) - this is unrelated to Compute Engine level full disk encryption.
- Unknown
- UNKNOWNShould never be set
- Encrypted
- ENCRYPTEDSecrets in etcd are encrypted.
- Decrypted
- DECRYPTEDSecrets in etcd are stored in plain text (at etcd level) - this is unrelated to Compute Engine level full disk encryption.
- Unknown
- UNKNOWNShould never be set
- Encrypted
- ENCRYPTEDSecrets in etcd are encrypted.
- Decrypted
- DECRYPTEDSecrets in etcd are stored in plain text (at etcd level) - this is unrelated to Compute Engine level full disk encryption.
- UNKNOWN
- UNKNOWNShould never be set
- ENCRYPTED
- ENCRYPTEDSecrets in etcd are encrypted.
- DECRYPTED
- DECRYPTEDSecrets in etcd are stored in plain text (at etcd level) - this is unrelated to Compute Engine level full disk encryption.
- "UNKNOWN"
- UNKNOWNShould never be set
- "ENCRYPTED"
- ENCRYPTEDSecrets in etcd are encrypted.
- "DECRYPTED"
- DECRYPTEDSecrets in etcd are stored in plain text (at etcd level) - this is unrelated to Compute Engine level full disk encryption.
DefaultSnatStatus, DefaultSnatStatusArgs
- Disabled bool
- Disables cluster default sNAT rules.
- Disabled bool
- Disables cluster default sNAT rules.
- disabled Boolean
- Disables cluster default sNAT rules.
- disabled boolean
- Disables cluster default sNAT rules.
- disabled bool
- Disables cluster default sNAT rules.
- disabled Boolean
- Disables cluster default sNAT rules.
DefaultSnatStatusResponse, DefaultSnatStatusResponseArgs
- Disabled bool
- Disables cluster default sNAT rules.
- Disabled bool
- Disables cluster default sNAT rules.
- disabled Boolean
- Disables cluster default sNAT rules.
- disabled boolean
- Disables cluster default sNAT rules.
- disabled bool
- Disables cluster default sNAT rules.
- disabled Boolean
- Disables cluster default sNAT rules.
DnsCacheConfig, DnsCacheConfigArgs
- Enabled bool
- Whether NodeLocal DNSCache is enabled for this cluster.
- Enabled bool
- Whether NodeLocal DNSCache is enabled for this cluster.
- enabled Boolean
- Whether NodeLocal DNSCache is enabled for this cluster.
- enabled boolean
- Whether NodeLocal DNSCache is enabled for this cluster.
- enabled bool
- Whether NodeLocal DNSCache is enabled for this cluster.
- enabled Boolean
- Whether NodeLocal DNSCache is enabled for this cluster.
DnsCacheConfigResponse, DnsCacheConfigResponseArgs
- Enabled bool
- Whether NodeLocal DNSCache is enabled for this cluster.
- Enabled bool
- Whether NodeLocal DNSCache is enabled for this cluster.
- enabled Boolean
- Whether NodeLocal DNSCache is enabled for this cluster.
- enabled boolean
- Whether NodeLocal DNSCache is enabled for this cluster.
- enabled bool
- Whether NodeLocal DNSCache is enabled for this cluster.
- enabled Boolean
- Whether NodeLocal DNSCache is enabled for this cluster.
EnterpriseConfigResponse, EnterpriseConfigResponseArgs
- Cluster
Tier string - [Output only] cluster_tier specifies the premium tier of the cluster.
- Cluster
Tier string - [Output only] cluster_tier specifies the premium tier of the cluster.
- cluster
Tier String - [Output only] cluster_tier specifies the premium tier of the cluster.
- cluster
Tier string - [Output only] cluster_tier specifies the premium tier of the cluster.
- cluster_
tier str - [Output only] cluster_tier specifies the premium tier of the cluster.
- cluster
Tier String - [Output only] cluster_tier specifies the premium tier of the cluster.
EphemeralStorageLocalSsdConfig, EphemeralStorageLocalSsdConfigArgs
- Local
Ssd intCount - Number of local SSDs to use to back ephemeral storage. Uses NVMe interfaces. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- Local
Ssd intCount - Number of local SSDs to use to back ephemeral storage. Uses NVMe interfaces. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local
Ssd IntegerCount - Number of local SSDs to use to back ephemeral storage. Uses NVMe interfaces. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local
Ssd numberCount - Number of local SSDs to use to back ephemeral storage. Uses NVMe interfaces. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local_
ssd_ intcount - Number of local SSDs to use to back ephemeral storage. Uses NVMe interfaces. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local
Ssd NumberCount - Number of local SSDs to use to back ephemeral storage. Uses NVMe interfaces. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
EphemeralStorageLocalSsdConfigResponse, EphemeralStorageLocalSsdConfigResponseArgs
- Local
Ssd intCount - Number of local SSDs to use to back ephemeral storage. Uses NVMe interfaces. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- Local
Ssd intCount - Number of local SSDs to use to back ephemeral storage. Uses NVMe interfaces. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local
Ssd IntegerCount - Number of local SSDs to use to back ephemeral storage. Uses NVMe interfaces. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local
Ssd numberCount - Number of local SSDs to use to back ephemeral storage. Uses NVMe interfaces. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local_
ssd_ intcount - Number of local SSDs to use to back ephemeral storage. Uses NVMe interfaces. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local
Ssd NumberCount - Number of local SSDs to use to back ephemeral storage. Uses NVMe interfaces. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
FastSocket, FastSocketArgs
- Enabled bool
- Whether Fast Socket features are enabled in the node pool.
- Enabled bool
- Whether Fast Socket features are enabled in the node pool.
- enabled Boolean
- Whether Fast Socket features are enabled in the node pool.
- enabled boolean
- Whether Fast Socket features are enabled in the node pool.
- enabled bool
- Whether Fast Socket features are enabled in the node pool.
- enabled Boolean
- Whether Fast Socket features are enabled in the node pool.
FastSocketResponse, FastSocketResponseArgs
- Enabled bool
- Whether Fast Socket features are enabled in the node pool.
- Enabled bool
- Whether Fast Socket features are enabled in the node pool.
- enabled Boolean
- Whether Fast Socket features are enabled in the node pool.
- enabled boolean
- Whether Fast Socket features are enabled in the node pool.
- enabled bool
- Whether Fast Socket features are enabled in the node pool.
- enabled Boolean
- Whether Fast Socket features are enabled in the node pool.
Filter, FilterArgs
- Event
Type List<Pulumi.Google Native. Container. V1. Filter Event Type Item> - Event types to allowlist.
- Event
Type []FilterEvent Type Item - Event types to allowlist.
- event
Type List<FilterEvent Type Item> - Event types to allowlist.
- event
Type FilterEvent Type Item[] - Event types to allowlist.
- event_
type Sequence[FilterEvent Type Item] - Event types to allowlist.
FilterEventTypeItem, FilterEventTypeItemArgs
- Event
Type Unspecified - EVENT_TYPE_UNSPECIFIEDNot set, will be ignored.
- Upgrade
Available Event - UPGRADE_AVAILABLE_EVENTCorresponds with UpgradeAvailableEvent.
- Upgrade
Event - UPGRADE_EVENTCorresponds with UpgradeEvent.
- Security
Bulletin Event - SECURITY_BULLETIN_EVENTCorresponds with SecurityBulletinEvent.
- Filter
Event Type Item Event Type Unspecified - EVENT_TYPE_UNSPECIFIEDNot set, will be ignored.
- Filter
Event Type Item Upgrade Available Event - UPGRADE_AVAILABLE_EVENTCorresponds with UpgradeAvailableEvent.
- Filter
Event Type Item Upgrade Event - UPGRADE_EVENTCorresponds with UpgradeEvent.
- Filter
Event Type Item Security Bulletin Event - SECURITY_BULLETIN_EVENTCorresponds with SecurityBulletinEvent.
- Event
Type Unspecified - EVENT_TYPE_UNSPECIFIEDNot set, will be ignored.
- Upgrade
Available Event - UPGRADE_AVAILABLE_EVENTCorresponds with UpgradeAvailableEvent.
- Upgrade
Event - UPGRADE_EVENTCorresponds with UpgradeEvent.
- Security
Bulletin Event - SECURITY_BULLETIN_EVENTCorresponds with SecurityBulletinEvent.
- Event
Type Unspecified - EVENT_TYPE_UNSPECIFIEDNot set, will be ignored.
- Upgrade
Available Event - UPGRADE_AVAILABLE_EVENTCorresponds with UpgradeAvailableEvent.
- Upgrade
Event - UPGRADE_EVENTCorresponds with UpgradeEvent.
- Security
Bulletin Event - SECURITY_BULLETIN_EVENTCorresponds with SecurityBulletinEvent.
- EVENT_TYPE_UNSPECIFIED
- EVENT_TYPE_UNSPECIFIEDNot set, will be ignored.
- UPGRADE_AVAILABLE_EVENT
- UPGRADE_AVAILABLE_EVENTCorresponds with UpgradeAvailableEvent.
- UPGRADE_EVENT
- UPGRADE_EVENTCorresponds with UpgradeEvent.
- SECURITY_BULLETIN_EVENT
- SECURITY_BULLETIN_EVENTCorresponds with SecurityBulletinEvent.
- "EVENT_TYPE_UNSPECIFIED"
- EVENT_TYPE_UNSPECIFIEDNot set, will be ignored.
- "UPGRADE_AVAILABLE_EVENT"
- UPGRADE_AVAILABLE_EVENTCorresponds with UpgradeAvailableEvent.
- "UPGRADE_EVENT"
- UPGRADE_EVENTCorresponds with UpgradeEvent.
- "SECURITY_BULLETIN_EVENT"
- SECURITY_BULLETIN_EVENTCorresponds with SecurityBulletinEvent.
FilterResponse, FilterResponseArgs
- Event
Type List<string> - Event types to allowlist.
- Event
Type []string - Event types to allowlist.
- event
Type List<String> - Event types to allowlist.
- event
Type string[] - Event types to allowlist.
- event_
type Sequence[str] - Event types to allowlist.
- event
Type List<String> - Event types to allowlist.
Fleet, FleetArgs
- Project string
- The Fleet host project(project ID or project number) where this cluster will be registered to. This field cannot be changed after the cluster has been registered.
- Project string
- The Fleet host project(project ID or project number) where this cluster will be registered to. This field cannot be changed after the cluster has been registered.
- project String
- The Fleet host project(project ID or project number) where this cluster will be registered to. This field cannot be changed after the cluster has been registered.
- project string
- The Fleet host project(project ID or project number) where this cluster will be registered to. This field cannot be changed after the cluster has been registered.
- project str
- The Fleet host project(project ID or project number) where this cluster will be registered to. This field cannot be changed after the cluster has been registered.
- project String
- The Fleet host project(project ID or project number) where this cluster will be registered to. This field cannot be changed after the cluster has been registered.
FleetResponse, FleetResponseArgs
- Membership string
- [Output only] The full resource name of the registered fleet membership of the cluster, in the format
//gkehub.googleapis.com/projects/*/locations/*/memberships/*
. - Pre
Registered bool - [Output only] Whether the cluster has been registered through the fleet API.
- Project string
- The Fleet host project(project ID or project number) where this cluster will be registered to. This field cannot be changed after the cluster has been registered.
- Membership string
- [Output only] The full resource name of the registered fleet membership of the cluster, in the format
//gkehub.googleapis.com/projects/*/locations/*/memberships/*
. - Pre
Registered bool - [Output only] Whether the cluster has been registered through the fleet API.
- Project string
- The Fleet host project(project ID or project number) where this cluster will be registered to. This field cannot be changed after the cluster has been registered.
- membership String
- [Output only] The full resource name of the registered fleet membership of the cluster, in the format
//gkehub.googleapis.com/projects/*/locations/*/memberships/*
. - pre
Registered Boolean - [Output only] Whether the cluster has been registered through the fleet API.
- project String
- The Fleet host project(project ID or project number) where this cluster will be registered to. This field cannot be changed after the cluster has been registered.
- membership string
- [Output only] The full resource name of the registered fleet membership of the cluster, in the format
//gkehub.googleapis.com/projects/*/locations/*/memberships/*
. - pre
Registered boolean - [Output only] Whether the cluster has been registered through the fleet API.
- project string
- The Fleet host project(project ID or project number) where this cluster will be registered to. This field cannot be changed after the cluster has been registered.
- membership str
- [Output only] The full resource name of the registered fleet membership of the cluster, in the format
//gkehub.googleapis.com/projects/*/locations/*/memberships/*
. - pre_
registered bool - [Output only] Whether the cluster has been registered through the fleet API.
- project str
- The Fleet host project(project ID or project number) where this cluster will be registered to. This field cannot be changed after the cluster has been registered.
- membership String
- [Output only] The full resource name of the registered fleet membership of the cluster, in the format
//gkehub.googleapis.com/projects/*/locations/*/memberships/*
. - pre
Registered Boolean - [Output only] Whether the cluster has been registered through the fleet API.
- project String
- The Fleet host project(project ID or project number) where this cluster will be registered to. This field cannot be changed after the cluster has been registered.
GPUDriverInstallationConfig, GPUDriverInstallationConfigArgs
- Gpu
Driver Pulumi.Version Google Native. Container. V1. GPUDriver Installation Config Gpu Driver Version - Mode for how the GPU driver is installed.
- Gpu
Driver GPUDriverVersion Installation Config Gpu Driver Version - Mode for how the GPU driver is installed.
- gpu
Driver GPUDriverVersion Installation Config Gpu Driver Version - Mode for how the GPU driver is installed.
- gpu
Driver GPUDriverVersion Installation Config Gpu Driver Version - Mode for how the GPU driver is installed.
- gpu_
driver_ GPUDriverversion Installation Config Gpu Driver Version - Mode for how the GPU driver is installed.
- gpu
Driver "GPU_DRIVER_VERSION_UNSPECIFIED" | "INSTALLATION_DISABLED" | "DEFAULT" | "LATEST"Version - Mode for how the GPU driver is installed.
GPUDriverInstallationConfigGpuDriverVersion, GPUDriverInstallationConfigGpuDriverVersionArgs
- Gpu
Driver Version Unspecified - GPU_DRIVER_VERSION_UNSPECIFIEDDefault value is to not install any GPU driver.
- Installation
Disabled - INSTALLATION_DISABLEDDisable GPU driver auto installation and needs manual installation
- Default
- DEFAULT"Default" GPU driver in COS and Ubuntu.
- Latest
- LATEST"Latest" GPU driver in COS.
- GPUDriver
Installation Config Gpu Driver Version Gpu Driver Version Unspecified - GPU_DRIVER_VERSION_UNSPECIFIEDDefault value is to not install any GPU driver.
- GPUDriver
Installation Config Gpu Driver Version Installation Disabled - INSTALLATION_DISABLEDDisable GPU driver auto installation and needs manual installation
- GPUDriver
Installation Config Gpu Driver Version Default - DEFAULT"Default" GPU driver in COS and Ubuntu.
- GPUDriver
Installation Config Gpu Driver Version Latest - LATEST"Latest" GPU driver in COS.
- Gpu
Driver Version Unspecified - GPU_DRIVER_VERSION_UNSPECIFIEDDefault value is to not install any GPU driver.
- Installation
Disabled - INSTALLATION_DISABLEDDisable GPU driver auto installation and needs manual installation
- Default
- DEFAULT"Default" GPU driver in COS and Ubuntu.
- Latest
- LATEST"Latest" GPU driver in COS.
- Gpu
Driver Version Unspecified - GPU_DRIVER_VERSION_UNSPECIFIEDDefault value is to not install any GPU driver.
- Installation
Disabled - INSTALLATION_DISABLEDDisable GPU driver auto installation and needs manual installation
- Default
- DEFAULT"Default" GPU driver in COS and Ubuntu.
- Latest
- LATEST"Latest" GPU driver in COS.
- GPU_DRIVER_VERSION_UNSPECIFIED
- GPU_DRIVER_VERSION_UNSPECIFIEDDefault value is to not install any GPU driver.
- INSTALLATION_DISABLED
- INSTALLATION_DISABLEDDisable GPU driver auto installation and needs manual installation
- DEFAULT
- DEFAULT"Default" GPU driver in COS and Ubuntu.
- LATEST
- LATEST"Latest" GPU driver in COS.
- "GPU_DRIVER_VERSION_UNSPECIFIED"
- GPU_DRIVER_VERSION_UNSPECIFIEDDefault value is to not install any GPU driver.
- "INSTALLATION_DISABLED"
- INSTALLATION_DISABLEDDisable GPU driver auto installation and needs manual installation
- "DEFAULT"
- DEFAULT"Default" GPU driver in COS and Ubuntu.
- "LATEST"
- LATEST"Latest" GPU driver in COS.
GPUDriverInstallationConfigResponse, GPUDriverInstallationConfigResponseArgs
- Gpu
Driver stringVersion - Mode for how the GPU driver is installed.
- Gpu
Driver stringVersion - Mode for how the GPU driver is installed.
- gpu
Driver StringVersion - Mode for how the GPU driver is installed.
- gpu
Driver stringVersion - Mode for how the GPU driver is installed.
- gpu_
driver_ strversion - Mode for how the GPU driver is installed.
- gpu
Driver StringVersion - Mode for how the GPU driver is installed.
GPUSharingConfig, GPUSharingConfigArgs
- Gpu
Sharing Pulumi.Strategy Google Native. Container. V1. GPUSharing Config Gpu Sharing Strategy - The type of GPU sharing strategy to enable on the GPU node.
- string
- The max number of containers that can share a physical GPU.
- Gpu
Sharing GPUSharingStrategy Config Gpu Sharing Strategy - The type of GPU sharing strategy to enable on the GPU node.
- string
- The max number of containers that can share a physical GPU.
- gpu
Sharing GPUSharingStrategy Config Gpu Sharing Strategy - The type of GPU sharing strategy to enable on the GPU node.
- String
- The max number of containers that can share a physical GPU.
- gpu
Sharing GPUSharingStrategy Config Gpu Sharing Strategy - The type of GPU sharing strategy to enable on the GPU node.
- string
- The max number of containers that can share a physical GPU.
- gpu_
sharing_ GPUSharingstrategy Config Gpu Sharing Strategy - The type of GPU sharing strategy to enable on the GPU node.
- str
- The max number of containers that can share a physical GPU.
- gpu
Sharing "GPU_SHARING_STRATEGY_UNSPECIFIED" | "TIME_SHARING"Strategy - The type of GPU sharing strategy to enable on the GPU node.
- String
- The max number of containers that can share a physical GPU.
GPUSharingConfigGpuSharingStrategy, GPUSharingConfigGpuSharingStrategyArgs
- Gpu
Sharing Strategy Unspecified - GPU_SHARING_STRATEGY_UNSPECIFIEDDefault value.
- Time
Sharing - TIME_SHARINGGPUs are time-shared between containers.
- GPUSharing
Config Gpu Sharing Strategy Gpu Sharing Strategy Unspecified - GPU_SHARING_STRATEGY_UNSPECIFIEDDefault value.
- GPUSharing
Config Gpu Sharing Strategy Time Sharing - TIME_SHARINGGPUs are time-shared between containers.
- Gpu
Sharing Strategy Unspecified - GPU_SHARING_STRATEGY_UNSPECIFIEDDefault value.
- Time
Sharing - TIME_SHARINGGPUs are time-shared between containers.
- Gpu
Sharing Strategy Unspecified - GPU_SHARING_STRATEGY_UNSPECIFIEDDefault value.
- Time
Sharing - TIME_SHARINGGPUs are time-shared between containers.
- GPU_SHARING_STRATEGY_UNSPECIFIED
- GPU_SHARING_STRATEGY_UNSPECIFIEDDefault value.
- TIME_SHARING
- TIME_SHARINGGPUs are time-shared between containers.
- "GPU_SHARING_STRATEGY_UNSPECIFIED"
- GPU_SHARING_STRATEGY_UNSPECIFIEDDefault value.
- "TIME_SHARING"
- TIME_SHARINGGPUs are time-shared between containers.
GPUSharingConfigResponse, GPUSharingConfigResponseArgs
- Gpu
Sharing stringStrategy - The type of GPU sharing strategy to enable on the GPU node.
- string
- The max number of containers that can share a physical GPU.
- Gpu
Sharing stringStrategy - The type of GPU sharing strategy to enable on the GPU node.
- string
- The max number of containers that can share a physical GPU.
- gpu
Sharing StringStrategy - The type of GPU sharing strategy to enable on the GPU node.
- String
- The max number of containers that can share a physical GPU.
- gpu
Sharing stringStrategy - The type of GPU sharing strategy to enable on the GPU node.
- string
- The max number of containers that can share a physical GPU.
- gpu_
sharing_ strstrategy - The type of GPU sharing strategy to enable on the GPU node.
- str
- The max number of containers that can share a physical GPU.
- gpu
Sharing StringStrategy - The type of GPU sharing strategy to enable on the GPU node.
- String
- The max number of containers that can share a physical GPU.
GatewayAPIConfig, GatewayAPIConfigArgs
- Channel
Pulumi.
Google Native. Container. V1. Gateway APIConfig Channel - The Gateway API release channel to use for Gateway API.
- Channel
Gateway
APIConfig Channel - The Gateway API release channel to use for Gateway API.
- channel
Gateway
APIConfig Channel - The Gateway API release channel to use for Gateway API.
- channel
Gateway
APIConfig Channel - The Gateway API release channel to use for Gateway API.
- channel
Gateway
APIConfig Channel - The Gateway API release channel to use for Gateway API.
- channel "CHANNEL_UNSPECIFIED" | "CHANNEL_DISABLED" | "CHANNEL_EXPERIMENTAL" | "CHANNEL_STANDARD"
- The Gateway API release channel to use for Gateway API.
GatewayAPIConfigChannel, GatewayAPIConfigChannelArgs
- Channel
Unspecified - CHANNEL_UNSPECIFIEDDefault value.
- Channel
Disabled - CHANNEL_DISABLEDGateway API support is disabled
- Channel
Experimental - CHANNEL_EXPERIMENTALGateway API support is enabled, experimental CRDs are installed
- Channel
Standard - CHANNEL_STANDARDGateway API support is enabled, standard CRDs are installed
- Gateway
APIConfig Channel Channel Unspecified - CHANNEL_UNSPECIFIEDDefault value.
- Gateway
APIConfig Channel Channel Disabled - CHANNEL_DISABLEDGateway API support is disabled
- Gateway
APIConfig Channel Channel Experimental - CHANNEL_EXPERIMENTALGateway API support is enabled, experimental CRDs are installed
- Gateway
APIConfig Channel Channel Standard - CHANNEL_STANDARDGateway API support is enabled, standard CRDs are installed
- Channel
Unspecified - CHANNEL_UNSPECIFIEDDefault value.
- Channel
Disabled - CHANNEL_DISABLEDGateway API support is disabled
- Channel
Experimental - CHANNEL_EXPERIMENTALGateway API support is enabled, experimental CRDs are installed
- Channel
Standard - CHANNEL_STANDARDGateway API support is enabled, standard CRDs are installed
- Channel
Unspecified - CHANNEL_UNSPECIFIEDDefault value.
- Channel
Disabled - CHANNEL_DISABLEDGateway API support is disabled
- Channel
Experimental - CHANNEL_EXPERIMENTALGateway API support is enabled, experimental CRDs are installed
- Channel
Standard - CHANNEL_STANDARDGateway API support is enabled, standard CRDs are installed
- CHANNEL_UNSPECIFIED
- CHANNEL_UNSPECIFIEDDefault value.
- CHANNEL_DISABLED
- CHANNEL_DISABLEDGateway API support is disabled
- CHANNEL_EXPERIMENTAL
- CHANNEL_EXPERIMENTALGateway API support is enabled, experimental CRDs are installed
- CHANNEL_STANDARD
- CHANNEL_STANDARDGateway API support is enabled, standard CRDs are installed
- "CHANNEL_UNSPECIFIED"
- CHANNEL_UNSPECIFIEDDefault value.
- "CHANNEL_DISABLED"
- CHANNEL_DISABLEDGateway API support is disabled
- "CHANNEL_EXPERIMENTAL"
- CHANNEL_EXPERIMENTALGateway API support is enabled, experimental CRDs are installed
- "CHANNEL_STANDARD"
- CHANNEL_STANDARDGateway API support is enabled, standard CRDs are installed
GatewayAPIConfigResponse, GatewayAPIConfigResponseArgs
- Channel string
- The Gateway API release channel to use for Gateway API.
- Channel string
- The Gateway API release channel to use for Gateway API.
- channel String
- The Gateway API release channel to use for Gateway API.
- channel string
- The Gateway API release channel to use for Gateway API.
- channel str
- The Gateway API release channel to use for Gateway API.
- channel String
- The Gateway API release channel to use for Gateway API.
GcePersistentDiskCsiDriverConfig, GcePersistentDiskCsiDriverConfigArgs
- Enabled bool
- Whether the Compute Engine PD CSI driver is enabled for this cluster.
- Enabled bool
- Whether the Compute Engine PD CSI driver is enabled for this cluster.
- enabled Boolean
- Whether the Compute Engine PD CSI driver is enabled for this cluster.
- enabled boolean
- Whether the Compute Engine PD CSI driver is enabled for this cluster.
- enabled bool
- Whether the Compute Engine PD CSI driver is enabled for this cluster.
- enabled Boolean
- Whether the Compute Engine PD CSI driver is enabled for this cluster.
GcePersistentDiskCsiDriverConfigResponse, GcePersistentDiskCsiDriverConfigResponseArgs
- Enabled bool
- Whether the Compute Engine PD CSI driver is enabled for this cluster.
- Enabled bool
- Whether the Compute Engine PD CSI driver is enabled for this cluster.
- enabled Boolean
- Whether the Compute Engine PD CSI driver is enabled for this cluster.
- enabled boolean
- Whether the Compute Engine PD CSI driver is enabled for this cluster.
- enabled bool
- Whether the Compute Engine PD CSI driver is enabled for this cluster.
- enabled Boolean
- Whether the Compute Engine PD CSI driver is enabled for this cluster.
GcfsConfig, GcfsConfigArgs
- Enabled bool
- Whether to use GCFS.
- Enabled bool
- Whether to use GCFS.
- enabled Boolean
- Whether to use GCFS.
- enabled boolean
- Whether to use GCFS.
- enabled bool
- Whether to use GCFS.
- enabled Boolean
- Whether to use GCFS.
GcfsConfigResponse, GcfsConfigResponseArgs
- Enabled bool
- Whether to use GCFS.
- Enabled bool
- Whether to use GCFS.
- enabled Boolean
- Whether to use GCFS.
- enabled boolean
- Whether to use GCFS.
- enabled bool
- Whether to use GCFS.
- enabled Boolean
- Whether to use GCFS.
GcpFilestoreCsiDriverConfig, GcpFilestoreCsiDriverConfigArgs
- Enabled bool
- Whether the GCP Filestore CSI driver is enabled for this cluster.
- Enabled bool
- Whether the GCP Filestore CSI driver is enabled for this cluster.
- enabled Boolean
- Whether the GCP Filestore CSI driver is enabled for this cluster.
- enabled boolean
- Whether the GCP Filestore CSI driver is enabled for this cluster.
- enabled bool
- Whether the GCP Filestore CSI driver is enabled for this cluster.
- enabled Boolean
- Whether the GCP Filestore CSI driver is enabled for this cluster.
GcpFilestoreCsiDriverConfigResponse, GcpFilestoreCsiDriverConfigResponseArgs
- Enabled bool
- Whether the GCP Filestore CSI driver is enabled for this cluster.
- Enabled bool
- Whether the GCP Filestore CSI driver is enabled for this cluster.
- enabled Boolean
- Whether the GCP Filestore CSI driver is enabled for this cluster.
- enabled boolean
- Whether the GCP Filestore CSI driver is enabled for this cluster.
- enabled bool
- Whether the GCP Filestore CSI driver is enabled for this cluster.
- enabled Boolean
- Whether the GCP Filestore CSI driver is enabled for this cluster.
GcsFuseCsiDriverConfig, GcsFuseCsiDriverConfigArgs
- Enabled bool
- Whether the Cloud Storage Fuse CSI driver is enabled for this cluster.
- Enabled bool
- Whether the Cloud Storage Fuse CSI driver is enabled for this cluster.
- enabled Boolean
- Whether the Cloud Storage Fuse CSI driver is enabled for this cluster.
- enabled boolean
- Whether the Cloud Storage Fuse CSI driver is enabled for this cluster.
- enabled bool
- Whether the Cloud Storage Fuse CSI driver is enabled for this cluster.
- enabled Boolean
- Whether the Cloud Storage Fuse CSI driver is enabled for this cluster.
GcsFuseCsiDriverConfigResponse, GcsFuseCsiDriverConfigResponseArgs
- Enabled bool
- Whether the Cloud Storage Fuse CSI driver is enabled for this cluster.
- Enabled bool
- Whether the Cloud Storage Fuse CSI driver is enabled for this cluster.
- enabled Boolean
- Whether the Cloud Storage Fuse CSI driver is enabled for this cluster.
- enabled boolean
- Whether the Cloud Storage Fuse CSI driver is enabled for this cluster.
- enabled bool
- Whether the Cloud Storage Fuse CSI driver is enabled for this cluster.
- enabled Boolean
- Whether the Cloud Storage Fuse CSI driver is enabled for this cluster.
GkeBackupAgentConfig, GkeBackupAgentConfigArgs
- Enabled bool
- Whether the Backup for GKE agent is enabled for this cluster.
- Enabled bool
- Whether the Backup for GKE agent is enabled for this cluster.
- enabled Boolean
- Whether the Backup for GKE agent is enabled for this cluster.
- enabled boolean
- Whether the Backup for GKE agent is enabled for this cluster.
- enabled bool
- Whether the Backup for GKE agent is enabled for this cluster.
- enabled Boolean
- Whether the Backup for GKE agent is enabled for this cluster.
GkeBackupAgentConfigResponse, GkeBackupAgentConfigResponseArgs
- Enabled bool
- Whether the Backup for GKE agent is enabled for this cluster.
- Enabled bool
- Whether the Backup for GKE agent is enabled for this cluster.
- enabled Boolean
- Whether the Backup for GKE agent is enabled for this cluster.
- enabled boolean
- Whether the Backup for GKE agent is enabled for this cluster.
- enabled bool
- Whether the Backup for GKE agent is enabled for this cluster.
- enabled Boolean
- Whether the Backup for GKE agent is enabled for this cluster.
HorizontalPodAutoscaling, HorizontalPodAutoscalingArgs
- Disabled bool
- Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that metrics are collected into Stackdriver Monitoring.
- Disabled bool
- Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that metrics are collected into Stackdriver Monitoring.
- disabled Boolean
- Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that metrics are collected into Stackdriver Monitoring.
- disabled boolean
- Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that metrics are collected into Stackdriver Monitoring.
- disabled bool
- Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that metrics are collected into Stackdriver Monitoring.
- disabled Boolean
- Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that metrics are collected into Stackdriver Monitoring.
HorizontalPodAutoscalingResponse, HorizontalPodAutoscalingResponseArgs
- Disabled bool
- Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that metrics are collected into Stackdriver Monitoring.
- Disabled bool
- Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that metrics are collected into Stackdriver Monitoring.
- disabled Boolean
- Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that metrics are collected into Stackdriver Monitoring.
- disabled boolean
- Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that metrics are collected into Stackdriver Monitoring.
- disabled bool
- Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that metrics are collected into Stackdriver Monitoring.
- disabled Boolean
- Whether the Horizontal Pod Autoscaling feature is enabled in the cluster. When enabled, it ensures that metrics are collected into Stackdriver Monitoring.
HttpLoadBalancing, HttpLoadBalancingArgs
- Disabled bool
- Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers.
- Disabled bool
- Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers.
- disabled Boolean
- Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers.
- disabled boolean
- Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers.
- disabled bool
- Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers.
- disabled Boolean
- Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers.
HttpLoadBalancingResponse, HttpLoadBalancingResponseArgs
- Disabled bool
- Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers.
- Disabled bool
- Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers.
- disabled Boolean
- Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers.
- disabled boolean
- Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers.
- disabled bool
- Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers.
- disabled Boolean
- Whether the HTTP Load Balancing controller is enabled in the cluster. When enabled, it runs a small pod in the cluster that manages the load balancers.
IPAllocationPolicy, IPAllocationPolicyArgs
- Cluster
Ipv4Cidr string - This field is deprecated, use cluster_ipv4_cidr_block.
- Cluster
Ipv4Cidr stringBlock - The IP address range for the cluster pod IPs. If this field is set, then
cluster.cluster_ipv4_cidr
must be left blank. This field is only applicable whenuse_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Cluster
Secondary stringRange Name - The name of the secondary range to be used for the cluster CIDR block. The secondary range will be used for pod IP addresses. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- Create
Subnetwork bool - Whether a new subnetwork will be created automatically for the cluster. This field is only applicable when
use_ip_aliases
is true. - Ipv6Access
Type Pulumi.Google Native. Container. V1. IPAllocation Policy Ipv6Access Type - The ipv6 access type (internal or external) when create_subnetwork is true
- Node
Ipv4Cidr string - This field is deprecated, use node_ipv4_cidr_block.
- Node
Ipv4Cidr stringBlock - The IP address range of the instance IPs in this cluster. This is applicable only if
create_subnetwork
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Pod
Cidr Pulumi.Overprovision Config Google Native. Container. V1. Inputs. Pod CIDROverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the cluster. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is doubled and then rounded off to next power of 2 to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- Services
Ipv4Cidr string - This field is deprecated, use services_ipv4_cidr_block.
- Services
Ipv4Cidr stringBlock - The IP address range of the services IPs in this cluster. If blank, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Services
Secondary stringRange Name - The name of the secondary range to be used as for the services CIDR block. The secondary range will be used for service ClusterIPs. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- Stack
Type Pulumi.Google Native. Container. V1. IPAllocation Policy Stack Type - The IP stack type of the cluster
- Subnetwork
Name string - A custom subnetwork name to be used if
create_subnetwork
is true. If this field is empty, then an automatic name will be chosen for the new subnetwork. - Tpu
Ipv4Cidr stringBlock - The IP address range of the Cloud TPUs in this cluster. If unspecified, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. If unspecified, the range will use the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Use
Ip boolAliases - Whether alias IPs will be used for pod IPs in the cluster. This is used in conjunction with use_routes. It cannot be true if use_routes is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- Use
Routes bool - Whether routes will be used for pod IPs in the cluster. This is used in conjunction with use_ip_aliases. It cannot be true if use_ip_aliases is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- Cluster
Ipv4Cidr string - This field is deprecated, use cluster_ipv4_cidr_block.
- Cluster
Ipv4Cidr stringBlock - The IP address range for the cluster pod IPs. If this field is set, then
cluster.cluster_ipv4_cidr
must be left blank. This field is only applicable whenuse_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Cluster
Secondary stringRange Name - The name of the secondary range to be used for the cluster CIDR block. The secondary range will be used for pod IP addresses. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- Create
Subnetwork bool - Whether a new subnetwork will be created automatically for the cluster. This field is only applicable when
use_ip_aliases
is true. - Ipv6Access
Type IPAllocationPolicy Ipv6Access Type - The ipv6 access type (internal or external) when create_subnetwork is true
- Node
Ipv4Cidr string - This field is deprecated, use node_ipv4_cidr_block.
- Node
Ipv4Cidr stringBlock - The IP address range of the instance IPs in this cluster. This is applicable only if
create_subnetwork
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Pod
Cidr PodOverprovision Config CIDROverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the cluster. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is doubled and then rounded off to next power of 2 to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- Services
Ipv4Cidr string - This field is deprecated, use services_ipv4_cidr_block.
- Services
Ipv4Cidr stringBlock - The IP address range of the services IPs in this cluster. If blank, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Services
Secondary stringRange Name - The name of the secondary range to be used as for the services CIDR block. The secondary range will be used for service ClusterIPs. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- Stack
Type IPAllocationPolicy Stack Type - The IP stack type of the cluster
- Subnetwork
Name string - A custom subnetwork name to be used if
create_subnetwork
is true. If this field is empty, then an automatic name will be chosen for the new subnetwork. - Tpu
Ipv4Cidr stringBlock - The IP address range of the Cloud TPUs in this cluster. If unspecified, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. If unspecified, the range will use the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Use
Ip boolAliases - Whether alias IPs will be used for pod IPs in the cluster. This is used in conjunction with use_routes. It cannot be true if use_routes is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- Use
Routes bool - Whether routes will be used for pod IPs in the cluster. This is used in conjunction with use_ip_aliases. It cannot be true if use_ip_aliases is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- cluster
Ipv4Cidr String - This field is deprecated, use cluster_ipv4_cidr_block.
- cluster
Ipv4Cidr StringBlock - The IP address range for the cluster pod IPs. If this field is set, then
cluster.cluster_ipv4_cidr
must be left blank. This field is only applicable whenuse_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - cluster
Secondary StringRange Name - The name of the secondary range to be used for the cluster CIDR block. The secondary range will be used for pod IP addresses. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- create
Subnetwork Boolean - Whether a new subnetwork will be created automatically for the cluster. This field is only applicable when
use_ip_aliases
is true. - ipv6Access
Type IPAllocationPolicy Ipv6Access Type - The ipv6 access type (internal or external) when create_subnetwork is true
- node
Ipv4Cidr String - This field is deprecated, use node_ipv4_cidr_block.
- node
Ipv4Cidr StringBlock - The IP address range of the instance IPs in this cluster. This is applicable only if
create_subnetwork
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - pod
Cidr PodOverprovision Config CIDROverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the cluster. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is doubled and then rounded off to next power of 2 to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- services
Ipv4Cidr String - This field is deprecated, use services_ipv4_cidr_block.
- services
Ipv4Cidr StringBlock - The IP address range of the services IPs in this cluster. If blank, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - services
Secondary StringRange Name - The name of the secondary range to be used as for the services CIDR block. The secondary range will be used for service ClusterIPs. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- stack
Type IPAllocationPolicy Stack Type - The IP stack type of the cluster
- subnetwork
Name String - A custom subnetwork name to be used if
create_subnetwork
is true. If this field is empty, then an automatic name will be chosen for the new subnetwork. - tpu
Ipv4Cidr StringBlock - The IP address range of the Cloud TPUs in this cluster. If unspecified, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. If unspecified, the range will use the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - use
Ip BooleanAliases - Whether alias IPs will be used for pod IPs in the cluster. This is used in conjunction with use_routes. It cannot be true if use_routes is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- use
Routes Boolean - Whether routes will be used for pod IPs in the cluster. This is used in conjunction with use_ip_aliases. It cannot be true if use_ip_aliases is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- cluster
Ipv4Cidr string - This field is deprecated, use cluster_ipv4_cidr_block.
- cluster
Ipv4Cidr stringBlock - The IP address range for the cluster pod IPs. If this field is set, then
cluster.cluster_ipv4_cidr
must be left blank. This field is only applicable whenuse_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - cluster
Secondary stringRange Name - The name of the secondary range to be used for the cluster CIDR block. The secondary range will be used for pod IP addresses. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- create
Subnetwork boolean - Whether a new subnetwork will be created automatically for the cluster. This field is only applicable when
use_ip_aliases
is true. - ipv6Access
Type IPAllocationPolicy Ipv6Access Type - The ipv6 access type (internal or external) when create_subnetwork is true
- node
Ipv4Cidr string - This field is deprecated, use node_ipv4_cidr_block.
- node
Ipv4Cidr stringBlock - The IP address range of the instance IPs in this cluster. This is applicable only if
create_subnetwork
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - pod
Cidr PodOverprovision Config CIDROverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the cluster. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is doubled and then rounded off to next power of 2 to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- services
Ipv4Cidr string - This field is deprecated, use services_ipv4_cidr_block.
- services
Ipv4Cidr stringBlock - The IP address range of the services IPs in this cluster. If blank, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - services
Secondary stringRange Name - The name of the secondary range to be used as for the services CIDR block. The secondary range will be used for service ClusterIPs. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- stack
Type IPAllocationPolicy Stack Type - The IP stack type of the cluster
- subnetwork
Name string - A custom subnetwork name to be used if
create_subnetwork
is true. If this field is empty, then an automatic name will be chosen for the new subnetwork. - tpu
Ipv4Cidr stringBlock - The IP address range of the Cloud TPUs in this cluster. If unspecified, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. If unspecified, the range will use the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - use
Ip booleanAliases - Whether alias IPs will be used for pod IPs in the cluster. This is used in conjunction with use_routes. It cannot be true if use_routes is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- use
Routes boolean - Whether routes will be used for pod IPs in the cluster. This is used in conjunction with use_ip_aliases. It cannot be true if use_ip_aliases is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- cluster_
ipv4_ strcidr - This field is deprecated, use cluster_ipv4_cidr_block.
- cluster_
ipv4_ strcidr_ block - The IP address range for the cluster pod IPs. If this field is set, then
cluster.cluster_ipv4_cidr
must be left blank. This field is only applicable whenuse_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - cluster_
secondary_ strrange_ name - The name of the secondary range to be used for the cluster CIDR block. The secondary range will be used for pod IP addresses. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- create_
subnetwork bool - Whether a new subnetwork will be created automatically for the cluster. This field is only applicable when
use_ip_aliases
is true. - ipv6_
access_ IPAllocationtype Policy Ipv6Access Type - The ipv6 access type (internal or external) when create_subnetwork is true
- node_
ipv4_ strcidr - This field is deprecated, use node_ipv4_cidr_block.
- node_
ipv4_ strcidr_ block - The IP address range of the instance IPs in this cluster. This is applicable only if
create_subnetwork
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - pod_
cidr_ Podoverprovision_ config CIDROverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the cluster. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is doubled and then rounded off to next power of 2 to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- services_
ipv4_ strcidr - This field is deprecated, use services_ipv4_cidr_block.
- services_
ipv4_ strcidr_ block - The IP address range of the services IPs in this cluster. If blank, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - services_
secondary_ strrange_ name - The name of the secondary range to be used as for the services CIDR block. The secondary range will be used for service ClusterIPs. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- stack_
type IPAllocationPolicy Stack Type - The IP stack type of the cluster
- subnetwork_
name str - A custom subnetwork name to be used if
create_subnetwork
is true. If this field is empty, then an automatic name will be chosen for the new subnetwork. - tpu_
ipv4_ strcidr_ block - The IP address range of the Cloud TPUs in this cluster. If unspecified, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. If unspecified, the range will use the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - use_
ip_ boolaliases - Whether alias IPs will be used for pod IPs in the cluster. This is used in conjunction with use_routes. It cannot be true if use_routes is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- use_
routes bool - Whether routes will be used for pod IPs in the cluster. This is used in conjunction with use_ip_aliases. It cannot be true if use_ip_aliases is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- cluster
Ipv4Cidr String - This field is deprecated, use cluster_ipv4_cidr_block.
- cluster
Ipv4Cidr StringBlock - The IP address range for the cluster pod IPs. If this field is set, then
cluster.cluster_ipv4_cidr
must be left blank. This field is only applicable whenuse_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - cluster
Secondary StringRange Name - The name of the secondary range to be used for the cluster CIDR block. The secondary range will be used for pod IP addresses. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- create
Subnetwork Boolean - Whether a new subnetwork will be created automatically for the cluster. This field is only applicable when
use_ip_aliases
is true. - ipv6Access
Type "IPV6_ACCESS_TYPE_UNSPECIFIED" | "INTERNAL" | "EXTERNAL" - The ipv6 access type (internal or external) when create_subnetwork is true
- node
Ipv4Cidr String - This field is deprecated, use node_ipv4_cidr_block.
- node
Ipv4Cidr StringBlock - The IP address range of the instance IPs in this cluster. This is applicable only if
create_subnetwork
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - pod
Cidr Property MapOverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the cluster. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is doubled and then rounded off to next power of 2 to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- services
Ipv4Cidr String - This field is deprecated, use services_ipv4_cidr_block.
- services
Ipv4Cidr StringBlock - The IP address range of the services IPs in this cluster. If blank, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - services
Secondary StringRange Name - The name of the secondary range to be used as for the services CIDR block. The secondary range will be used for service ClusterIPs. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- stack
Type "STACK_TYPE_UNSPECIFIED" | "IPV4" | "IPV4_IPV6" - The IP stack type of the cluster
- subnetwork
Name String - A custom subnetwork name to be used if
create_subnetwork
is true. If this field is empty, then an automatic name will be chosen for the new subnetwork. - tpu
Ipv4Cidr StringBlock - The IP address range of the Cloud TPUs in this cluster. If unspecified, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. If unspecified, the range will use the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - use
Ip BooleanAliases - Whether alias IPs will be used for pod IPs in the cluster. This is used in conjunction with use_routes. It cannot be true if use_routes is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- use
Routes Boolean - Whether routes will be used for pod IPs in the cluster. This is used in conjunction with use_ip_aliases. It cannot be true if use_ip_aliases is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
IPAllocationPolicyIpv6AccessType, IPAllocationPolicyIpv6AccessTypeArgs
- Ipv6Access
Type Unspecified - IPV6_ACCESS_TYPE_UNSPECIFIEDDefault value, will be defaulted as type external.
- Internal
- INTERNALAccess type internal (all v6 addresses are internal IPs)
- External
- EXTERNALAccess type external (all v6 addresses are external IPs)
- IPAllocation
Policy Ipv6Access Type Ipv6Access Type Unspecified - IPV6_ACCESS_TYPE_UNSPECIFIEDDefault value, will be defaulted as type external.
- IPAllocation
Policy Ipv6Access Type Internal - INTERNALAccess type internal (all v6 addresses are internal IPs)
- IPAllocation
Policy Ipv6Access Type External - EXTERNALAccess type external (all v6 addresses are external IPs)
- Ipv6Access
Type Unspecified - IPV6_ACCESS_TYPE_UNSPECIFIEDDefault value, will be defaulted as type external.
- Internal
- INTERNALAccess type internal (all v6 addresses are internal IPs)
- External
- EXTERNALAccess type external (all v6 addresses are external IPs)
- Ipv6Access
Type Unspecified - IPV6_ACCESS_TYPE_UNSPECIFIEDDefault value, will be defaulted as type external.
- Internal
- INTERNALAccess type internal (all v6 addresses are internal IPs)
- External
- EXTERNALAccess type external (all v6 addresses are external IPs)
- IPV6_ACCESS_TYPE_UNSPECIFIED
- IPV6_ACCESS_TYPE_UNSPECIFIEDDefault value, will be defaulted as type external.
- INTERNAL
- INTERNALAccess type internal (all v6 addresses are internal IPs)
- EXTERNAL
- EXTERNALAccess type external (all v6 addresses are external IPs)
- "IPV6_ACCESS_TYPE_UNSPECIFIED"
- IPV6_ACCESS_TYPE_UNSPECIFIEDDefault value, will be defaulted as type external.
- "INTERNAL"
- INTERNALAccess type internal (all v6 addresses are internal IPs)
- "EXTERNAL"
- EXTERNALAccess type external (all v6 addresses are external IPs)
IPAllocationPolicyResponse, IPAllocationPolicyResponseArgs
- Additional
Pod Pulumi.Ranges Config Google Native. Container. V1. Inputs. Additional Pod Ranges Config Response - [Output only] The additional pod ranges that are added to the cluster. These pod ranges can be used by new node pools to allocate pod IPs automatically. Once the range is removed it will not show up in IPAllocationPolicy.
- Cluster
Ipv4Cidr string - This field is deprecated, use cluster_ipv4_cidr_block.
- Cluster
Ipv4Cidr stringBlock - The IP address range for the cluster pod IPs. If this field is set, then
cluster.cluster_ipv4_cidr
must be left blank. This field is only applicable whenuse_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Cluster
Secondary stringRange Name - The name of the secondary range to be used for the cluster CIDR block. The secondary range will be used for pod IP addresses. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- Create
Subnetwork bool - Whether a new subnetwork will be created automatically for the cluster. This field is only applicable when
use_ip_aliases
is true. - Default
Pod doubleIpv4Range Utilization - [Output only] The utilization of the cluster default IPv4 range for the pod. The ratio is Usage/[Total number of IPs in the secondary range], Usage=numNodesnumZonespodIPsPerNode.
- Ipv6Access
Type string - The ipv6 access type (internal or external) when create_subnetwork is true
- Node
Ipv4Cidr string - This field is deprecated, use node_ipv4_cidr_block.
- Node
Ipv4Cidr stringBlock - The IP address range of the instance IPs in this cluster. This is applicable only if
create_subnetwork
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Pod
Cidr Pulumi.Overprovision Config Google Native. Container. V1. Inputs. Pod CIDROverprovision Config Response - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the cluster. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is doubled and then rounded off to next power of 2 to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- Services
Ipv4Cidr string - This field is deprecated, use services_ipv4_cidr_block.
- Services
Ipv4Cidr stringBlock - The IP address range of the services IPs in this cluster. If blank, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Services
Ipv6Cidr stringBlock - [Output only] The services IPv6 CIDR block for the cluster.
- Services
Secondary stringRange Name - The name of the secondary range to be used as for the services CIDR block. The secondary range will be used for service ClusterIPs. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- Stack
Type string - The IP stack type of the cluster
- Subnet
Ipv6Cidr stringBlock - [Output only] The subnet's IPv6 CIDR block used by nodes and pods.
- Subnetwork
Name string - A custom subnetwork name to be used if
create_subnetwork
is true. If this field is empty, then an automatic name will be chosen for the new subnetwork. - Tpu
Ipv4Cidr stringBlock - The IP address range of the Cloud TPUs in this cluster. If unspecified, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. If unspecified, the range will use the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Use
Ip boolAliases - Whether alias IPs will be used for pod IPs in the cluster. This is used in conjunction with use_routes. It cannot be true if use_routes is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- Use
Routes bool - Whether routes will be used for pod IPs in the cluster. This is used in conjunction with use_ip_aliases. It cannot be true if use_ip_aliases is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- Additional
Pod AdditionalRanges Config Pod Ranges Config Response - [Output only] The additional pod ranges that are added to the cluster. These pod ranges can be used by new node pools to allocate pod IPs automatically. Once the range is removed it will not show up in IPAllocationPolicy.
- Cluster
Ipv4Cidr string - This field is deprecated, use cluster_ipv4_cidr_block.
- Cluster
Ipv4Cidr stringBlock - The IP address range for the cluster pod IPs. If this field is set, then
cluster.cluster_ipv4_cidr
must be left blank. This field is only applicable whenuse_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Cluster
Secondary stringRange Name - The name of the secondary range to be used for the cluster CIDR block. The secondary range will be used for pod IP addresses. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- Create
Subnetwork bool - Whether a new subnetwork will be created automatically for the cluster. This field is only applicable when
use_ip_aliases
is true. - Default
Pod float64Ipv4Range Utilization - [Output only] The utilization of the cluster default IPv4 range for the pod. The ratio is Usage/[Total number of IPs in the secondary range], Usage=numNodesnumZonespodIPsPerNode.
- Ipv6Access
Type string - The ipv6 access type (internal or external) when create_subnetwork is true
- Node
Ipv4Cidr string - This field is deprecated, use node_ipv4_cidr_block.
- Node
Ipv4Cidr stringBlock - The IP address range of the instance IPs in this cluster. This is applicable only if
create_subnetwork
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Pod
Cidr PodOverprovision Config CIDROverprovision Config Response - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the cluster. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is doubled and then rounded off to next power of 2 to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- Services
Ipv4Cidr string - This field is deprecated, use services_ipv4_cidr_block.
- Services
Ipv4Cidr stringBlock - The IP address range of the services IPs in this cluster. If blank, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Services
Ipv6Cidr stringBlock - [Output only] The services IPv6 CIDR block for the cluster.
- Services
Secondary stringRange Name - The name of the secondary range to be used as for the services CIDR block. The secondary range will be used for service ClusterIPs. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- Stack
Type string - The IP stack type of the cluster
- Subnet
Ipv6Cidr stringBlock - [Output only] The subnet's IPv6 CIDR block used by nodes and pods.
- Subnetwork
Name string - A custom subnetwork name to be used if
create_subnetwork
is true. If this field is empty, then an automatic name will be chosen for the new subnetwork. - Tpu
Ipv4Cidr stringBlock - The IP address range of the Cloud TPUs in this cluster. If unspecified, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. If unspecified, the range will use the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - Use
Ip boolAliases - Whether alias IPs will be used for pod IPs in the cluster. This is used in conjunction with use_routes. It cannot be true if use_routes is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- Use
Routes bool - Whether routes will be used for pod IPs in the cluster. This is used in conjunction with use_ip_aliases. It cannot be true if use_ip_aliases is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- additional
Pod AdditionalRanges Config Pod Ranges Config Response - [Output only] The additional pod ranges that are added to the cluster. These pod ranges can be used by new node pools to allocate pod IPs automatically. Once the range is removed it will not show up in IPAllocationPolicy.
- cluster
Ipv4Cidr String - This field is deprecated, use cluster_ipv4_cidr_block.
- cluster
Ipv4Cidr StringBlock - The IP address range for the cluster pod IPs. If this field is set, then
cluster.cluster_ipv4_cidr
must be left blank. This field is only applicable whenuse_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - cluster
Secondary StringRange Name - The name of the secondary range to be used for the cluster CIDR block. The secondary range will be used for pod IP addresses. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- create
Subnetwork Boolean - Whether a new subnetwork will be created automatically for the cluster. This field is only applicable when
use_ip_aliases
is true. - default
Pod DoubleIpv4Range Utilization - [Output only] The utilization of the cluster default IPv4 range for the pod. The ratio is Usage/[Total number of IPs in the secondary range], Usage=numNodesnumZonespodIPsPerNode.
- ipv6Access
Type String - The ipv6 access type (internal or external) when create_subnetwork is true
- node
Ipv4Cidr String - This field is deprecated, use node_ipv4_cidr_block.
- node
Ipv4Cidr StringBlock - The IP address range of the instance IPs in this cluster. This is applicable only if
create_subnetwork
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - pod
Cidr PodOverprovision Config CIDROverprovision Config Response - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the cluster. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is doubled and then rounded off to next power of 2 to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- services
Ipv4Cidr String - This field is deprecated, use services_ipv4_cidr_block.
- services
Ipv4Cidr StringBlock - The IP address range of the services IPs in this cluster. If blank, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - services
Ipv6Cidr StringBlock - [Output only] The services IPv6 CIDR block for the cluster.
- services
Secondary StringRange Name - The name of the secondary range to be used as for the services CIDR block. The secondary range will be used for service ClusterIPs. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- stack
Type String - The IP stack type of the cluster
- subnet
Ipv6Cidr StringBlock - [Output only] The subnet's IPv6 CIDR block used by nodes and pods.
- subnetwork
Name String - A custom subnetwork name to be used if
create_subnetwork
is true. If this field is empty, then an automatic name will be chosen for the new subnetwork. - tpu
Ipv4Cidr StringBlock - The IP address range of the Cloud TPUs in this cluster. If unspecified, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. If unspecified, the range will use the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - use
Ip BooleanAliases - Whether alias IPs will be used for pod IPs in the cluster. This is used in conjunction with use_routes. It cannot be true if use_routes is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- use
Routes Boolean - Whether routes will be used for pod IPs in the cluster. This is used in conjunction with use_ip_aliases. It cannot be true if use_ip_aliases is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- additional
Pod AdditionalRanges Config Pod Ranges Config Response - [Output only] The additional pod ranges that are added to the cluster. These pod ranges can be used by new node pools to allocate pod IPs automatically. Once the range is removed it will not show up in IPAllocationPolicy.
- cluster
Ipv4Cidr string - This field is deprecated, use cluster_ipv4_cidr_block.
- cluster
Ipv4Cidr stringBlock - The IP address range for the cluster pod IPs. If this field is set, then
cluster.cluster_ipv4_cidr
must be left blank. This field is only applicable whenuse_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - cluster
Secondary stringRange Name - The name of the secondary range to be used for the cluster CIDR block. The secondary range will be used for pod IP addresses. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- create
Subnetwork boolean - Whether a new subnetwork will be created automatically for the cluster. This field is only applicable when
use_ip_aliases
is true. - default
Pod numberIpv4Range Utilization - [Output only] The utilization of the cluster default IPv4 range for the pod. The ratio is Usage/[Total number of IPs in the secondary range], Usage=numNodesnumZonespodIPsPerNode.
- ipv6Access
Type string - The ipv6 access type (internal or external) when create_subnetwork is true
- node
Ipv4Cidr string - This field is deprecated, use node_ipv4_cidr_block.
- node
Ipv4Cidr stringBlock - The IP address range of the instance IPs in this cluster. This is applicable only if
create_subnetwork
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - pod
Cidr PodOverprovision Config CIDROverprovision Config Response - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the cluster. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is doubled and then rounded off to next power of 2 to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- services
Ipv4Cidr string - This field is deprecated, use services_ipv4_cidr_block.
- services
Ipv4Cidr stringBlock - The IP address range of the services IPs in this cluster. If blank, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - services
Ipv6Cidr stringBlock - [Output only] The services IPv6 CIDR block for the cluster.
- services
Secondary stringRange Name - The name of the secondary range to be used as for the services CIDR block. The secondary range will be used for service ClusterIPs. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- stack
Type string - The IP stack type of the cluster
- subnet
Ipv6Cidr stringBlock - [Output only] The subnet's IPv6 CIDR block used by nodes and pods.
- subnetwork
Name string - A custom subnetwork name to be used if
create_subnetwork
is true. If this field is empty, then an automatic name will be chosen for the new subnetwork. - tpu
Ipv4Cidr stringBlock - The IP address range of the Cloud TPUs in this cluster. If unspecified, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. If unspecified, the range will use the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - use
Ip booleanAliases - Whether alias IPs will be used for pod IPs in the cluster. This is used in conjunction with use_routes. It cannot be true if use_routes is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- use
Routes boolean - Whether routes will be used for pod IPs in the cluster. This is used in conjunction with use_ip_aliases. It cannot be true if use_ip_aliases is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- additional_
pod_ Additionalranges_ config Pod Ranges Config Response - [Output only] The additional pod ranges that are added to the cluster. These pod ranges can be used by new node pools to allocate pod IPs automatically. Once the range is removed it will not show up in IPAllocationPolicy.
- cluster_
ipv4_ strcidr - This field is deprecated, use cluster_ipv4_cidr_block.
- cluster_
ipv4_ strcidr_ block - The IP address range for the cluster pod IPs. If this field is set, then
cluster.cluster_ipv4_cidr
must be left blank. This field is only applicable whenuse_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - cluster_
secondary_ strrange_ name - The name of the secondary range to be used for the cluster CIDR block. The secondary range will be used for pod IP addresses. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- create_
subnetwork bool - Whether a new subnetwork will be created automatically for the cluster. This field is only applicable when
use_ip_aliases
is true. - default_
pod_ floatipv4_ range_ utilization - [Output only] The utilization of the cluster default IPv4 range for the pod. The ratio is Usage/[Total number of IPs in the secondary range], Usage=numNodesnumZonespodIPsPerNode.
- ipv6_
access_ strtype - The ipv6 access type (internal or external) when create_subnetwork is true
- node_
ipv4_ strcidr - This field is deprecated, use node_ipv4_cidr_block.
- node_
ipv4_ strcidr_ block - The IP address range of the instance IPs in this cluster. This is applicable only if
create_subnetwork
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - pod_
cidr_ Podoverprovision_ config CIDROverprovision Config Response - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the cluster. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is doubled and then rounded off to next power of 2 to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- services_
ipv4_ strcidr - This field is deprecated, use services_ipv4_cidr_block.
- services_
ipv4_ strcidr_ block - The IP address range of the services IPs in this cluster. If blank, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - services_
ipv6_ strcidr_ block - [Output only] The services IPv6 CIDR block for the cluster.
- services_
secondary_ strrange_ name - The name of the secondary range to be used as for the services CIDR block. The secondary range will be used for service ClusterIPs. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- stack_
type str - The IP stack type of the cluster
- subnet_
ipv6_ strcidr_ block - [Output only] The subnet's IPv6 CIDR block used by nodes and pods.
- subnetwork_
name str - A custom subnetwork name to be used if
create_subnetwork
is true. If this field is empty, then an automatic name will be chosen for the new subnetwork. - tpu_
ipv4_ strcidr_ block - The IP address range of the Cloud TPUs in this cluster. If unspecified, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. If unspecified, the range will use the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - use_
ip_ boolaliases - Whether alias IPs will be used for pod IPs in the cluster. This is used in conjunction with use_routes. It cannot be true if use_routes is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- use_
routes bool - Whether routes will be used for pod IPs in the cluster. This is used in conjunction with use_ip_aliases. It cannot be true if use_ip_aliases is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- additional
Pod Property MapRanges Config - [Output only] The additional pod ranges that are added to the cluster. These pod ranges can be used by new node pools to allocate pod IPs automatically. Once the range is removed it will not show up in IPAllocationPolicy.
- cluster
Ipv4Cidr String - This field is deprecated, use cluster_ipv4_cidr_block.
- cluster
Ipv4Cidr StringBlock - The IP address range for the cluster pod IPs. If this field is set, then
cluster.cluster_ipv4_cidr
must be left blank. This field is only applicable whenuse_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - cluster
Secondary StringRange Name - The name of the secondary range to be used for the cluster CIDR block. The secondary range will be used for pod IP addresses. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- create
Subnetwork Boolean - Whether a new subnetwork will be created automatically for the cluster. This field is only applicable when
use_ip_aliases
is true. - default
Pod NumberIpv4Range Utilization - [Output only] The utilization of the cluster default IPv4 range for the pod. The ratio is Usage/[Total number of IPs in the secondary range], Usage=numNodesnumZonespodIPsPerNode.
- ipv6Access
Type String - The ipv6 access type (internal or external) when create_subnetwork is true
- node
Ipv4Cidr String - This field is deprecated, use node_ipv4_cidr_block.
- node
Ipv4Cidr StringBlock - The IP address range of the instance IPs in this cluster. This is applicable only if
create_subnetwork
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - pod
Cidr Property MapOverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the cluster. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is doubled and then rounded off to next power of 2 to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- services
Ipv4Cidr String - This field is deprecated, use services_ipv4_cidr_block.
- services
Ipv4Cidr StringBlock - The IP address range of the services IPs in this cluster. If blank, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - services
Ipv6Cidr StringBlock - [Output only] The services IPv6 CIDR block for the cluster.
- services
Secondary StringRange Name - The name of the secondary range to be used as for the services CIDR block. The secondary range will be used for service ClusterIPs. This must be an existing secondary range associated with the cluster subnetwork. This field is only applicable with use_ip_aliases is true and create_subnetwork is false.
- stack
Type String - The IP stack type of the cluster
- subnet
Ipv6Cidr StringBlock - [Output only] The subnet's IPv6 CIDR block used by nodes and pods.
- subnetwork
Name String - A custom subnetwork name to be used if
create_subnetwork
is true. If this field is empty, then an automatic name will be chosen for the new subnetwork. - tpu
Ipv4Cidr StringBlock - The IP address range of the Cloud TPUs in this cluster. If unspecified, a range will be automatically chosen with the default size. This field is only applicable when
use_ip_aliases
is true. If unspecified, the range will use the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) from the RFC-1918 private networks (e.g.10.0.0.0/8
,172.16.0.0/12
,192.168.0.0/16
) to pick a specific range to use. - use
Ip BooleanAliases - Whether alias IPs will be used for pod IPs in the cluster. This is used in conjunction with use_routes. It cannot be true if use_routes is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
- use
Routes Boolean - Whether routes will be used for pod IPs in the cluster. This is used in conjunction with use_ip_aliases. It cannot be true if use_ip_aliases is true. If both use_ip_aliases and use_routes are false, then the server picks the default IP allocation mode
IPAllocationPolicyStackType, IPAllocationPolicyStackTypeArgs
- Stack
Type Unspecified - STACK_TYPE_UNSPECIFIEDDefault value, will be defaulted as IPV4 only
- Ipv4
- IPV4Cluster is IPV4 only
- Ipv4Ipv6
- IPV4_IPV6Cluster can use both IPv4 and IPv6
- IPAllocation
Policy Stack Type Stack Type Unspecified - STACK_TYPE_UNSPECIFIEDDefault value, will be defaulted as IPV4 only
- IPAllocation
Policy Stack Type Ipv4 - IPV4Cluster is IPV4 only
- IPAllocation
Policy Stack Type Ipv4Ipv6 - IPV4_IPV6Cluster can use both IPv4 and IPv6
- Stack
Type Unspecified - STACK_TYPE_UNSPECIFIEDDefault value, will be defaulted as IPV4 only
- Ipv4
- IPV4Cluster is IPV4 only
- Ipv4Ipv6
- IPV4_IPV6Cluster can use both IPv4 and IPv6
- Stack
Type Unspecified - STACK_TYPE_UNSPECIFIEDDefault value, will be defaulted as IPV4 only
- Ipv4
- IPV4Cluster is IPV4 only
- Ipv4Ipv6
- IPV4_IPV6Cluster can use both IPv4 and IPv6
- STACK_TYPE_UNSPECIFIED
- STACK_TYPE_UNSPECIFIEDDefault value, will be defaulted as IPV4 only
- IPV4
- IPV4Cluster is IPV4 only
- IPV4_IPV6
- IPV4_IPV6Cluster can use both IPv4 and IPv6
- "STACK_TYPE_UNSPECIFIED"
- STACK_TYPE_UNSPECIFIEDDefault value, will be defaulted as IPV4 only
- "IPV4"
- IPV4Cluster is IPV4 only
- "IPV4_IPV6"
- IPV4_IPV6Cluster can use both IPv4 and IPv6
IdentityServiceConfig, IdentityServiceConfigArgs
- Enabled bool
- Whether to enable the Identity Service component
- Enabled bool
- Whether to enable the Identity Service component
- enabled Boolean
- Whether to enable the Identity Service component
- enabled boolean
- Whether to enable the Identity Service component
- enabled bool
- Whether to enable the Identity Service component
- enabled Boolean
- Whether to enable the Identity Service component
IdentityServiceConfigResponse, IdentityServiceConfigResponseArgs
- Enabled bool
- Whether to enable the Identity Service component
- Enabled bool
- Whether to enable the Identity Service component
- enabled Boolean
- Whether to enable the Identity Service component
- enabled boolean
- Whether to enable the Identity Service component
- enabled bool
- Whether to enable the Identity Service component
- enabled Boolean
- Whether to enable the Identity Service component
K8sBetaAPIConfig, K8sBetaAPIConfigArgs
- Enabled
Apis List<string> - Enabled k8s beta APIs.
- Enabled
Apis []string - Enabled k8s beta APIs.
- enabled
Apis List<String> - Enabled k8s beta APIs.
- enabled
Apis string[] - Enabled k8s beta APIs.
- enabled_
apis Sequence[str] - Enabled k8s beta APIs.
- enabled
Apis List<String> - Enabled k8s beta APIs.
K8sBetaAPIConfigResponse, K8sBetaAPIConfigResponseArgs
- Enabled
Apis List<string> - Enabled k8s beta APIs.
- Enabled
Apis []string - Enabled k8s beta APIs.
- enabled
Apis List<String> - Enabled k8s beta APIs.
- enabled
Apis string[] - Enabled k8s beta APIs.
- enabled_
apis Sequence[str] - Enabled k8s beta APIs.
- enabled
Apis List<String> - Enabled k8s beta APIs.
KubernetesDashboard, KubernetesDashboardArgs
- Disabled bool
- Whether the Kubernetes Dashboard is enabled for this cluster.
- Disabled bool
- Whether the Kubernetes Dashboard is enabled for this cluster.
- disabled Boolean
- Whether the Kubernetes Dashboard is enabled for this cluster.
- disabled boolean
- Whether the Kubernetes Dashboard is enabled for this cluster.
- disabled bool
- Whether the Kubernetes Dashboard is enabled for this cluster.
- disabled Boolean
- Whether the Kubernetes Dashboard is enabled for this cluster.
KubernetesDashboardResponse, KubernetesDashboardResponseArgs
- Disabled bool
- Whether the Kubernetes Dashboard is enabled for this cluster.
- Disabled bool
- Whether the Kubernetes Dashboard is enabled for this cluster.
- disabled Boolean
- Whether the Kubernetes Dashboard is enabled for this cluster.
- disabled boolean
- Whether the Kubernetes Dashboard is enabled for this cluster.
- disabled bool
- Whether the Kubernetes Dashboard is enabled for this cluster.
- disabled Boolean
- Whether the Kubernetes Dashboard is enabled for this cluster.
LegacyAbac, LegacyAbacArgs
- Enabled bool
- Whether the ABAC authorizer is enabled for this cluster. When enabled, identities in the system, including service accounts, nodes, and controllers, will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
- Enabled bool
- Whether the ABAC authorizer is enabled for this cluster. When enabled, identities in the system, including service accounts, nodes, and controllers, will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
- enabled Boolean
- Whether the ABAC authorizer is enabled for this cluster. When enabled, identities in the system, including service accounts, nodes, and controllers, will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
- enabled boolean
- Whether the ABAC authorizer is enabled for this cluster. When enabled, identities in the system, including service accounts, nodes, and controllers, will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
- enabled bool
- Whether the ABAC authorizer is enabled for this cluster. When enabled, identities in the system, including service accounts, nodes, and controllers, will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
- enabled Boolean
- Whether the ABAC authorizer is enabled for this cluster. When enabled, identities in the system, including service accounts, nodes, and controllers, will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
LegacyAbacResponse, LegacyAbacResponseArgs
- Enabled bool
- Whether the ABAC authorizer is enabled for this cluster. When enabled, identities in the system, including service accounts, nodes, and controllers, will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
- Enabled bool
- Whether the ABAC authorizer is enabled for this cluster. When enabled, identities in the system, including service accounts, nodes, and controllers, will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
- enabled Boolean
- Whether the ABAC authorizer is enabled for this cluster. When enabled, identities in the system, including service accounts, nodes, and controllers, will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
- enabled boolean
- Whether the ABAC authorizer is enabled for this cluster. When enabled, identities in the system, including service accounts, nodes, and controllers, will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
- enabled bool
- Whether the ABAC authorizer is enabled for this cluster. When enabled, identities in the system, including service accounts, nodes, and controllers, will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
- enabled Boolean
- Whether the ABAC authorizer is enabled for this cluster. When enabled, identities in the system, including service accounts, nodes, and controllers, will have statically granted permissions beyond those provided by the RBAC configuration or IAM.
LinuxNodeConfig, LinuxNodeConfigArgs
- Cgroup
Mode Pulumi.Google Native. Container. V1. Linux Node Config Cgroup Mode - cgroup_mode specifies the cgroup mode to be used on the node.
- Sysctls Dictionary<string, string>
- The Linux kernel parameters to be applied to the nodes and all pods running on the nodes. The following parameters are supported. net.core.busy_poll net.core.busy_read net.core.netdev_max_backlog net.core.rmem_max net.core.wmem_default net.core.wmem_max net.core.optmem_max net.core.somaxconn net.ipv4.tcp_rmem net.ipv4.tcp_wmem net.ipv4.tcp_tw_reuse
- Cgroup
Mode LinuxNode Config Cgroup Mode - cgroup_mode specifies the cgroup mode to be used on the node.
- Sysctls map[string]string
- The Linux kernel parameters to be applied to the nodes and all pods running on the nodes. The following parameters are supported. net.core.busy_poll net.core.busy_read net.core.netdev_max_backlog net.core.rmem_max net.core.wmem_default net.core.wmem_max net.core.optmem_max net.core.somaxconn net.ipv4.tcp_rmem net.ipv4.tcp_wmem net.ipv4.tcp_tw_reuse
- cgroup
Mode LinuxNode Config Cgroup Mode - cgroup_mode specifies the cgroup mode to be used on the node.
- sysctls Map<String,String>
- The Linux kernel parameters to be applied to the nodes and all pods running on the nodes. The following parameters are supported. net.core.busy_poll net.core.busy_read net.core.netdev_max_backlog net.core.rmem_max net.core.wmem_default net.core.wmem_max net.core.optmem_max net.core.somaxconn net.ipv4.tcp_rmem net.ipv4.tcp_wmem net.ipv4.tcp_tw_reuse
- cgroup
Mode LinuxNode Config Cgroup Mode - cgroup_mode specifies the cgroup mode to be used on the node.
- sysctls {[key: string]: string}
- The Linux kernel parameters to be applied to the nodes and all pods running on the nodes. The following parameters are supported. net.core.busy_poll net.core.busy_read net.core.netdev_max_backlog net.core.rmem_max net.core.wmem_default net.core.wmem_max net.core.optmem_max net.core.somaxconn net.ipv4.tcp_rmem net.ipv4.tcp_wmem net.ipv4.tcp_tw_reuse
- cgroup_
mode LinuxNode Config Cgroup Mode - cgroup_mode specifies the cgroup mode to be used on the node.
- sysctls Mapping[str, str]
- The Linux kernel parameters to be applied to the nodes and all pods running on the nodes. The following parameters are supported. net.core.busy_poll net.core.busy_read net.core.netdev_max_backlog net.core.rmem_max net.core.wmem_default net.core.wmem_max net.core.optmem_max net.core.somaxconn net.ipv4.tcp_rmem net.ipv4.tcp_wmem net.ipv4.tcp_tw_reuse
- cgroup
Mode "CGROUP_MODE_UNSPECIFIED" | "CGROUP_MODE_V1" | "CGROUP_MODE_V2" - cgroup_mode specifies the cgroup mode to be used on the node.
- sysctls Map<String>
- The Linux kernel parameters to be applied to the nodes and all pods running on the nodes. The following parameters are supported. net.core.busy_poll net.core.busy_read net.core.netdev_max_backlog net.core.rmem_max net.core.wmem_default net.core.wmem_max net.core.optmem_max net.core.somaxconn net.ipv4.tcp_rmem net.ipv4.tcp_wmem net.ipv4.tcp_tw_reuse
LinuxNodeConfigCgroupMode, LinuxNodeConfigCgroupModeArgs
- Cgroup
Mode Unspecified - CGROUP_MODE_UNSPECIFIEDCGROUP_MODE_UNSPECIFIED is when unspecified cgroup configuration is used. The default for the GKE node OS image will be used.
- Cgroup
Mode V1 - CGROUP_MODE_V1CGROUP_MODE_V1 specifies to use cgroupv1 for the cgroup configuration on the node image.
- Cgroup
Mode V2 - CGROUP_MODE_V2CGROUP_MODE_V2 specifies to use cgroupv2 for the cgroup configuration on the node image.
- Linux
Node Config Cgroup Mode Cgroup Mode Unspecified - CGROUP_MODE_UNSPECIFIEDCGROUP_MODE_UNSPECIFIED is when unspecified cgroup configuration is used. The default for the GKE node OS image will be used.
- Linux
Node Config Cgroup Mode Cgroup Mode V1 - CGROUP_MODE_V1CGROUP_MODE_V1 specifies to use cgroupv1 for the cgroup configuration on the node image.
- Linux
Node Config Cgroup Mode Cgroup Mode V2 - CGROUP_MODE_V2CGROUP_MODE_V2 specifies to use cgroupv2 for the cgroup configuration on the node image.
- Cgroup
Mode Unspecified - CGROUP_MODE_UNSPECIFIEDCGROUP_MODE_UNSPECIFIED is when unspecified cgroup configuration is used. The default for the GKE node OS image will be used.
- Cgroup
Mode V1 - CGROUP_MODE_V1CGROUP_MODE_V1 specifies to use cgroupv1 for the cgroup configuration on the node image.
- Cgroup
Mode V2 - CGROUP_MODE_V2CGROUP_MODE_V2 specifies to use cgroupv2 for the cgroup configuration on the node image.
- Cgroup
Mode Unspecified - CGROUP_MODE_UNSPECIFIEDCGROUP_MODE_UNSPECIFIED is when unspecified cgroup configuration is used. The default for the GKE node OS image will be used.
- Cgroup
Mode V1 - CGROUP_MODE_V1CGROUP_MODE_V1 specifies to use cgroupv1 for the cgroup configuration on the node image.
- Cgroup
Mode V2 - CGROUP_MODE_V2CGROUP_MODE_V2 specifies to use cgroupv2 for the cgroup configuration on the node image.
- CGROUP_MODE_UNSPECIFIED
- CGROUP_MODE_UNSPECIFIEDCGROUP_MODE_UNSPECIFIED is when unspecified cgroup configuration is used. The default for the GKE node OS image will be used.
- CGROUP_MODE_V1
- CGROUP_MODE_V1CGROUP_MODE_V1 specifies to use cgroupv1 for the cgroup configuration on the node image.
- CGROUP_MODE_V2
- CGROUP_MODE_V2CGROUP_MODE_V2 specifies to use cgroupv2 for the cgroup configuration on the node image.
- "CGROUP_MODE_UNSPECIFIED"
- CGROUP_MODE_UNSPECIFIEDCGROUP_MODE_UNSPECIFIED is when unspecified cgroup configuration is used. The default for the GKE node OS image will be used.
- "CGROUP_MODE_V1"
- CGROUP_MODE_V1CGROUP_MODE_V1 specifies to use cgroupv1 for the cgroup configuration on the node image.
- "CGROUP_MODE_V2"
- CGROUP_MODE_V2CGROUP_MODE_V2 specifies to use cgroupv2 for the cgroup configuration on the node image.
LinuxNodeConfigResponse, LinuxNodeConfigResponseArgs
- Cgroup
Mode string - cgroup_mode specifies the cgroup mode to be used on the node.
- Sysctls Dictionary<string, string>
- The Linux kernel parameters to be applied to the nodes and all pods running on the nodes. The following parameters are supported. net.core.busy_poll net.core.busy_read net.core.netdev_max_backlog net.core.rmem_max net.core.wmem_default net.core.wmem_max net.core.optmem_max net.core.somaxconn net.ipv4.tcp_rmem net.ipv4.tcp_wmem net.ipv4.tcp_tw_reuse
- Cgroup
Mode string - cgroup_mode specifies the cgroup mode to be used on the node.
- Sysctls map[string]string
- The Linux kernel parameters to be applied to the nodes and all pods running on the nodes. The following parameters are supported. net.core.busy_poll net.core.busy_read net.core.netdev_max_backlog net.core.rmem_max net.core.wmem_default net.core.wmem_max net.core.optmem_max net.core.somaxconn net.ipv4.tcp_rmem net.ipv4.tcp_wmem net.ipv4.tcp_tw_reuse
- cgroup
Mode String - cgroup_mode specifies the cgroup mode to be used on the node.
- sysctls Map<String,String>
- The Linux kernel parameters to be applied to the nodes and all pods running on the nodes. The following parameters are supported. net.core.busy_poll net.core.busy_read net.core.netdev_max_backlog net.core.rmem_max net.core.wmem_default net.core.wmem_max net.core.optmem_max net.core.somaxconn net.ipv4.tcp_rmem net.ipv4.tcp_wmem net.ipv4.tcp_tw_reuse
- cgroup
Mode string - cgroup_mode specifies the cgroup mode to be used on the node.
- sysctls {[key: string]: string}
- The Linux kernel parameters to be applied to the nodes and all pods running on the nodes. The following parameters are supported. net.core.busy_poll net.core.busy_read net.core.netdev_max_backlog net.core.rmem_max net.core.wmem_default net.core.wmem_max net.core.optmem_max net.core.somaxconn net.ipv4.tcp_rmem net.ipv4.tcp_wmem net.ipv4.tcp_tw_reuse
- cgroup_
mode str - cgroup_mode specifies the cgroup mode to be used on the node.
- sysctls Mapping[str, str]
- The Linux kernel parameters to be applied to the nodes and all pods running on the nodes. The following parameters are supported. net.core.busy_poll net.core.busy_read net.core.netdev_max_backlog net.core.rmem_max net.core.wmem_default net.core.wmem_max net.core.optmem_max net.core.somaxconn net.ipv4.tcp_rmem net.ipv4.tcp_wmem net.ipv4.tcp_tw_reuse
- cgroup
Mode String - cgroup_mode specifies the cgroup mode to be used on the node.
- sysctls Map<String>
- The Linux kernel parameters to be applied to the nodes and all pods running on the nodes. The following parameters are supported. net.core.busy_poll net.core.busy_read net.core.netdev_max_backlog net.core.rmem_max net.core.wmem_default net.core.wmem_max net.core.optmem_max net.core.somaxconn net.ipv4.tcp_rmem net.ipv4.tcp_wmem net.ipv4.tcp_tw_reuse
LocalNvmeSsdBlockConfig, LocalNvmeSsdBlockConfigArgs
- Local
Ssd intCount - Number of local NVMe SSDs to use. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- Local
Ssd intCount - Number of local NVMe SSDs to use. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local
Ssd IntegerCount - Number of local NVMe SSDs to use. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local
Ssd numberCount - Number of local NVMe SSDs to use. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local_
ssd_ intcount - Number of local NVMe SSDs to use. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local
Ssd NumberCount - Number of local NVMe SSDs to use. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
LocalNvmeSsdBlockConfigResponse, LocalNvmeSsdBlockConfigResponseArgs
- Local
Ssd intCount - Number of local NVMe SSDs to use. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- Local
Ssd intCount - Number of local NVMe SSDs to use. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local
Ssd IntegerCount - Number of local NVMe SSDs to use. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local
Ssd numberCount - Number of local NVMe SSDs to use. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local_
ssd_ intcount - Number of local NVMe SSDs to use. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
- local
Ssd NumberCount - Number of local NVMe SSDs to use. The limit for this value is dependent upon the maximum number of disk available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information. A zero (or unset) value has different meanings depending on machine type being used: 1. For pre-Gen3 machines, which support flexible numbers of local ssds, zero (or unset) means to disable using local SSDs as ephemeral storage. 2. For Gen3 machines which dictate a specific number of local ssds, zero (or unset) means to use the default number of local ssds that goes with that machine type. For example, for a c3-standard-8-lssd machine, 2 local ssds would be provisioned. For c3-standard-8 (which doesn't support local ssds), 0 will be provisioned. See https://cloud.google.com/compute/docs/disks/local-ssd#choose_number_local_ssds for more info.
LoggingComponentConfig, LoggingComponentConfigArgs
- Enable
Components List<Pulumi.Google Native. Container. V1. Logging Component Config Enable Components Item> - Select components to collect logs. An empty set would disable all logging.
- Enable
Components []LoggingComponent Config Enable Components Item - Select components to collect logs. An empty set would disable all logging.
- enable
Components List<LoggingComponent Config Enable Components Item> - Select components to collect logs. An empty set would disable all logging.
- enable
Components LoggingComponent Config Enable Components Item[] - Select components to collect logs. An empty set would disable all logging.
- enable_
components Sequence[LoggingComponent Config Enable Components Item] - Select components to collect logs. An empty set would disable all logging.
- enable
Components List<"COMPONENT_UNSPECIFIED" | "SYSTEM_COMPONENTS" | "WORKLOADS" | "APISERVER" | "SCHEDULER" | "CONTROLLER_MANAGER"> - Select components to collect logs. An empty set would disable all logging.
LoggingComponentConfigEnableComponentsItem, LoggingComponentConfigEnableComponentsItemArgs
- Component
Unspecified - COMPONENT_UNSPECIFIEDDefault value. This shouldn't be used.
- System
Components - SYSTEM_COMPONENTSsystem components
- Workloads
- WORKLOADSworkloads
- Apiserver
- APISERVERkube-apiserver
- Scheduler
- SCHEDULERkube-scheduler
- Controller
Manager - CONTROLLER_MANAGERkube-controller-manager
- Logging
Component Config Enable Components Item Component Unspecified - COMPONENT_UNSPECIFIEDDefault value. This shouldn't be used.
- Logging
Component Config Enable Components Item System Components - SYSTEM_COMPONENTSsystem components
- Logging
Component Config Enable Components Item Workloads - WORKLOADSworkloads
- Logging
Component Config Enable Components Item Apiserver - APISERVERkube-apiserver
- Logging
Component Config Enable Components Item Scheduler - SCHEDULERkube-scheduler
- Logging
Component Config Enable Components Item Controller Manager - CONTROLLER_MANAGERkube-controller-manager
- Component
Unspecified - COMPONENT_UNSPECIFIEDDefault value. This shouldn't be used.
- System
Components - SYSTEM_COMPONENTSsystem components
- Workloads
- WORKLOADSworkloads
- Apiserver
- APISERVERkube-apiserver
- Scheduler
- SCHEDULERkube-scheduler
- Controller
Manager - CONTROLLER_MANAGERkube-controller-manager
- Component
Unspecified - COMPONENT_UNSPECIFIEDDefault value. This shouldn't be used.
- System
Components - SYSTEM_COMPONENTSsystem components
- Workloads
- WORKLOADSworkloads
- Apiserver
- APISERVERkube-apiserver
- Scheduler
- SCHEDULERkube-scheduler
- Controller
Manager - CONTROLLER_MANAGERkube-controller-manager
- COMPONENT_UNSPECIFIED
- COMPONENT_UNSPECIFIEDDefault value. This shouldn't be used.
- SYSTEM_COMPONENTS
- SYSTEM_COMPONENTSsystem components
- WORKLOADS
- WORKLOADSworkloads
- APISERVER
- APISERVERkube-apiserver
- SCHEDULER
- SCHEDULERkube-scheduler
- CONTROLLER_MANAGER
- CONTROLLER_MANAGERkube-controller-manager
- "COMPONENT_UNSPECIFIED"
- COMPONENT_UNSPECIFIEDDefault value. This shouldn't be used.
- "SYSTEM_COMPONENTS"
- SYSTEM_COMPONENTSsystem components
- "WORKLOADS"
- WORKLOADSworkloads
- "APISERVER"
- APISERVERkube-apiserver
- "SCHEDULER"
- SCHEDULERkube-scheduler
- "CONTROLLER_MANAGER"
- CONTROLLER_MANAGERkube-controller-manager
LoggingComponentConfigResponse, LoggingComponentConfigResponseArgs
- Enable
Components List<string> - Select components to collect logs. An empty set would disable all logging.
- Enable
Components []string - Select components to collect logs. An empty set would disable all logging.
- enable
Components List<String> - Select components to collect logs. An empty set would disable all logging.
- enable
Components string[] - Select components to collect logs. An empty set would disable all logging.
- enable_
components Sequence[str] - Select components to collect logs. An empty set would disable all logging.
- enable
Components List<String> - Select components to collect logs. An empty set would disable all logging.
LoggingConfig, LoggingConfigArgs
- Component
Config Pulumi.Google Native. Container. V1. Inputs. Logging Component Config - Logging components configuration
- Component
Config LoggingComponent Config - Logging components configuration
- component
Config LoggingComponent Config - Logging components configuration
- component
Config LoggingComponent Config - Logging components configuration
- component_
config LoggingComponent Config - Logging components configuration
- component
Config Property Map - Logging components configuration
LoggingConfigResponse, LoggingConfigResponseArgs
- Component
Config Pulumi.Google Native. Container. V1. Inputs. Logging Component Config Response - Logging components configuration
- Component
Config LoggingComponent Config Response - Logging components configuration
- component
Config LoggingComponent Config Response - Logging components configuration
- component
Config LoggingComponent Config Response - Logging components configuration
- component_
config LoggingComponent Config Response - Logging components configuration
- component
Config Property Map - Logging components configuration
LoggingVariantConfig, LoggingVariantConfigArgs
- Variant
Pulumi.
Google Native. Container. V1. Logging Variant Config Variant - Logging variant deployed on nodes.
- Variant
Logging
Variant Config Variant - Logging variant deployed on nodes.
- variant
Logging
Variant Config Variant - Logging variant deployed on nodes.
- variant
Logging
Variant Config Variant - Logging variant deployed on nodes.
- variant
Logging
Variant Config Variant - Logging variant deployed on nodes.
- variant "VARIANT_UNSPECIFIED" | "DEFAULT" | "MAX_THROUGHPUT"
- Logging variant deployed on nodes.
LoggingVariantConfigResponse, LoggingVariantConfigResponseArgs
- Variant string
- Logging variant deployed on nodes.
- Variant string
- Logging variant deployed on nodes.
- variant String
- Logging variant deployed on nodes.
- variant string
- Logging variant deployed on nodes.
- variant str
- Logging variant deployed on nodes.
- variant String
- Logging variant deployed on nodes.
LoggingVariantConfigVariant, LoggingVariantConfigVariantArgs
- Variant
Unspecified - VARIANT_UNSPECIFIEDDefault value. This shouldn't be used.
- Default
- DEFAULTdefault logging variant.
- Max
Throughput - MAX_THROUGHPUTmaximum logging throughput variant.
- Logging
Variant Config Variant Variant Unspecified - VARIANT_UNSPECIFIEDDefault value. This shouldn't be used.
- Logging
Variant Config Variant Default - DEFAULTdefault logging variant.
- Logging
Variant Config Variant Max Throughput - MAX_THROUGHPUTmaximum logging throughput variant.
- Variant
Unspecified - VARIANT_UNSPECIFIEDDefault value. This shouldn't be used.
- Default
- DEFAULTdefault logging variant.
- Max
Throughput - MAX_THROUGHPUTmaximum logging throughput variant.
- Variant
Unspecified - VARIANT_UNSPECIFIEDDefault value. This shouldn't be used.
- Default
- DEFAULTdefault logging variant.
- Max
Throughput - MAX_THROUGHPUTmaximum logging throughput variant.
- VARIANT_UNSPECIFIED
- VARIANT_UNSPECIFIEDDefault value. This shouldn't be used.
- DEFAULT
- DEFAULTdefault logging variant.
- MAX_THROUGHPUT
- MAX_THROUGHPUTmaximum logging throughput variant.
- "VARIANT_UNSPECIFIED"
- VARIANT_UNSPECIFIEDDefault value. This shouldn't be used.
- "DEFAULT"
- DEFAULTdefault logging variant.
- "MAX_THROUGHPUT"
- MAX_THROUGHPUTmaximum logging throughput variant.
MaintenanceExclusionOptions, MaintenanceExclusionOptionsArgs
- Scope
Pulumi.
Google Native. Container. V1. Maintenance Exclusion Options Scope - Scope specifies the upgrade scope which upgrades are blocked by the exclusion.
- Scope
Maintenance
Exclusion Options Scope - Scope specifies the upgrade scope which upgrades are blocked by the exclusion.
- scope
Maintenance
Exclusion Options Scope - Scope specifies the upgrade scope which upgrades are blocked by the exclusion.
- scope
Maintenance
Exclusion Options Scope - Scope specifies the upgrade scope which upgrades are blocked by the exclusion.
- scope
Maintenance
Exclusion Options Scope - Scope specifies the upgrade scope which upgrades are blocked by the exclusion.
- scope "NO_UPGRADES" | "NO_MINOR_UPGRADES" | "NO_MINOR_OR_NODE_UPGRADES"
- Scope specifies the upgrade scope which upgrades are blocked by the exclusion.
MaintenanceExclusionOptionsResponse, MaintenanceExclusionOptionsResponseArgs
- Scope string
- Scope specifies the upgrade scope which upgrades are blocked by the exclusion.
- Scope string
- Scope specifies the upgrade scope which upgrades are blocked by the exclusion.
- scope String
- Scope specifies the upgrade scope which upgrades are blocked by the exclusion.
- scope string
- Scope specifies the upgrade scope which upgrades are blocked by the exclusion.
- scope str
- Scope specifies the upgrade scope which upgrades are blocked by the exclusion.
- scope String
- Scope specifies the upgrade scope which upgrades are blocked by the exclusion.
MaintenanceExclusionOptionsScope, MaintenanceExclusionOptionsScopeArgs
- No
Upgrades - NO_UPGRADESNO_UPGRADES excludes all upgrades, including patch upgrades and minor upgrades across control planes and nodes. This is the default exclusion behavior.
- No
Minor Upgrades - NO_MINOR_UPGRADESNO_MINOR_UPGRADES excludes all minor upgrades for the cluster, only patches are allowed.
- No
Minor Or Node Upgrades - NO_MINOR_OR_NODE_UPGRADESNO_MINOR_OR_NODE_UPGRADES excludes all minor upgrades for the cluster, and also exclude all node pool upgrades. Only control plane patches are allowed.
- Maintenance
Exclusion Options Scope No Upgrades - NO_UPGRADESNO_UPGRADES excludes all upgrades, including patch upgrades and minor upgrades across control planes and nodes. This is the default exclusion behavior.
- Maintenance
Exclusion Options Scope No Minor Upgrades - NO_MINOR_UPGRADESNO_MINOR_UPGRADES excludes all minor upgrades for the cluster, only patches are allowed.
- Maintenance
Exclusion Options Scope No Minor Or Node Upgrades - NO_MINOR_OR_NODE_UPGRADESNO_MINOR_OR_NODE_UPGRADES excludes all minor upgrades for the cluster, and also exclude all node pool upgrades. Only control plane patches are allowed.
- No
Upgrades - NO_UPGRADESNO_UPGRADES excludes all upgrades, including patch upgrades and minor upgrades across control planes and nodes. This is the default exclusion behavior.
- No
Minor Upgrades - NO_MINOR_UPGRADESNO_MINOR_UPGRADES excludes all minor upgrades for the cluster, only patches are allowed.
- No
Minor Or Node Upgrades - NO_MINOR_OR_NODE_UPGRADESNO_MINOR_OR_NODE_UPGRADES excludes all minor upgrades for the cluster, and also exclude all node pool upgrades. Only control plane patches are allowed.
- No
Upgrades - NO_UPGRADESNO_UPGRADES excludes all upgrades, including patch upgrades and minor upgrades across control planes and nodes. This is the default exclusion behavior.
- No
Minor Upgrades - NO_MINOR_UPGRADESNO_MINOR_UPGRADES excludes all minor upgrades for the cluster, only patches are allowed.
- No
Minor Or Node Upgrades - NO_MINOR_OR_NODE_UPGRADESNO_MINOR_OR_NODE_UPGRADES excludes all minor upgrades for the cluster, and also exclude all node pool upgrades. Only control plane patches are allowed.
- NO_UPGRADES
- NO_UPGRADESNO_UPGRADES excludes all upgrades, including patch upgrades and minor upgrades across control planes and nodes. This is the default exclusion behavior.
- NO_MINOR_UPGRADES
- NO_MINOR_UPGRADESNO_MINOR_UPGRADES excludes all minor upgrades for the cluster, only patches are allowed.
- NO_MINOR_OR_NODE_UPGRADES
- NO_MINOR_OR_NODE_UPGRADESNO_MINOR_OR_NODE_UPGRADES excludes all minor upgrades for the cluster, and also exclude all node pool upgrades. Only control plane patches are allowed.
- "NO_UPGRADES"
- NO_UPGRADESNO_UPGRADES excludes all upgrades, including patch upgrades and minor upgrades across control planes and nodes. This is the default exclusion behavior.
- "NO_MINOR_UPGRADES"
- NO_MINOR_UPGRADESNO_MINOR_UPGRADES excludes all minor upgrades for the cluster, only patches are allowed.
- "NO_MINOR_OR_NODE_UPGRADES"
- NO_MINOR_OR_NODE_UPGRADESNO_MINOR_OR_NODE_UPGRADES excludes all minor upgrades for the cluster, and also exclude all node pool upgrades. Only control plane patches are allowed.
MaintenancePolicy, MaintenancePolicyArgs
- Resource
Version string - A hash identifying the version of this policy, so that updates to fields of the policy won't accidentally undo intermediate changes (and so that users of the API unaware of some fields won't accidentally remove other fields). Make a
get()
request to the cluster to get the current resource version and include it with requests to set the policy. - Window
Pulumi.
Google Native. Container. V1. Inputs. Maintenance Window - Specifies the maintenance window in which maintenance may be performed.
- Resource
Version string - A hash identifying the version of this policy, so that updates to fields of the policy won't accidentally undo intermediate changes (and so that users of the API unaware of some fields won't accidentally remove other fields). Make a
get()
request to the cluster to get the current resource version and include it with requests to set the policy. - Window
Maintenance
Window - Specifies the maintenance window in which maintenance may be performed.
- resource
Version String - A hash identifying the version of this policy, so that updates to fields of the policy won't accidentally undo intermediate changes (and so that users of the API unaware of some fields won't accidentally remove other fields). Make a
get()
request to the cluster to get the current resource version and include it with requests to set the policy. - window
Maintenance
Window - Specifies the maintenance window in which maintenance may be performed.
- resource
Version string - A hash identifying the version of this policy, so that updates to fields of the policy won't accidentally undo intermediate changes (and so that users of the API unaware of some fields won't accidentally remove other fields). Make a
get()
request to the cluster to get the current resource version and include it with requests to set the policy. - window
Maintenance
Window - Specifies the maintenance window in which maintenance may be performed.
- resource_
version str - A hash identifying the version of this policy, so that updates to fields of the policy won't accidentally undo intermediate changes (and so that users of the API unaware of some fields won't accidentally remove other fields). Make a
get()
request to the cluster to get the current resource version and include it with requests to set the policy. - window
Maintenance
Window - Specifies the maintenance window in which maintenance may be performed.
- resource
Version String - A hash identifying the version of this policy, so that updates to fields of the policy won't accidentally undo intermediate changes (and so that users of the API unaware of some fields won't accidentally remove other fields). Make a
get()
request to the cluster to get the current resource version and include it with requests to set the policy. - window Property Map
- Specifies the maintenance window in which maintenance may be performed.
MaintenancePolicyResponse, MaintenancePolicyResponseArgs
- Resource
Version string - A hash identifying the version of this policy, so that updates to fields of the policy won't accidentally undo intermediate changes (and so that users of the API unaware of some fields won't accidentally remove other fields). Make a
get()
request to the cluster to get the current resource version and include it with requests to set the policy. - Window
Pulumi.
Google Native. Container. V1. Inputs. Maintenance Window Response - Specifies the maintenance window in which maintenance may be performed.
- Resource
Version string - A hash identifying the version of this policy, so that updates to fields of the policy won't accidentally undo intermediate changes (and so that users of the API unaware of some fields won't accidentally remove other fields). Make a
get()
request to the cluster to get the current resource version and include it with requests to set the policy. - Window
Maintenance
Window Response - Specifies the maintenance window in which maintenance may be performed.
- resource
Version String - A hash identifying the version of this policy, so that updates to fields of the policy won't accidentally undo intermediate changes (and so that users of the API unaware of some fields won't accidentally remove other fields). Make a
get()
request to the cluster to get the current resource version and include it with requests to set the policy. - window
Maintenance
Window Response - Specifies the maintenance window in which maintenance may be performed.
- resource
Version string - A hash identifying the version of this policy, so that updates to fields of the policy won't accidentally undo intermediate changes (and so that users of the API unaware of some fields won't accidentally remove other fields). Make a
get()
request to the cluster to get the current resource version and include it with requests to set the policy. - window
Maintenance
Window Response - Specifies the maintenance window in which maintenance may be performed.
- resource_
version str - A hash identifying the version of this policy, so that updates to fields of the policy won't accidentally undo intermediate changes (and so that users of the API unaware of some fields won't accidentally remove other fields). Make a
get()
request to the cluster to get the current resource version and include it with requests to set the policy. - window
Maintenance
Window Response - Specifies the maintenance window in which maintenance may be performed.
- resource
Version String - A hash identifying the version of this policy, so that updates to fields of the policy won't accidentally undo intermediate changes (and so that users of the API unaware of some fields won't accidentally remove other fields). Make a
get()
request to the cluster to get the current resource version and include it with requests to set the policy. - window Property Map
- Specifies the maintenance window in which maintenance may be performed.
MaintenanceWindow, MaintenanceWindowArgs
- Daily
Maintenance Pulumi.Window Google Native. Container. V1. Inputs. Daily Maintenance Window - DailyMaintenanceWindow specifies a daily maintenance operation window.
- Maintenance
Exclusions Dictionary<string, string> - Exceptions to maintenance window. Non-emergency maintenance should not occur in these windows.
- Recurring
Window Pulumi.Google Native. Container. V1. Inputs. Recurring Time Window - RecurringWindow specifies some number of recurring time periods for maintenance to occur. The time windows may be overlapping. If no maintenance windows are set, maintenance can occur at any time.
- Daily
Maintenance DailyWindow Maintenance Window - DailyMaintenanceWindow specifies a daily maintenance operation window.
- Maintenance
Exclusions map[string]string - Exceptions to maintenance window. Non-emergency maintenance should not occur in these windows.
- Recurring
Window RecurringTime Window - RecurringWindow specifies some number of recurring time periods for maintenance to occur. The time windows may be overlapping. If no maintenance windows are set, maintenance can occur at any time.
- daily
Maintenance DailyWindow Maintenance Window - DailyMaintenanceWindow specifies a daily maintenance operation window.
- maintenance
Exclusions Map<String,String> - Exceptions to maintenance window. Non-emergency maintenance should not occur in these windows.
- recurring
Window RecurringTime Window - RecurringWindow specifies some number of recurring time periods for maintenance to occur. The time windows may be overlapping. If no maintenance windows are set, maintenance can occur at any time.
- daily
Maintenance DailyWindow Maintenance Window - DailyMaintenanceWindow specifies a daily maintenance operation window.
- maintenance
Exclusions {[key: string]: string} - Exceptions to maintenance window. Non-emergency maintenance should not occur in these windows.
- recurring
Window RecurringTime Window - RecurringWindow specifies some number of recurring time periods for maintenance to occur. The time windows may be overlapping. If no maintenance windows are set, maintenance can occur at any time.
- daily_
maintenance_ Dailywindow Maintenance Window - DailyMaintenanceWindow specifies a daily maintenance operation window.
- maintenance_
exclusions Mapping[str, str] - Exceptions to maintenance window. Non-emergency maintenance should not occur in these windows.
- recurring_
window RecurringTime Window - RecurringWindow specifies some number of recurring time periods for maintenance to occur. The time windows may be overlapping. If no maintenance windows are set, maintenance can occur at any time.
- daily
Maintenance Property MapWindow - DailyMaintenanceWindow specifies a daily maintenance operation window.
- maintenance
Exclusions Map<String> - Exceptions to maintenance window. Non-emergency maintenance should not occur in these windows.
- recurring
Window Property Map - RecurringWindow specifies some number of recurring time periods for maintenance to occur. The time windows may be overlapping. If no maintenance windows are set, maintenance can occur at any time.
MaintenanceWindowResponse, MaintenanceWindowResponseArgs
- Daily
Maintenance Pulumi.Window Google Native. Container. V1. Inputs. Daily Maintenance Window Response - DailyMaintenanceWindow specifies a daily maintenance operation window.
- Maintenance
Exclusions Dictionary<string, string> - Exceptions to maintenance window. Non-emergency maintenance should not occur in these windows.
- Recurring
Window Pulumi.Google Native. Container. V1. Inputs. Recurring Time Window Response - RecurringWindow specifies some number of recurring time periods for maintenance to occur. The time windows may be overlapping. If no maintenance windows are set, maintenance can occur at any time.
- Daily
Maintenance DailyWindow Maintenance Window Response - DailyMaintenanceWindow specifies a daily maintenance operation window.
- Maintenance
Exclusions map[string]string - Exceptions to maintenance window. Non-emergency maintenance should not occur in these windows.
- Recurring
Window RecurringTime Window Response - RecurringWindow specifies some number of recurring time periods for maintenance to occur. The time windows may be overlapping. If no maintenance windows are set, maintenance can occur at any time.
- daily
Maintenance DailyWindow Maintenance Window Response - DailyMaintenanceWindow specifies a daily maintenance operation window.
- maintenance
Exclusions Map<String,String> - Exceptions to maintenance window. Non-emergency maintenance should not occur in these windows.
- recurring
Window RecurringTime Window Response - RecurringWindow specifies some number of recurring time periods for maintenance to occur. The time windows may be overlapping. If no maintenance windows are set, maintenance can occur at any time.
- daily
Maintenance DailyWindow Maintenance Window Response - DailyMaintenanceWindow specifies a daily maintenance operation window.
- maintenance
Exclusions {[key: string]: string} - Exceptions to maintenance window. Non-emergency maintenance should not occur in these windows.
- recurring
Window RecurringTime Window Response - RecurringWindow specifies some number of recurring time periods for maintenance to occur. The time windows may be overlapping. If no maintenance windows are set, maintenance can occur at any time.
- daily_
maintenance_ Dailywindow Maintenance Window Response - DailyMaintenanceWindow specifies a daily maintenance operation window.
- maintenance_
exclusions Mapping[str, str] - Exceptions to maintenance window. Non-emergency maintenance should not occur in these windows.
- recurring_
window RecurringTime Window Response - RecurringWindow specifies some number of recurring time periods for maintenance to occur. The time windows may be overlapping. If no maintenance windows are set, maintenance can occur at any time.
- daily
Maintenance Property MapWindow - DailyMaintenanceWindow specifies a daily maintenance operation window.
- maintenance
Exclusions Map<String> - Exceptions to maintenance window. Non-emergency maintenance should not occur in these windows.
- recurring
Window Property Map - RecurringWindow specifies some number of recurring time periods for maintenance to occur. The time windows may be overlapping. If no maintenance windows are set, maintenance can occur at any time.
ManagedPrometheusConfig, ManagedPrometheusConfigArgs
- Enabled bool
- Enable Managed Collection.
- Enabled bool
- Enable Managed Collection.
- enabled Boolean
- Enable Managed Collection.
- enabled boolean
- Enable Managed Collection.
- enabled bool
- Enable Managed Collection.
- enabled Boolean
- Enable Managed Collection.
ManagedPrometheusConfigResponse, ManagedPrometheusConfigResponseArgs
- Enabled bool
- Enable Managed Collection.
- Enabled bool
- Enable Managed Collection.
- enabled Boolean
- Enable Managed Collection.
- enabled boolean
- Enable Managed Collection.
- enabled bool
- Enable Managed Collection.
- enabled Boolean
- Enable Managed Collection.
MasterAuth, MasterAuthArgs
- Client
Certificate Pulumi.Config Google Native. Container. V1. Inputs. Client Certificate Config - Configuration for client certificate authentication on the cluster. For clusters before v1.12, if no configuration is specified, a client certificate is issued.
- Password string
- The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. If a password is provided for cluster creation, username must be non-empty. Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- Username string
- The username to use for HTTP basic authentication to the master endpoint. For clusters v1.6.0 and later, basic authentication can be disabled by leaving username unspecified (or setting it to the empty string). Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- Client
Certificate ClientConfig Certificate Config - Configuration for client certificate authentication on the cluster. For clusters before v1.12, if no configuration is specified, a client certificate is issued.
- Password string
- The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. If a password is provided for cluster creation, username must be non-empty. Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- Username string
- The username to use for HTTP basic authentication to the master endpoint. For clusters v1.6.0 and later, basic authentication can be disabled by leaving username unspecified (or setting it to the empty string). Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- client
Certificate ClientConfig Certificate Config - Configuration for client certificate authentication on the cluster. For clusters before v1.12, if no configuration is specified, a client certificate is issued.
- password String
- The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. If a password is provided for cluster creation, username must be non-empty. Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- username String
- The username to use for HTTP basic authentication to the master endpoint. For clusters v1.6.0 and later, basic authentication can be disabled by leaving username unspecified (or setting it to the empty string). Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- client
Certificate ClientConfig Certificate Config - Configuration for client certificate authentication on the cluster. For clusters before v1.12, if no configuration is specified, a client certificate is issued.
- password string
- The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. If a password is provided for cluster creation, username must be non-empty. Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- username string
- The username to use for HTTP basic authentication to the master endpoint. For clusters v1.6.0 and later, basic authentication can be disabled by leaving username unspecified (or setting it to the empty string). Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- client_
certificate_ Clientconfig Certificate Config - Configuration for client certificate authentication on the cluster. For clusters before v1.12, if no configuration is specified, a client certificate is issued.
- password str
- The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. If a password is provided for cluster creation, username must be non-empty. Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- username str
- The username to use for HTTP basic authentication to the master endpoint. For clusters v1.6.0 and later, basic authentication can be disabled by leaving username unspecified (or setting it to the empty string). Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- client
Certificate Property MapConfig - Configuration for client certificate authentication on the cluster. For clusters before v1.12, if no configuration is specified, a client certificate is issued.
- password String
- The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. If a password is provided for cluster creation, username must be non-empty. Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- username String
- The username to use for HTTP basic authentication to the master endpoint. For clusters v1.6.0 and later, basic authentication can be disabled by leaving username unspecified (or setting it to the empty string). Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
MasterAuthResponse, MasterAuthResponseArgs
- Client
Certificate string - [Output only] Base64-encoded public certificate used by clients to authenticate to the cluster endpoint.
- Client
Certificate Pulumi.Config Google Native. Container. V1. Inputs. Client Certificate Config Response - Configuration for client certificate authentication on the cluster. For clusters before v1.12, if no configuration is specified, a client certificate is issued.
- Client
Key string - [Output only] Base64-encoded private key used by clients to authenticate to the cluster endpoint.
- Cluster
Ca stringCertificate - [Output only] Base64-encoded public certificate that is the root of trust for the cluster.
- Password string
- The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. If a password is provided for cluster creation, username must be non-empty. Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- Username string
- The username to use for HTTP basic authentication to the master endpoint. For clusters v1.6.0 and later, basic authentication can be disabled by leaving username unspecified (or setting it to the empty string). Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- Client
Certificate string - [Output only] Base64-encoded public certificate used by clients to authenticate to the cluster endpoint.
- Client
Certificate ClientConfig Certificate Config Response - Configuration for client certificate authentication on the cluster. For clusters before v1.12, if no configuration is specified, a client certificate is issued.
- Client
Key string - [Output only] Base64-encoded private key used by clients to authenticate to the cluster endpoint.
- Cluster
Ca stringCertificate - [Output only] Base64-encoded public certificate that is the root of trust for the cluster.
- Password string
- The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. If a password is provided for cluster creation, username must be non-empty. Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- Username string
- The username to use for HTTP basic authentication to the master endpoint. For clusters v1.6.0 and later, basic authentication can be disabled by leaving username unspecified (or setting it to the empty string). Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- client
Certificate String - [Output only] Base64-encoded public certificate used by clients to authenticate to the cluster endpoint.
- client
Certificate ClientConfig Certificate Config Response - Configuration for client certificate authentication on the cluster. For clusters before v1.12, if no configuration is specified, a client certificate is issued.
- client
Key String - [Output only] Base64-encoded private key used by clients to authenticate to the cluster endpoint.
- cluster
Ca StringCertificate - [Output only] Base64-encoded public certificate that is the root of trust for the cluster.
- password String
- The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. If a password is provided for cluster creation, username must be non-empty. Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- username String
- The username to use for HTTP basic authentication to the master endpoint. For clusters v1.6.0 and later, basic authentication can be disabled by leaving username unspecified (or setting it to the empty string). Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- client
Certificate string - [Output only] Base64-encoded public certificate used by clients to authenticate to the cluster endpoint.
- client
Certificate ClientConfig Certificate Config Response - Configuration for client certificate authentication on the cluster. For clusters before v1.12, if no configuration is specified, a client certificate is issued.
- client
Key string - [Output only] Base64-encoded private key used by clients to authenticate to the cluster endpoint.
- cluster
Ca stringCertificate - [Output only] Base64-encoded public certificate that is the root of trust for the cluster.
- password string
- The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. If a password is provided for cluster creation, username must be non-empty. Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- username string
- The username to use for HTTP basic authentication to the master endpoint. For clusters v1.6.0 and later, basic authentication can be disabled by leaving username unspecified (or setting it to the empty string). Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- client_
certificate str - [Output only] Base64-encoded public certificate used by clients to authenticate to the cluster endpoint.
- client_
certificate_ Clientconfig Certificate Config Response - Configuration for client certificate authentication on the cluster. For clusters before v1.12, if no configuration is specified, a client certificate is issued.
- client_
key str - [Output only] Base64-encoded private key used by clients to authenticate to the cluster endpoint.
- cluster_
ca_ strcertificate - [Output only] Base64-encoded public certificate that is the root of trust for the cluster.
- password str
- The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. If a password is provided for cluster creation, username must be non-empty. Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- username str
- The username to use for HTTP basic authentication to the master endpoint. For clusters v1.6.0 and later, basic authentication can be disabled by leaving username unspecified (or setting it to the empty string). Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- client
Certificate String - [Output only] Base64-encoded public certificate used by clients to authenticate to the cluster endpoint.
- client
Certificate Property MapConfig - Configuration for client certificate authentication on the cluster. For clusters before v1.12, if no configuration is specified, a client certificate is issued.
- client
Key String - [Output only] Base64-encoded private key used by clients to authenticate to the cluster endpoint.
- cluster
Ca StringCertificate - [Output only] Base64-encoded public certificate that is the root of trust for the cluster.
- password String
- The password to use for HTTP basic authentication to the master endpoint. Because the master endpoint is open to the Internet, you should create a strong password. If a password is provided for cluster creation, username must be non-empty. Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
- username String
- The username to use for HTTP basic authentication to the master endpoint. For clusters v1.6.0 and later, basic authentication can be disabled by leaving username unspecified (or setting it to the empty string). Warning: basic authentication is deprecated, and will be removed in GKE control plane versions 1.19 and newer. For a list of recommended authentication methods, see: https://cloud.google.com/kubernetes-engine/docs/how-to/api-server-authentication
MasterAuthorizedNetworksConfig, MasterAuthorizedNetworksConfigArgs
- Cidr
Blocks List<Pulumi.Google Native. Container. V1. Inputs. Cidr Block> - cidr_blocks define up to 50 external networks that could access Kubernetes master through HTTPS.
- Enabled bool
- Whether or not master authorized networks is enabled.
- Gcp
Public boolCidrs Access Enabled - Whether master is accessbile via Google Compute Engine Public IP addresses.
- Cidr
Blocks []CidrBlock - cidr_blocks define up to 50 external networks that could access Kubernetes master through HTTPS.
- Enabled bool
- Whether or not master authorized networks is enabled.
- Gcp
Public boolCidrs Access Enabled - Whether master is accessbile via Google Compute Engine Public IP addresses.
- cidr
Blocks List<CidrBlock> - cidr_blocks define up to 50 external networks that could access Kubernetes master through HTTPS.
- enabled Boolean
- Whether or not master authorized networks is enabled.
- gcp
Public BooleanCidrs Access Enabled - Whether master is accessbile via Google Compute Engine Public IP addresses.
- cidr
Blocks CidrBlock[] - cidr_blocks define up to 50 external networks that could access Kubernetes master through HTTPS.
- enabled boolean
- Whether or not master authorized networks is enabled.
- gcp
Public booleanCidrs Access Enabled - Whether master is accessbile via Google Compute Engine Public IP addresses.
- cidr_
blocks Sequence[CidrBlock] - cidr_blocks define up to 50 external networks that could access Kubernetes master through HTTPS.
- enabled bool
- Whether or not master authorized networks is enabled.
- gcp_
public_ boolcidrs_ access_ enabled - Whether master is accessbile via Google Compute Engine Public IP addresses.
- cidr
Blocks List<Property Map> - cidr_blocks define up to 50 external networks that could access Kubernetes master through HTTPS.
- enabled Boolean
- Whether or not master authorized networks is enabled.
- gcp
Public BooleanCidrs Access Enabled - Whether master is accessbile via Google Compute Engine Public IP addresses.
MasterAuthorizedNetworksConfigResponse, MasterAuthorizedNetworksConfigResponseArgs
- Cidr
Blocks List<Pulumi.Google Native. Container. V1. Inputs. Cidr Block Response> - cidr_blocks define up to 50 external networks that could access Kubernetes master through HTTPS.
- Enabled bool
- Whether or not master authorized networks is enabled.
- Gcp
Public boolCidrs Access Enabled - Whether master is accessbile via Google Compute Engine Public IP addresses.
- Cidr
Blocks []CidrBlock Response - cidr_blocks define up to 50 external networks that could access Kubernetes master through HTTPS.
- Enabled bool
- Whether or not master authorized networks is enabled.
- Gcp
Public boolCidrs Access Enabled - Whether master is accessbile via Google Compute Engine Public IP addresses.
- cidr
Blocks List<CidrBlock Response> - cidr_blocks define up to 50 external networks that could access Kubernetes master through HTTPS.
- enabled Boolean
- Whether or not master authorized networks is enabled.
- gcp
Public BooleanCidrs Access Enabled - Whether master is accessbile via Google Compute Engine Public IP addresses.
- cidr
Blocks CidrBlock Response[] - cidr_blocks define up to 50 external networks that could access Kubernetes master through HTTPS.
- enabled boolean
- Whether or not master authorized networks is enabled.
- gcp
Public booleanCidrs Access Enabled - Whether master is accessbile via Google Compute Engine Public IP addresses.
- cidr_
blocks Sequence[CidrBlock Response] - cidr_blocks define up to 50 external networks that could access Kubernetes master through HTTPS.
- enabled bool
- Whether or not master authorized networks is enabled.
- gcp_
public_ boolcidrs_ access_ enabled - Whether master is accessbile via Google Compute Engine Public IP addresses.
- cidr
Blocks List<Property Map> - cidr_blocks define up to 50 external networks that could access Kubernetes master through HTTPS.
- enabled Boolean
- Whether or not master authorized networks is enabled.
- gcp
Public BooleanCidrs Access Enabled - Whether master is accessbile via Google Compute Engine Public IP addresses.
MaxPodsConstraint, MaxPodsConstraintArgs
- Max
Pods stringPer Node - Constraint enforced on the max num of pods per node.
- Max
Pods stringPer Node - Constraint enforced on the max num of pods per node.
- max
Pods StringPer Node - Constraint enforced on the max num of pods per node.
- max
Pods stringPer Node - Constraint enforced on the max num of pods per node.
- max_
pods_ strper_ node - Constraint enforced on the max num of pods per node.
- max
Pods StringPer Node - Constraint enforced on the max num of pods per node.
MaxPodsConstraintResponse, MaxPodsConstraintResponseArgs
- Max
Pods stringPer Node - Constraint enforced on the max num of pods per node.
- Max
Pods stringPer Node - Constraint enforced on the max num of pods per node.
- max
Pods StringPer Node - Constraint enforced on the max num of pods per node.
- max
Pods stringPer Node - Constraint enforced on the max num of pods per node.
- max_
pods_ strper_ node - Constraint enforced on the max num of pods per node.
- max
Pods StringPer Node - Constraint enforced on the max num of pods per node.
MeshCertificates, MeshCertificatesArgs
- Enable
Certificates bool - enable_certificates controls issuance of workload mTLS certificates. If set, the GKE Workload Identity Certificates controller and node agent will be deployed in the cluster, which can then be configured by creating a WorkloadCertificateConfig Custom Resource. Requires Workload Identity (workload_pool must be non-empty).
- Enable
Certificates bool - enable_certificates controls issuance of workload mTLS certificates. If set, the GKE Workload Identity Certificates controller and node agent will be deployed in the cluster, which can then be configured by creating a WorkloadCertificateConfig Custom Resource. Requires Workload Identity (workload_pool must be non-empty).
- enable
Certificates Boolean - enable_certificates controls issuance of workload mTLS certificates. If set, the GKE Workload Identity Certificates controller and node agent will be deployed in the cluster, which can then be configured by creating a WorkloadCertificateConfig Custom Resource. Requires Workload Identity (workload_pool must be non-empty).
- enable
Certificates boolean - enable_certificates controls issuance of workload mTLS certificates. If set, the GKE Workload Identity Certificates controller and node agent will be deployed in the cluster, which can then be configured by creating a WorkloadCertificateConfig Custom Resource. Requires Workload Identity (workload_pool must be non-empty).
- enable_
certificates bool - enable_certificates controls issuance of workload mTLS certificates. If set, the GKE Workload Identity Certificates controller and node agent will be deployed in the cluster, which can then be configured by creating a WorkloadCertificateConfig Custom Resource. Requires Workload Identity (workload_pool must be non-empty).
- enable
Certificates Boolean - enable_certificates controls issuance of workload mTLS certificates. If set, the GKE Workload Identity Certificates controller and node agent will be deployed in the cluster, which can then be configured by creating a WorkloadCertificateConfig Custom Resource. Requires Workload Identity (workload_pool must be non-empty).
MeshCertificatesResponse, MeshCertificatesResponseArgs
- Enable
Certificates bool - enable_certificates controls issuance of workload mTLS certificates. If set, the GKE Workload Identity Certificates controller and node agent will be deployed in the cluster, which can then be configured by creating a WorkloadCertificateConfig Custom Resource. Requires Workload Identity (workload_pool must be non-empty).
- Enable
Certificates bool - enable_certificates controls issuance of workload mTLS certificates. If set, the GKE Workload Identity Certificates controller and node agent will be deployed in the cluster, which can then be configured by creating a WorkloadCertificateConfig Custom Resource. Requires Workload Identity (workload_pool must be non-empty).
- enable
Certificates Boolean - enable_certificates controls issuance of workload mTLS certificates. If set, the GKE Workload Identity Certificates controller and node agent will be deployed in the cluster, which can then be configured by creating a WorkloadCertificateConfig Custom Resource. Requires Workload Identity (workload_pool must be non-empty).
- enable
Certificates boolean - enable_certificates controls issuance of workload mTLS certificates. If set, the GKE Workload Identity Certificates controller and node agent will be deployed in the cluster, which can then be configured by creating a WorkloadCertificateConfig Custom Resource. Requires Workload Identity (workload_pool must be non-empty).
- enable_
certificates bool - enable_certificates controls issuance of workload mTLS certificates. If set, the GKE Workload Identity Certificates controller and node agent will be deployed in the cluster, which can then be configured by creating a WorkloadCertificateConfig Custom Resource. Requires Workload Identity (workload_pool must be non-empty).
- enable
Certificates Boolean - enable_certificates controls issuance of workload mTLS certificates. If set, the GKE Workload Identity Certificates controller and node agent will be deployed in the cluster, which can then be configured by creating a WorkloadCertificateConfig Custom Resource. Requires Workload Identity (workload_pool must be non-empty).
MonitoringComponentConfig, MonitoringComponentConfigArgs
- Enable
Components List<Pulumi.Google Native. Container. V1. Monitoring Component Config Enable Components Item> - Select components to collect metrics. An empty set would disable all monitoring.
- Enable
Components []MonitoringComponent Config Enable Components Item - Select components to collect metrics. An empty set would disable all monitoring.
- enable
Components List<MonitoringComponent Config Enable Components Item> - Select components to collect metrics. An empty set would disable all monitoring.
- enable
Components MonitoringComponent Config Enable Components Item[] - Select components to collect metrics. An empty set would disable all monitoring.
- enable_
components Sequence[MonitoringComponent Config Enable Components Item] - Select components to collect metrics. An empty set would disable all monitoring.
- enable
Components List<"COMPONENT_UNSPECIFIED" | "SYSTEM_COMPONENTS" | "APISERVER" | "SCHEDULER" | "CONTROLLER_MANAGER" | "STORAGE" | "HPA" | "POD" | "DAEMONSET" | "DEPLOYMENT" | "STATEFULSET"> - Select components to collect metrics. An empty set would disable all monitoring.
MonitoringComponentConfigEnableComponentsItem, MonitoringComponentConfigEnableComponentsItemArgs
- Component
Unspecified - COMPONENT_UNSPECIFIEDDefault value. This shouldn't be used.
- System
Components - SYSTEM_COMPONENTSsystem components
- Apiserver
- APISERVERkube-apiserver
- Scheduler
- SCHEDULERkube-scheduler
- Controller
Manager - CONTROLLER_MANAGERkube-controller-manager
- Storage
- STORAGEStorage
- Hpa
- HPAHorizontal Pod Autoscaling
- Pod
- PODPod
- Daemonset
- DAEMONSETDaemonSet
- Deployment
- DEPLOYMENTDeployment
- Statefulset
- STATEFULSETStatefulset
- Monitoring
Component Config Enable Components Item Component Unspecified - COMPONENT_UNSPECIFIEDDefault value. This shouldn't be used.
- Monitoring
Component Config Enable Components Item System Components - SYSTEM_COMPONENTSsystem components
- Monitoring
Component Config Enable Components Item Apiserver - APISERVERkube-apiserver
- Monitoring
Component Config Enable Components Item Scheduler - SCHEDULERkube-scheduler
- Monitoring
Component Config Enable Components Item Controller Manager - CONTROLLER_MANAGERkube-controller-manager
- Monitoring
Component Config Enable Components Item Storage - STORAGEStorage
- Monitoring
Component Config Enable Components Item Hpa - HPAHorizontal Pod Autoscaling
- Monitoring
Component Config Enable Components Item Pod - PODPod
- Monitoring
Component Config Enable Components Item Daemonset - DAEMONSETDaemonSet
- Monitoring
Component Config Enable Components Item Deployment - DEPLOYMENTDeployment
- Monitoring
Component Config Enable Components Item Statefulset - STATEFULSETStatefulset
- Component
Unspecified - COMPONENT_UNSPECIFIEDDefault value. This shouldn't be used.
- System
Components - SYSTEM_COMPONENTSsystem components
- Apiserver
- APISERVERkube-apiserver
- Scheduler
- SCHEDULERkube-scheduler
- Controller
Manager - CONTROLLER_MANAGERkube-controller-manager
- Storage
- STORAGEStorage
- Hpa
- HPAHorizontal Pod Autoscaling
- Pod
- PODPod
- Daemonset
- DAEMONSETDaemonSet
- Deployment
- DEPLOYMENTDeployment
- Statefulset
- STATEFULSETStatefulset
- Component
Unspecified - COMPONENT_UNSPECIFIEDDefault value. This shouldn't be used.
- System
Components - SYSTEM_COMPONENTSsystem components
- Apiserver
- APISERVERkube-apiserver
- Scheduler
- SCHEDULERkube-scheduler
- Controller
Manager - CONTROLLER_MANAGERkube-controller-manager
- Storage
- STORAGEStorage
- Hpa
- HPAHorizontal Pod Autoscaling
- Pod
- PODPod
- Daemonset
- DAEMONSETDaemonSet
- Deployment
- DEPLOYMENTDeployment
- Statefulset
- STATEFULSETStatefulset
- COMPONENT_UNSPECIFIED
- COMPONENT_UNSPECIFIEDDefault value. This shouldn't be used.
- SYSTEM_COMPONENTS
- SYSTEM_COMPONENTSsystem components
- APISERVER
- APISERVERkube-apiserver
- SCHEDULER
- SCHEDULERkube-scheduler
- CONTROLLER_MANAGER
- CONTROLLER_MANAGERkube-controller-manager
- STORAGE
- STORAGEStorage
- HPA
- HPAHorizontal Pod Autoscaling
- POD
- PODPod
- DAEMONSET
- DAEMONSETDaemonSet
- DEPLOYMENT
- DEPLOYMENTDeployment
- STATEFULSET
- STATEFULSETStatefulset
- "COMPONENT_UNSPECIFIED"
- COMPONENT_UNSPECIFIEDDefault value. This shouldn't be used.
- "SYSTEM_COMPONENTS"
- SYSTEM_COMPONENTSsystem components
- "APISERVER"
- APISERVERkube-apiserver
- "SCHEDULER"
- SCHEDULERkube-scheduler
- "CONTROLLER_MANAGER"
- CONTROLLER_MANAGERkube-controller-manager
- "STORAGE"
- STORAGEStorage
- "HPA"
- HPAHorizontal Pod Autoscaling
- "POD"
- PODPod
- "DAEMONSET"
- DAEMONSETDaemonSet
- "DEPLOYMENT"
- DEPLOYMENTDeployment
- "STATEFULSET"
- STATEFULSETStatefulset
MonitoringComponentConfigResponse, MonitoringComponentConfigResponseArgs
- Enable
Components List<string> - Select components to collect metrics. An empty set would disable all monitoring.
- Enable
Components []string - Select components to collect metrics. An empty set would disable all monitoring.
- enable
Components List<String> - Select components to collect metrics. An empty set would disable all monitoring.
- enable
Components string[] - Select components to collect metrics. An empty set would disable all monitoring.
- enable_
components Sequence[str] - Select components to collect metrics. An empty set would disable all monitoring.
- enable
Components List<String> - Select components to collect metrics. An empty set would disable all monitoring.
MonitoringConfig, MonitoringConfigArgs
- Advanced
Datapath Pulumi.Observability Config Google Native. Container. V1. Inputs. Advanced Datapath Observability Config - Configuration of Advanced Datapath Observability features.
- Component
Config Pulumi.Google Native. Container. V1. Inputs. Monitoring Component Config - Monitoring components configuration
- Managed
Prometheus Pulumi.Config Google Native. Container. V1. Inputs. Managed Prometheus Config - Enable Google Cloud Managed Service for Prometheus in the cluster.
- Advanced
Datapath AdvancedObservability Config Datapath Observability Config - Configuration of Advanced Datapath Observability features.
- Component
Config MonitoringComponent Config - Monitoring components configuration
- Managed
Prometheus ManagedConfig Prometheus Config - Enable Google Cloud Managed Service for Prometheus in the cluster.
- advanced
Datapath AdvancedObservability Config Datapath Observability Config - Configuration of Advanced Datapath Observability features.
- component
Config MonitoringComponent Config - Monitoring components configuration
- managed
Prometheus ManagedConfig Prometheus Config - Enable Google Cloud Managed Service for Prometheus in the cluster.
- advanced
Datapath AdvancedObservability Config Datapath Observability Config - Configuration of Advanced Datapath Observability features.
- component
Config MonitoringComponent Config - Monitoring components configuration
- managed
Prometheus ManagedConfig Prometheus Config - Enable Google Cloud Managed Service for Prometheus in the cluster.
- advanced_
datapath_ Advancedobservability_ config Datapath Observability Config - Configuration of Advanced Datapath Observability features.
- component_
config MonitoringComponent Config - Monitoring components configuration
- managed_
prometheus_ Managedconfig Prometheus Config - Enable Google Cloud Managed Service for Prometheus in the cluster.
- advanced
Datapath Property MapObservability Config - Configuration of Advanced Datapath Observability features.
- component
Config Property Map - Monitoring components configuration
- managed
Prometheus Property MapConfig - Enable Google Cloud Managed Service for Prometheus in the cluster.
MonitoringConfigResponse, MonitoringConfigResponseArgs
- Advanced
Datapath Pulumi.Observability Config Google Native. Container. V1. Inputs. Advanced Datapath Observability Config Response - Configuration of Advanced Datapath Observability features.
- Component
Config Pulumi.Google Native. Container. V1. Inputs. Monitoring Component Config Response - Monitoring components configuration
- Managed
Prometheus Pulumi.Config Google Native. Container. V1. Inputs. Managed Prometheus Config Response - Enable Google Cloud Managed Service for Prometheus in the cluster.
- Advanced
Datapath AdvancedObservability Config Datapath Observability Config Response - Configuration of Advanced Datapath Observability features.
- Component
Config MonitoringComponent Config Response - Monitoring components configuration
- Managed
Prometheus ManagedConfig Prometheus Config Response - Enable Google Cloud Managed Service for Prometheus in the cluster.
- advanced
Datapath AdvancedObservability Config Datapath Observability Config Response - Configuration of Advanced Datapath Observability features.
- component
Config MonitoringComponent Config Response - Monitoring components configuration
- managed
Prometheus ManagedConfig Prometheus Config Response - Enable Google Cloud Managed Service for Prometheus in the cluster.
- advanced
Datapath AdvancedObservability Config Datapath Observability Config Response - Configuration of Advanced Datapath Observability features.
- component
Config MonitoringComponent Config Response - Monitoring components configuration
- managed
Prometheus ManagedConfig Prometheus Config Response - Enable Google Cloud Managed Service for Prometheus in the cluster.
- advanced_
datapath_ Advancedobservability_ config Datapath Observability Config Response - Configuration of Advanced Datapath Observability features.
- component_
config MonitoringComponent Config Response - Monitoring components configuration
- managed_
prometheus_ Managedconfig Prometheus Config Response - Enable Google Cloud Managed Service for Prometheus in the cluster.
- advanced
Datapath Property MapObservability Config - Configuration of Advanced Datapath Observability features.
- component
Config Property Map - Monitoring components configuration
- managed
Prometheus Property MapConfig - Enable Google Cloud Managed Service for Prometheus in the cluster.
NetworkConfig, NetworkConfigArgs
- Datapath
Provider Pulumi.Google Native. Container. V1. Network Config Datapath Provider - The desired datapath provider for this cluster. By default, uses the IPTables-based kube-proxy implementation.
- Default
Snat Pulumi.Status Google Native. Container. V1. Inputs. Default Snat Status - Whether the cluster disables default in-node sNAT rules. In-node sNAT rules will be disabled when default_snat_status is disabled. When disabled is set to false, default IP masquerade rules will be applied to the nodes to prevent sNAT on cluster internal traffic.
- Dns
Config Pulumi.Google Native. Container. V1. Inputs. DNSConfig - DNSConfig contains clusterDNS config for this cluster.
- Enable
Fqdn boolNetwork Policy - Whether FQDN Network Policy is enabled on this cluster.
- Enable
Intra boolNode Visibility - Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
- Enable
L4ilb boolSubsetting - Whether L4ILB Subsetting is enabled for this cluster.
- Enable
Multi boolNetworking - Whether multi-networking is enabled for this cluster.
- Gateway
Api Pulumi.Config Google Native. Container. V1. Inputs. Gateway APIConfig - GatewayAPIConfig contains the desired config of Gateway API on this cluster.
- Network
Performance Pulumi.Config Google Native. Container. V1. Inputs. Cluster Network Performance Config - Network bandwidth tier configuration.
- Private
Ipv6Google Pulumi.Access Google Native. Container. V1. Network Config Private Ipv6Google Access - The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4)
- Service
External Pulumi.Ips Config Google Native. Container. V1. Inputs. Service External IPs Config - ServiceExternalIPsConfig specifies if services with externalIPs field are blocked or not.
- Datapath
Provider NetworkConfig Datapath Provider - The desired datapath provider for this cluster. By default, uses the IPTables-based kube-proxy implementation.
- Default
Snat DefaultStatus Snat Status - Whether the cluster disables default in-node sNAT rules. In-node sNAT rules will be disabled when default_snat_status is disabled. When disabled is set to false, default IP masquerade rules will be applied to the nodes to prevent sNAT on cluster internal traffic.
- Dns
Config DNSConfig - DNSConfig contains clusterDNS config for this cluster.
- Enable
Fqdn boolNetwork Policy - Whether FQDN Network Policy is enabled on this cluster.
- Enable
Intra boolNode Visibility - Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
- Enable
L4ilb boolSubsetting - Whether L4ILB Subsetting is enabled for this cluster.
- Enable
Multi boolNetworking - Whether multi-networking is enabled for this cluster.
- Gateway
Api GatewayConfig APIConfig - GatewayAPIConfig contains the desired config of Gateway API on this cluster.
- Network
Performance ClusterConfig Network Performance Config - Network bandwidth tier configuration.
- Private
Ipv6Google NetworkAccess Config Private Ipv6Google Access - The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4)
- Service
External ServiceIps Config External IPs Config - ServiceExternalIPsConfig specifies if services with externalIPs field are blocked or not.
- datapath
Provider NetworkConfig Datapath Provider - The desired datapath provider for this cluster. By default, uses the IPTables-based kube-proxy implementation.
- default
Snat DefaultStatus Snat Status - Whether the cluster disables default in-node sNAT rules. In-node sNAT rules will be disabled when default_snat_status is disabled. When disabled is set to false, default IP masquerade rules will be applied to the nodes to prevent sNAT on cluster internal traffic.
- dns
Config DNSConfig - DNSConfig contains clusterDNS config for this cluster.
- enable
Fqdn BooleanNetwork Policy - Whether FQDN Network Policy is enabled on this cluster.
- enable
Intra BooleanNode Visibility - Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
- enable
L4ilb BooleanSubsetting - Whether L4ILB Subsetting is enabled for this cluster.
- enable
Multi BooleanNetworking - Whether multi-networking is enabled for this cluster.
- gateway
Api GatewayConfig APIConfig - GatewayAPIConfig contains the desired config of Gateway API on this cluster.
- network
Performance ClusterConfig Network Performance Config - Network bandwidth tier configuration.
- private
Ipv6Google NetworkAccess Config Private Ipv6Google Access - The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4)
- service
External ServiceIps Config External IPs Config - ServiceExternalIPsConfig specifies if services with externalIPs field are blocked or not.
- datapath
Provider NetworkConfig Datapath Provider - The desired datapath provider for this cluster. By default, uses the IPTables-based kube-proxy implementation.
- default
Snat DefaultStatus Snat Status - Whether the cluster disables default in-node sNAT rules. In-node sNAT rules will be disabled when default_snat_status is disabled. When disabled is set to false, default IP masquerade rules will be applied to the nodes to prevent sNAT on cluster internal traffic.
- dns
Config DNSConfig - DNSConfig contains clusterDNS config for this cluster.
- enable
Fqdn booleanNetwork Policy - Whether FQDN Network Policy is enabled on this cluster.
- enable
Intra booleanNode Visibility - Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
- enable
L4ilb booleanSubsetting - Whether L4ILB Subsetting is enabled for this cluster.
- enable
Multi booleanNetworking - Whether multi-networking is enabled for this cluster.
- gateway
Api GatewayConfig APIConfig - GatewayAPIConfig contains the desired config of Gateway API on this cluster.
- network
Performance ClusterConfig Network Performance Config - Network bandwidth tier configuration.
- private
Ipv6Google NetworkAccess Config Private Ipv6Google Access - The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4)
- service
External ServiceIps Config External IPs Config - ServiceExternalIPsConfig specifies if services with externalIPs field are blocked or not.
- datapath_
provider NetworkConfig Datapath Provider - The desired datapath provider for this cluster. By default, uses the IPTables-based kube-proxy implementation.
- default_
snat_ Defaultstatus Snat Status - Whether the cluster disables default in-node sNAT rules. In-node sNAT rules will be disabled when default_snat_status is disabled. When disabled is set to false, default IP masquerade rules will be applied to the nodes to prevent sNAT on cluster internal traffic.
- dns_
config DNSConfig - DNSConfig contains clusterDNS config for this cluster.
- enable_
fqdn_ boolnetwork_ policy - Whether FQDN Network Policy is enabled on this cluster.
- enable_
intra_ boolnode_ visibility - Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
- enable_
l4ilb_ boolsubsetting - Whether L4ILB Subsetting is enabled for this cluster.
- enable_
multi_ boolnetworking - Whether multi-networking is enabled for this cluster.
- gateway_
api_ Gatewayconfig APIConfig - GatewayAPIConfig contains the desired config of Gateway API on this cluster.
- network_
performance_ Clusterconfig Network Performance Config - Network bandwidth tier configuration.
- private_
ipv6_ Networkgoogle_ access Config Private Ipv6Google Access - The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4)
- service_
external_ Serviceips_ config External IPs Config - ServiceExternalIPsConfig specifies if services with externalIPs field are blocked or not.
- datapath
Provider "DATAPATH_PROVIDER_UNSPECIFIED" | "LEGACY_DATAPATH" | "ADVANCED_DATAPATH" - The desired datapath provider for this cluster. By default, uses the IPTables-based kube-proxy implementation.
- default
Snat Property MapStatus - Whether the cluster disables default in-node sNAT rules. In-node sNAT rules will be disabled when default_snat_status is disabled. When disabled is set to false, default IP masquerade rules will be applied to the nodes to prevent sNAT on cluster internal traffic.
- dns
Config Property Map - DNSConfig contains clusterDNS config for this cluster.
- enable
Fqdn BooleanNetwork Policy - Whether FQDN Network Policy is enabled on this cluster.
- enable
Intra BooleanNode Visibility - Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
- enable
L4ilb BooleanSubsetting - Whether L4ILB Subsetting is enabled for this cluster.
- enable
Multi BooleanNetworking - Whether multi-networking is enabled for this cluster.
- gateway
Api Property MapConfig - GatewayAPIConfig contains the desired config of Gateway API on this cluster.
- network
Performance Property MapConfig - Network bandwidth tier configuration.
- private
Ipv6Google "PRIVATE_IPV6_GOOGLE_ACCESS_UNSPECIFIED" | "PRIVATE_IPV6_GOOGLE_ACCESS_DISABLED" | "PRIVATE_IPV6_GOOGLE_ACCESS_TO_GOOGLE" | "PRIVATE_IPV6_GOOGLE_ACCESS_BIDIRECTIONAL"Access - The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4)
- service
External Property MapIps Config - ServiceExternalIPsConfig specifies if services with externalIPs field are blocked or not.
NetworkConfigDatapathProvider, NetworkConfigDatapathProviderArgs
- Datapath
Provider Unspecified - DATAPATH_PROVIDER_UNSPECIFIEDDefault value.
- Legacy
Datapath - LEGACY_DATAPATHUse the IPTables implementation based on kube-proxy.
- Advanced
Datapath - ADVANCED_DATAPATHUse the eBPF based GKE Dataplane V2 with additional features. See the GKE Dataplane V2 documentation for more.
- Network
Config Datapath Provider Datapath Provider Unspecified - DATAPATH_PROVIDER_UNSPECIFIEDDefault value.
- Network
Config Datapath Provider Legacy Datapath - LEGACY_DATAPATHUse the IPTables implementation based on kube-proxy.
- Network
Config Datapath Provider Advanced Datapath - ADVANCED_DATAPATHUse the eBPF based GKE Dataplane V2 with additional features. See the GKE Dataplane V2 documentation for more.
- Datapath
Provider Unspecified - DATAPATH_PROVIDER_UNSPECIFIEDDefault value.
- Legacy
Datapath - LEGACY_DATAPATHUse the IPTables implementation based on kube-proxy.
- Advanced
Datapath - ADVANCED_DATAPATHUse the eBPF based GKE Dataplane V2 with additional features. See the GKE Dataplane V2 documentation for more.
- Datapath
Provider Unspecified - DATAPATH_PROVIDER_UNSPECIFIEDDefault value.
- Legacy
Datapath - LEGACY_DATAPATHUse the IPTables implementation based on kube-proxy.
- Advanced
Datapath - ADVANCED_DATAPATHUse the eBPF based GKE Dataplane V2 with additional features. See the GKE Dataplane V2 documentation for more.
- DATAPATH_PROVIDER_UNSPECIFIED
- DATAPATH_PROVIDER_UNSPECIFIEDDefault value.
- LEGACY_DATAPATH
- LEGACY_DATAPATHUse the IPTables implementation based on kube-proxy.
- ADVANCED_DATAPATH
- ADVANCED_DATAPATHUse the eBPF based GKE Dataplane V2 with additional features. See the GKE Dataplane V2 documentation for more.
- "DATAPATH_PROVIDER_UNSPECIFIED"
- DATAPATH_PROVIDER_UNSPECIFIEDDefault value.
- "LEGACY_DATAPATH"
- LEGACY_DATAPATHUse the IPTables implementation based on kube-proxy.
- "ADVANCED_DATAPATH"
- ADVANCED_DATAPATHUse the eBPF based GKE Dataplane V2 with additional features. See the GKE Dataplane V2 documentation for more.
NetworkConfigPrivateIpv6GoogleAccess, NetworkConfigPrivateIpv6GoogleAccessArgs
- Private
Ipv6Google Access Unspecified - PRIVATE_IPV6_GOOGLE_ACCESS_UNSPECIFIEDDefault value. Same as DISABLED
- Private
Ipv6Google Access Disabled - PRIVATE_IPV6_GOOGLE_ACCESS_DISABLEDNo private access to or from Google Services
- Private
Ipv6Google Access To Google - PRIVATE_IPV6_GOOGLE_ACCESS_TO_GOOGLEEnables private IPv6 access to Google Services from GKE
- Private
Ipv6Google Access Bidirectional - PRIVATE_IPV6_GOOGLE_ACCESS_BIDIRECTIONALEnables private IPv6 access to and from Google Services
- Network
Config Private Ipv6Google Access Private Ipv6Google Access Unspecified - PRIVATE_IPV6_GOOGLE_ACCESS_UNSPECIFIEDDefault value. Same as DISABLED
- Network
Config Private Ipv6Google Access Private Ipv6Google Access Disabled - PRIVATE_IPV6_GOOGLE_ACCESS_DISABLEDNo private access to or from Google Services
- Network
Config Private Ipv6Google Access Private Ipv6Google Access To Google - PRIVATE_IPV6_GOOGLE_ACCESS_TO_GOOGLEEnables private IPv6 access to Google Services from GKE
- Network
Config Private Ipv6Google Access Private Ipv6Google Access Bidirectional - PRIVATE_IPV6_GOOGLE_ACCESS_BIDIRECTIONALEnables private IPv6 access to and from Google Services
- Private
Ipv6Google Access Unspecified - PRIVATE_IPV6_GOOGLE_ACCESS_UNSPECIFIEDDefault value. Same as DISABLED
- Private
Ipv6Google Access Disabled - PRIVATE_IPV6_GOOGLE_ACCESS_DISABLEDNo private access to or from Google Services
- Private
Ipv6Google Access To Google - PRIVATE_IPV6_GOOGLE_ACCESS_TO_GOOGLEEnables private IPv6 access to Google Services from GKE
- Private
Ipv6Google Access Bidirectional - PRIVATE_IPV6_GOOGLE_ACCESS_BIDIRECTIONALEnables private IPv6 access to and from Google Services
- Private
Ipv6Google Access Unspecified - PRIVATE_IPV6_GOOGLE_ACCESS_UNSPECIFIEDDefault value. Same as DISABLED
- Private
Ipv6Google Access Disabled - PRIVATE_IPV6_GOOGLE_ACCESS_DISABLEDNo private access to or from Google Services
- Private
Ipv6Google Access To Google - PRIVATE_IPV6_GOOGLE_ACCESS_TO_GOOGLEEnables private IPv6 access to Google Services from GKE
- Private
Ipv6Google Access Bidirectional - PRIVATE_IPV6_GOOGLE_ACCESS_BIDIRECTIONALEnables private IPv6 access to and from Google Services
- PRIVATE_IPV6_GOOGLE_ACCESS_UNSPECIFIED
- PRIVATE_IPV6_GOOGLE_ACCESS_UNSPECIFIEDDefault value. Same as DISABLED
- PRIVATE_IPV6_GOOGLE_ACCESS_DISABLED
- PRIVATE_IPV6_GOOGLE_ACCESS_DISABLEDNo private access to or from Google Services
- PRIVATE_IPV6_GOOGLE_ACCESS_TO_GOOGLE
- PRIVATE_IPV6_GOOGLE_ACCESS_TO_GOOGLEEnables private IPv6 access to Google Services from GKE
- PRIVATE_IPV6_GOOGLE_ACCESS_BIDIRECTIONAL
- PRIVATE_IPV6_GOOGLE_ACCESS_BIDIRECTIONALEnables private IPv6 access to and from Google Services
- "PRIVATE_IPV6_GOOGLE_ACCESS_UNSPECIFIED"
- PRIVATE_IPV6_GOOGLE_ACCESS_UNSPECIFIEDDefault value. Same as DISABLED
- "PRIVATE_IPV6_GOOGLE_ACCESS_DISABLED"
- PRIVATE_IPV6_GOOGLE_ACCESS_DISABLEDNo private access to or from Google Services
- "PRIVATE_IPV6_GOOGLE_ACCESS_TO_GOOGLE"
- PRIVATE_IPV6_GOOGLE_ACCESS_TO_GOOGLEEnables private IPv6 access to Google Services from GKE
- "PRIVATE_IPV6_GOOGLE_ACCESS_BIDIRECTIONAL"
- PRIVATE_IPV6_GOOGLE_ACCESS_BIDIRECTIONALEnables private IPv6 access to and from Google Services
NetworkConfigResponse, NetworkConfigResponseArgs
- Datapath
Provider string - The desired datapath provider for this cluster. By default, uses the IPTables-based kube-proxy implementation.
- Default
Snat Pulumi.Status Google Native. Container. V1. Inputs. Default Snat Status Response - Whether the cluster disables default in-node sNAT rules. In-node sNAT rules will be disabled when default_snat_status is disabled. When disabled is set to false, default IP masquerade rules will be applied to the nodes to prevent sNAT on cluster internal traffic.
- Dns
Config Pulumi.Google Native. Container. V1. Inputs. DNSConfig Response - DNSConfig contains clusterDNS config for this cluster.
- Enable
Fqdn boolNetwork Policy - Whether FQDN Network Policy is enabled on this cluster.
- Enable
Intra boolNode Visibility - Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
- Enable
L4ilb boolSubsetting - Whether L4ILB Subsetting is enabled for this cluster.
- Enable
Multi boolNetworking - Whether multi-networking is enabled for this cluster.
- Gateway
Api Pulumi.Config Google Native. Container. V1. Inputs. Gateway APIConfig Response - GatewayAPIConfig contains the desired config of Gateway API on this cluster.
- Network string
- The relative name of the Google Compute Engine network(https://cloud.google.com/compute/docs/networks-and-firewalls#networks) to which the cluster is connected. Example: projects/my-project/global/networks/my-network
- Network
Performance Pulumi.Config Google Native. Container. V1. Inputs. Cluster Network Performance Config Response - Network bandwidth tier configuration.
- Private
Ipv6Google stringAccess - The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4)
- Service
External Pulumi.Ips Config Google Native. Container. V1. Inputs. Service External IPs Config Response - ServiceExternalIPsConfig specifies if services with externalIPs field are blocked or not.
- Subnetwork string
- The relative name of the Google Compute Engine subnetwork to which the cluster is connected. Example: projects/my-project/regions/us-central1/subnetworks/my-subnet
- Datapath
Provider string - The desired datapath provider for this cluster. By default, uses the IPTables-based kube-proxy implementation.
- Default
Snat DefaultStatus Snat Status Response - Whether the cluster disables default in-node sNAT rules. In-node sNAT rules will be disabled when default_snat_status is disabled. When disabled is set to false, default IP masquerade rules will be applied to the nodes to prevent sNAT on cluster internal traffic.
- Dns
Config DNSConfigResponse - DNSConfig contains clusterDNS config for this cluster.
- Enable
Fqdn boolNetwork Policy - Whether FQDN Network Policy is enabled on this cluster.
- Enable
Intra boolNode Visibility - Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
- Enable
L4ilb boolSubsetting - Whether L4ILB Subsetting is enabled for this cluster.
- Enable
Multi boolNetworking - Whether multi-networking is enabled for this cluster.
- Gateway
Api GatewayConfig APIConfig Response - GatewayAPIConfig contains the desired config of Gateway API on this cluster.
- Network string
- The relative name of the Google Compute Engine network(https://cloud.google.com/compute/docs/networks-and-firewalls#networks) to which the cluster is connected. Example: projects/my-project/global/networks/my-network
- Network
Performance ClusterConfig Network Performance Config Response - Network bandwidth tier configuration.
- Private
Ipv6Google stringAccess - The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4)
- Service
External ServiceIps Config External IPs Config Response - ServiceExternalIPsConfig specifies if services with externalIPs field are blocked or not.
- Subnetwork string
- The relative name of the Google Compute Engine subnetwork to which the cluster is connected. Example: projects/my-project/regions/us-central1/subnetworks/my-subnet
- datapath
Provider String - The desired datapath provider for this cluster. By default, uses the IPTables-based kube-proxy implementation.
- default
Snat DefaultStatus Snat Status Response - Whether the cluster disables default in-node sNAT rules. In-node sNAT rules will be disabled when default_snat_status is disabled. When disabled is set to false, default IP masquerade rules will be applied to the nodes to prevent sNAT on cluster internal traffic.
- dns
Config DNSConfigResponse - DNSConfig contains clusterDNS config for this cluster.
- enable
Fqdn BooleanNetwork Policy - Whether FQDN Network Policy is enabled on this cluster.
- enable
Intra BooleanNode Visibility - Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
- enable
L4ilb BooleanSubsetting - Whether L4ILB Subsetting is enabled for this cluster.
- enable
Multi BooleanNetworking - Whether multi-networking is enabled for this cluster.
- gateway
Api GatewayConfig APIConfig Response - GatewayAPIConfig contains the desired config of Gateway API on this cluster.
- network String
- The relative name of the Google Compute Engine network(https://cloud.google.com/compute/docs/networks-and-firewalls#networks) to which the cluster is connected. Example: projects/my-project/global/networks/my-network
- network
Performance ClusterConfig Network Performance Config Response - Network bandwidth tier configuration.
- private
Ipv6Google StringAccess - The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4)
- service
External ServiceIps Config External IPs Config Response - ServiceExternalIPsConfig specifies if services with externalIPs field are blocked or not.
- subnetwork String
- The relative name of the Google Compute Engine subnetwork to which the cluster is connected. Example: projects/my-project/regions/us-central1/subnetworks/my-subnet
- datapath
Provider string - The desired datapath provider for this cluster. By default, uses the IPTables-based kube-proxy implementation.
- default
Snat DefaultStatus Snat Status Response - Whether the cluster disables default in-node sNAT rules. In-node sNAT rules will be disabled when default_snat_status is disabled. When disabled is set to false, default IP masquerade rules will be applied to the nodes to prevent sNAT on cluster internal traffic.
- dns
Config DNSConfigResponse - DNSConfig contains clusterDNS config for this cluster.
- enable
Fqdn booleanNetwork Policy - Whether FQDN Network Policy is enabled on this cluster.
- enable
Intra booleanNode Visibility - Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
- enable
L4ilb booleanSubsetting - Whether L4ILB Subsetting is enabled for this cluster.
- enable
Multi booleanNetworking - Whether multi-networking is enabled for this cluster.
- gateway
Api GatewayConfig APIConfig Response - GatewayAPIConfig contains the desired config of Gateway API on this cluster.
- network string
- The relative name of the Google Compute Engine network(https://cloud.google.com/compute/docs/networks-and-firewalls#networks) to which the cluster is connected. Example: projects/my-project/global/networks/my-network
- network
Performance ClusterConfig Network Performance Config Response - Network bandwidth tier configuration.
- private
Ipv6Google stringAccess - The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4)
- service
External ServiceIps Config External IPs Config Response - ServiceExternalIPsConfig specifies if services with externalIPs field are blocked or not.
- subnetwork string
- The relative name of the Google Compute Engine subnetwork to which the cluster is connected. Example: projects/my-project/regions/us-central1/subnetworks/my-subnet
- datapath_
provider str - The desired datapath provider for this cluster. By default, uses the IPTables-based kube-proxy implementation.
- default_
snat_ Defaultstatus Snat Status Response - Whether the cluster disables default in-node sNAT rules. In-node sNAT rules will be disabled when default_snat_status is disabled. When disabled is set to false, default IP masquerade rules will be applied to the nodes to prevent sNAT on cluster internal traffic.
- dns_
config DNSConfigResponse - DNSConfig contains clusterDNS config for this cluster.
- enable_
fqdn_ boolnetwork_ policy - Whether FQDN Network Policy is enabled on this cluster.
- enable_
intra_ boolnode_ visibility - Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
- enable_
l4ilb_ boolsubsetting - Whether L4ILB Subsetting is enabled for this cluster.
- enable_
multi_ boolnetworking - Whether multi-networking is enabled for this cluster.
- gateway_
api_ Gatewayconfig APIConfig Response - GatewayAPIConfig contains the desired config of Gateway API on this cluster.
- network str
- The relative name of the Google Compute Engine network(https://cloud.google.com/compute/docs/networks-and-firewalls#networks) to which the cluster is connected. Example: projects/my-project/global/networks/my-network
- network_
performance_ Clusterconfig Network Performance Config Response - Network bandwidth tier configuration.
- private_
ipv6_ strgoogle_ access - The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4)
- service_
external_ Serviceips_ config External IPs Config Response - ServiceExternalIPsConfig specifies if services with externalIPs field are blocked or not.
- subnetwork str
- The relative name of the Google Compute Engine subnetwork to which the cluster is connected. Example: projects/my-project/regions/us-central1/subnetworks/my-subnet
- datapath
Provider String - The desired datapath provider for this cluster. By default, uses the IPTables-based kube-proxy implementation.
- default
Snat Property MapStatus - Whether the cluster disables default in-node sNAT rules. In-node sNAT rules will be disabled when default_snat_status is disabled. When disabled is set to false, default IP masquerade rules will be applied to the nodes to prevent sNAT on cluster internal traffic.
- dns
Config Property Map - DNSConfig contains clusterDNS config for this cluster.
- enable
Fqdn BooleanNetwork Policy - Whether FQDN Network Policy is enabled on this cluster.
- enable
Intra BooleanNode Visibility - Whether Intra-node visibility is enabled for this cluster. This makes same node pod to pod traffic visible for VPC network.
- enable
L4ilb BooleanSubsetting - Whether L4ILB Subsetting is enabled for this cluster.
- enable
Multi BooleanNetworking - Whether multi-networking is enabled for this cluster.
- gateway
Api Property MapConfig - GatewayAPIConfig contains the desired config of Gateway API on this cluster.
- network String
- The relative name of the Google Compute Engine network(https://cloud.google.com/compute/docs/networks-and-firewalls#networks) to which the cluster is connected. Example: projects/my-project/global/networks/my-network
- network
Performance Property MapConfig - Network bandwidth tier configuration.
- private
Ipv6Google StringAccess - The desired state of IPv6 connectivity to Google Services. By default, no private IPv6 access to or from Google Services (all access will be via IPv4)
- service
External Property MapIps Config - ServiceExternalIPsConfig specifies if services with externalIPs field are blocked or not.
- subnetwork String
- The relative name of the Google Compute Engine subnetwork to which the cluster is connected. Example: projects/my-project/regions/us-central1/subnetworks/my-subnet
NetworkPerformanceConfig, NetworkPerformanceConfigArgs
- Total
Egress Pulumi.Bandwidth Tier Google Native. Container. V1. Network Performance Config Total Egress Bandwidth Tier - Specifies the total network bandwidth tier for the NodePool.
- Total
Egress NetworkBandwidth Tier Performance Config Total Egress Bandwidth Tier - Specifies the total network bandwidth tier for the NodePool.
- total
Egress NetworkBandwidth Tier Performance Config Total Egress Bandwidth Tier - Specifies the total network bandwidth tier for the NodePool.
- total
Egress NetworkBandwidth Tier Performance Config Total Egress Bandwidth Tier - Specifies the total network bandwidth tier for the NodePool.
- total_
egress_ Networkbandwidth_ tier Performance Config Total Egress Bandwidth Tier - Specifies the total network bandwidth tier for the NodePool.
- total
Egress "TIER_UNSPECIFIED" | "TIER_1"Bandwidth Tier - Specifies the total network bandwidth tier for the NodePool.
NetworkPerformanceConfigResponse, NetworkPerformanceConfigResponseArgs
- Total
Egress stringBandwidth Tier - Specifies the total network bandwidth tier for the NodePool.
- Total
Egress stringBandwidth Tier - Specifies the total network bandwidth tier for the NodePool.
- total
Egress StringBandwidth Tier - Specifies the total network bandwidth tier for the NodePool.
- total
Egress stringBandwidth Tier - Specifies the total network bandwidth tier for the NodePool.
- total_
egress_ strbandwidth_ tier - Specifies the total network bandwidth tier for the NodePool.
- total
Egress StringBandwidth Tier - Specifies the total network bandwidth tier for the NodePool.
NetworkPerformanceConfigTotalEgressBandwidthTier, NetworkPerformanceConfigTotalEgressBandwidthTierArgs
- Tier
Unspecified - TIER_UNSPECIFIEDDefault value
- Tier1
- TIER_1Higher bandwidth, actual values based on VM size.
- Network
Performance Config Total Egress Bandwidth Tier Tier Unspecified - TIER_UNSPECIFIEDDefault value
- Network
Performance Config Total Egress Bandwidth Tier Tier1 - TIER_1Higher bandwidth, actual values based on VM size.
- Tier
Unspecified - TIER_UNSPECIFIEDDefault value
- Tier1
- TIER_1Higher bandwidth, actual values based on VM size.
- Tier
Unspecified - TIER_UNSPECIFIEDDefault value
- Tier1
- TIER_1Higher bandwidth, actual values based on VM size.
- TIER_UNSPECIFIED
- TIER_UNSPECIFIEDDefault value
- TIER1
- TIER_1Higher bandwidth, actual values based on VM size.
- "TIER_UNSPECIFIED"
- TIER_UNSPECIFIEDDefault value
- "TIER_1"
- TIER_1Higher bandwidth, actual values based on VM size.
NetworkPolicy, NetworkPolicyArgs
- Enabled bool
- Whether network policy is enabled on the cluster.
- Provider
Pulumi.
Google Native. Container. V1. Network Policy Provider - The selected network policy provider.
- Enabled bool
- Whether network policy is enabled on the cluster.
- Provider
Network
Policy Provider - The selected network policy provider.
- enabled Boolean
- Whether network policy is enabled on the cluster.
- provider
Network
Policy Provider - The selected network policy provider.
- enabled boolean
- Whether network policy is enabled on the cluster.
- provider
Network
Policy Provider - The selected network policy provider.
- enabled bool
- Whether network policy is enabled on the cluster.
- provider
Network
Policy Provider - The selected network policy provider.
- enabled Boolean
- Whether network policy is enabled on the cluster.
- provider "PROVIDER_UNSPECIFIED" | "CALICO"
- The selected network policy provider.
NetworkPolicyConfig, NetworkPolicyConfigArgs
- Disabled bool
- Whether NetworkPolicy is enabled for this cluster.
- Disabled bool
- Whether NetworkPolicy is enabled for this cluster.
- disabled Boolean
- Whether NetworkPolicy is enabled for this cluster.
- disabled boolean
- Whether NetworkPolicy is enabled for this cluster.
- disabled bool
- Whether NetworkPolicy is enabled for this cluster.
- disabled Boolean
- Whether NetworkPolicy is enabled for this cluster.
NetworkPolicyConfigResponse, NetworkPolicyConfigResponseArgs
- Disabled bool
- Whether NetworkPolicy is enabled for this cluster.
- Disabled bool
- Whether NetworkPolicy is enabled for this cluster.
- disabled Boolean
- Whether NetworkPolicy is enabled for this cluster.
- disabled boolean
- Whether NetworkPolicy is enabled for this cluster.
- disabled bool
- Whether NetworkPolicy is enabled for this cluster.
- disabled Boolean
- Whether NetworkPolicy is enabled for this cluster.
NetworkPolicyProvider, NetworkPolicyProviderArgs
- Provider
Unspecified - PROVIDER_UNSPECIFIEDNot set
- Calico
- CALICOTigera (Calico Felix).
- Network
Policy Provider Provider Unspecified - PROVIDER_UNSPECIFIEDNot set
- Network
Policy Provider Calico - CALICOTigera (Calico Felix).
- Provider
Unspecified - PROVIDER_UNSPECIFIEDNot set
- Calico
- CALICOTigera (Calico Felix).
- Provider
Unspecified - PROVIDER_UNSPECIFIEDNot set
- Calico
- CALICOTigera (Calico Felix).
- PROVIDER_UNSPECIFIED
- PROVIDER_UNSPECIFIEDNot set
- CALICO
- CALICOTigera (Calico Felix).
- "PROVIDER_UNSPECIFIED"
- PROVIDER_UNSPECIFIEDNot set
- "CALICO"
- CALICOTigera (Calico Felix).
NetworkPolicyResponse, NetworkPolicyResponseArgs
NetworkTags, NetworkTagsArgs
- List<string>
- List of network tags.
- []string
- List of network tags.
- List<String>
- List of network tags.
- string[]
- List of network tags.
- Sequence[str]
- List of network tags.
- List<String>
- List of network tags.
NetworkTagsResponse, NetworkTagsResponseArgs
- List<string>
- List of network tags.
- []string
- List of network tags.
- List<String>
- List of network tags.
- string[]
- List of network tags.
- Sequence[str]
- List of network tags.
- List<String>
- List of network tags.
NodeAffinity, NodeAffinityArgs
- Key string
- Key for NodeAffinity.
- Operator
Pulumi.
Google Native. Container. V1. Node Affinity Operator - Operator for NodeAffinity.
- Values List<string>
- Values for NodeAffinity.
- Key string
- Key for NodeAffinity.
- Operator
Node
Affinity Operator - Operator for NodeAffinity.
- Values []string
- Values for NodeAffinity.
- key String
- Key for NodeAffinity.
- operator
Node
Affinity Operator - Operator for NodeAffinity.
- values List<String>
- Values for NodeAffinity.
- key string
- Key for NodeAffinity.
- operator
Node
Affinity Operator - Operator for NodeAffinity.
- values string[]
- Values for NodeAffinity.
- key str
- Key for NodeAffinity.
- operator
Node
Affinity Operator - Operator for NodeAffinity.
- values Sequence[str]
- Values for NodeAffinity.
- key String
- Key for NodeAffinity.
- operator "OPERATOR_UNSPECIFIED" | "IN" | "NOT_IN"
- Operator for NodeAffinity.
- values List<String>
- Values for NodeAffinity.
NodeAffinityOperator, NodeAffinityOperatorArgs
- Operator
Unspecified - OPERATOR_UNSPECIFIEDInvalid or unspecified affinity operator.
- In
- INAffinity operator.
- Not
In - NOT_INAnti-affinity operator.
- Node
Affinity Operator Operator Unspecified - OPERATOR_UNSPECIFIEDInvalid or unspecified affinity operator.
- Node
Affinity Operator In - INAffinity operator.
- Node
Affinity Operator Not In - NOT_INAnti-affinity operator.
- Operator
Unspecified - OPERATOR_UNSPECIFIEDInvalid or unspecified affinity operator.
- In
- INAffinity operator.
- Not
In - NOT_INAnti-affinity operator.
- Operator
Unspecified - OPERATOR_UNSPECIFIEDInvalid or unspecified affinity operator.
- In
- INAffinity operator.
- Not
In - NOT_INAnti-affinity operator.
- OPERATOR_UNSPECIFIED
- OPERATOR_UNSPECIFIEDInvalid or unspecified affinity operator.
- IN_
- INAffinity operator.
- NOT_IN
- NOT_INAnti-affinity operator.
- "OPERATOR_UNSPECIFIED"
- OPERATOR_UNSPECIFIEDInvalid or unspecified affinity operator.
- "IN"
- INAffinity operator.
- "NOT_IN"
- NOT_INAnti-affinity operator.
NodeAffinityResponse, NodeAffinityResponseArgs
NodeConfig, NodeConfigArgs
- Accelerators
List<Pulumi.
Google Native. Container. V1. Inputs. Accelerator Config> - A list of hardware accelerators to be attached to each node. See https://cloud.google.com/compute/docs/gpus for more information about support for GPUs.
- Advanced
Machine Pulumi.Features Google Native. Container. V1. Inputs. Advanced Machine Features - Advanced features for the Compute Engine VM.
- Boot
Disk stringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- Confidential
Nodes Pulumi.Google Native. Container. V1. Inputs. Confidential Nodes - Confidential nodes config. All the nodes in the node pool will be Confidential VM once enabled.
- Disk
Size intGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- Disk
Type string - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- Ephemeral
Storage Pulumi.Local Ssd Config Google Native. Container. V1. Inputs. Ephemeral Storage Local Ssd Config - Parameters for the node ephemeral storage using Local SSDs. If unspecified, ephemeral storage is backed by the boot disk.
- Fast
Socket Pulumi.Google Native. Container. V1. Inputs. Fast Socket - Enable or disable NCCL fast socket for the node pool.
- Gcfs
Config Pulumi.Google Native. Container. V1. Inputs. Gcfs Config - Google Container File System (image streaming) configs.
- Gvnic
Pulumi.
Google Native. Container. V1. Inputs. Virtual NIC - Enable or disable gvnic in the node pool.
- Image
Type string - The image type to use for this node. Note that for a given image type, the latest version of it will be used. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- Kubelet
Config Pulumi.Google Native. Container. V1. Inputs. Node Kubelet Config - Node kubelet configs.
- Labels Dictionary<string, string>
- The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it's best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
- Linux
Node Pulumi.Config Google Native. Container. V1. Inputs. Linux Node Config - Parameters that can be configured on Linux nodes.
- Local
Nvme Pulumi.Ssd Block Config Google Native. Container. V1. Inputs. Local Nvme Ssd Block Config - Parameters for using raw-block Local NVMe SSDs.
- Local
Ssd intCount - The number of local SSD disks to be attached to the node. The limit for this value is dependent upon the maximum number of disks available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information.
- Logging
Config Pulumi.Google Native. Container. V1. Inputs. Node Pool Logging Config - Logging configuration.
- Machine
Type string - The name of a Google Compute Engine machine type If unspecified, the default machine type is
e2-medium
. - Metadata Dictionary<string, string>
- The metadata key/value pairs assigned to instances in the cluster. Keys must conform to the regexp
[a-zA-Z0-9-_]+
and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the reserved keys: - "cluster-location" - "cluster-name" - "cluster-uid" - "configure-sh" - "containerd-configure-sh" - "enable-os-login" - "gci-ensure-gke-docker" - "gci-metrics-enabled" - "gci-update-strategy" - "instance-template" - "kube-env" - "startup-script" - "user-data" - "disable-address-manager" - "windows-startup-script-ps1" - "common-psm1" - "k8s-node-setup-psm1" - "install-ssh-psm1" - "user-profile-psm1" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value's size must be less than or equal to 32 KB. The total size of all keys and values must be less than 512 KB. - Min
Cpu stringPlatform - Minimum CPU platform to be used by this instance. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as
minCpuPlatform: "Intel Haswell"
orminCpuPlatform: "Intel Sandy Bridge"
. For more information, read how to specify min CPU platform - Node
Group string - Setting this field will assign instances of this pool to run on the specified node group. This is useful for running workloads on sole tenant nodes.
- Oauth
Scopes List<string> - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. The following scopes are recommended, but not required, and by default are not included: *
https://www.googleapis.com/auth/compute
is required for mounting persistent storage on your nodes. *https://www.googleapis.com/auth/devstorage.read_only
is required for communicating with gcr.io (the Google Container Registry). If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. - Preemptible bool
- Whether the nodes are created as preemptible VM instances. See: https://cloud.google.com/compute/docs/instances/preemptible for more information about preemptible VM instances.
- Reservation
Affinity Pulumi.Google Native. Container. V1. Inputs. Reservation Affinity - The optional reservation affinity. Setting this field will apply the specified Zonal Compute Reservation to this node pool.
- Resource
Labels Dictionary<string, string> - The resource labels for the node pool to use to annotate any related Google Compute Engine resources.
- Pulumi.
Google Native. Container. V1. Inputs. Resource Manager Tags - A map of resource manager tag keys and values to be attached to the nodes.
- Sandbox
Config Pulumi.Google Native. Container. V1. Inputs. Sandbox Config - Sandbox configuration for this node.
- Service
Account string - The Google Cloud Platform Service Account to be used by the node VMs. Specify the email address of the Service Account; otherwise, if no Service Account is specified, the "default" service account is used.
- Shielded
Instance Pulumi.Config Google Native. Container. V1. Inputs. Shielded Instance Config - Shielded Instance options.
- Sole
Tenant Pulumi.Config Google Native. Container. V1. Inputs. Sole Tenant Config - Parameters for node pools to be backed by shared sole tenant node groups.
- Spot bool
- Spot flag for enabling Spot VM, which is a rebrand of the existing preemptible flag.
- List<string>
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035.
- Taints
List<Pulumi.
Google Native. Container. V1. Inputs. Node Taint> - List of kubernetes taints to be applied to each node. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
- Windows
Node Pulumi.Config Google Native. Container. V1. Inputs. Windows Node Config - Parameters that can be configured on Windows nodes.
- Workload
Metadata Pulumi.Config Google Native. Container. V1. Inputs. Workload Metadata Config - The workload metadata configuration for this node.
- Accelerators
[]Accelerator
Config - A list of hardware accelerators to be attached to each node. See https://cloud.google.com/compute/docs/gpus for more information about support for GPUs.
- Advanced
Machine AdvancedFeatures Machine Features - Advanced features for the Compute Engine VM.
- Boot
Disk stringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- Confidential
Nodes ConfidentialNodes - Confidential nodes config. All the nodes in the node pool will be Confidential VM once enabled.
- Disk
Size intGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- Disk
Type string - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- Ephemeral
Storage EphemeralLocal Ssd Config Storage Local Ssd Config - Parameters for the node ephemeral storage using Local SSDs. If unspecified, ephemeral storage is backed by the boot disk.
- Fast
Socket FastSocket - Enable or disable NCCL fast socket for the node pool.
- Gcfs
Config GcfsConfig - Google Container File System (image streaming) configs.
- Gvnic
Virtual
NIC - Enable or disable gvnic in the node pool.
- Image
Type string - The image type to use for this node. Note that for a given image type, the latest version of it will be used. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- Kubelet
Config NodeKubelet Config - Node kubelet configs.
- Labels map[string]string
- The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it's best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
- Linux
Node LinuxConfig Node Config - Parameters that can be configured on Linux nodes.
- Local
Nvme LocalSsd Block Config Nvme Ssd Block Config - Parameters for using raw-block Local NVMe SSDs.
- Local
Ssd intCount - The number of local SSD disks to be attached to the node. The limit for this value is dependent upon the maximum number of disks available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information.
- Logging
Config NodePool Logging Config - Logging configuration.
- Machine
Type string - The name of a Google Compute Engine machine type If unspecified, the default machine type is
e2-medium
. - Metadata map[string]string
- The metadata key/value pairs assigned to instances in the cluster. Keys must conform to the regexp
[a-zA-Z0-9-_]+
and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the reserved keys: - "cluster-location" - "cluster-name" - "cluster-uid" - "configure-sh" - "containerd-configure-sh" - "enable-os-login" - "gci-ensure-gke-docker" - "gci-metrics-enabled" - "gci-update-strategy" - "instance-template" - "kube-env" - "startup-script" - "user-data" - "disable-address-manager" - "windows-startup-script-ps1" - "common-psm1" - "k8s-node-setup-psm1" - "install-ssh-psm1" - "user-profile-psm1" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value's size must be less than or equal to 32 KB. The total size of all keys and values must be less than 512 KB. - Min
Cpu stringPlatform - Minimum CPU platform to be used by this instance. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as
minCpuPlatform: "Intel Haswell"
orminCpuPlatform: "Intel Sandy Bridge"
. For more information, read how to specify min CPU platform - Node
Group string - Setting this field will assign instances of this pool to run on the specified node group. This is useful for running workloads on sole tenant nodes.
- Oauth
Scopes []string - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. The following scopes are recommended, but not required, and by default are not included: *
https://www.googleapis.com/auth/compute
is required for mounting persistent storage on your nodes. *https://www.googleapis.com/auth/devstorage.read_only
is required for communicating with gcr.io (the Google Container Registry). If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. - Preemptible bool
- Whether the nodes are created as preemptible VM instances. See: https://cloud.google.com/compute/docs/instances/preemptible for more information about preemptible VM instances.
- Reservation
Affinity ReservationAffinity - The optional reservation affinity. Setting this field will apply the specified Zonal Compute Reservation to this node pool.
- Resource
Labels map[string]string - The resource labels for the node pool to use to annotate any related Google Compute Engine resources.
- Resource
Manager Tags - A map of resource manager tag keys and values to be attached to the nodes.
- Sandbox
Config SandboxConfig - Sandbox configuration for this node.
- Service
Account string - The Google Cloud Platform Service Account to be used by the node VMs. Specify the email address of the Service Account; otherwise, if no Service Account is specified, the "default" service account is used.
- Shielded
Instance ShieldedConfig Instance Config - Shielded Instance options.
- Sole
Tenant SoleConfig Tenant Config - Parameters for node pools to be backed by shared sole tenant node groups.
- Spot bool
- Spot flag for enabling Spot VM, which is a rebrand of the existing preemptible flag.
- []string
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035.
- Taints
[]Node
Taint - List of kubernetes taints to be applied to each node. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
- Windows
Node WindowsConfig Node Config - Parameters that can be configured on Windows nodes.
- Workload
Metadata WorkloadConfig Metadata Config - The workload metadata configuration for this node.
- accelerators
List<Accelerator
Config> - A list of hardware accelerators to be attached to each node. See https://cloud.google.com/compute/docs/gpus for more information about support for GPUs.
- advanced
Machine AdvancedFeatures Machine Features - Advanced features for the Compute Engine VM.
- boot
Disk StringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- confidential
Nodes ConfidentialNodes - Confidential nodes config. All the nodes in the node pool will be Confidential VM once enabled.
- disk
Size IntegerGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk
Type String - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- ephemeral
Storage EphemeralLocal Ssd Config Storage Local Ssd Config - Parameters for the node ephemeral storage using Local SSDs. If unspecified, ephemeral storage is backed by the boot disk.
- fast
Socket FastSocket - Enable or disable NCCL fast socket for the node pool.
- gcfs
Config GcfsConfig - Google Container File System (image streaming) configs.
- gvnic
Virtual
NIC - Enable or disable gvnic in the node pool.
- image
Type String - The image type to use for this node. Note that for a given image type, the latest version of it will be used. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- kubelet
Config NodeKubelet Config - Node kubelet configs.
- labels Map<String,String>
- The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it's best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
- linux
Node LinuxConfig Node Config - Parameters that can be configured on Linux nodes.
- local
Nvme LocalSsd Block Config Nvme Ssd Block Config - Parameters for using raw-block Local NVMe SSDs.
- local
Ssd IntegerCount - The number of local SSD disks to be attached to the node. The limit for this value is dependent upon the maximum number of disks available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information.
- logging
Config NodePool Logging Config - Logging configuration.
- machine
Type String - The name of a Google Compute Engine machine type If unspecified, the default machine type is
e2-medium
. - metadata Map<String,String>
- The metadata key/value pairs assigned to instances in the cluster. Keys must conform to the regexp
[a-zA-Z0-9-_]+
and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the reserved keys: - "cluster-location" - "cluster-name" - "cluster-uid" - "configure-sh" - "containerd-configure-sh" - "enable-os-login" - "gci-ensure-gke-docker" - "gci-metrics-enabled" - "gci-update-strategy" - "instance-template" - "kube-env" - "startup-script" - "user-data" - "disable-address-manager" - "windows-startup-script-ps1" - "common-psm1" - "k8s-node-setup-psm1" - "install-ssh-psm1" - "user-profile-psm1" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value's size must be less than or equal to 32 KB. The total size of all keys and values must be less than 512 KB. - min
Cpu StringPlatform - Minimum CPU platform to be used by this instance. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as
minCpuPlatform: "Intel Haswell"
orminCpuPlatform: "Intel Sandy Bridge"
. For more information, read how to specify min CPU platform - node
Group String - Setting this field will assign instances of this pool to run on the specified node group. This is useful for running workloads on sole tenant nodes.
- oauth
Scopes List<String> - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. The following scopes are recommended, but not required, and by default are not included: *
https://www.googleapis.com/auth/compute
is required for mounting persistent storage on your nodes. *https://www.googleapis.com/auth/devstorage.read_only
is required for communicating with gcr.io (the Google Container Registry). If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. - preemptible Boolean
- Whether the nodes are created as preemptible VM instances. See: https://cloud.google.com/compute/docs/instances/preemptible for more information about preemptible VM instances.
- reservation
Affinity ReservationAffinity - The optional reservation affinity. Setting this field will apply the specified Zonal Compute Reservation to this node pool.
- resource
Labels Map<String,String> - The resource labels for the node pool to use to annotate any related Google Compute Engine resources.
- Resource
Manager Tags - A map of resource manager tag keys and values to be attached to the nodes.
- sandbox
Config SandboxConfig - Sandbox configuration for this node.
- service
Account String - The Google Cloud Platform Service Account to be used by the node VMs. Specify the email address of the Service Account; otherwise, if no Service Account is specified, the "default" service account is used.
- shielded
Instance ShieldedConfig Instance Config - Shielded Instance options.
- sole
Tenant SoleConfig Tenant Config - Parameters for node pools to be backed by shared sole tenant node groups.
- spot Boolean
- Spot flag for enabling Spot VM, which is a rebrand of the existing preemptible flag.
- List<String>
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035.
- taints
List<Node
Taint> - List of kubernetes taints to be applied to each node. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
- windows
Node WindowsConfig Node Config - Parameters that can be configured on Windows nodes.
- workload
Metadata WorkloadConfig Metadata Config - The workload metadata configuration for this node.
- accelerators
Accelerator
Config[] - A list of hardware accelerators to be attached to each node. See https://cloud.google.com/compute/docs/gpus for more information about support for GPUs.
- advanced
Machine AdvancedFeatures Machine Features - Advanced features for the Compute Engine VM.
- boot
Disk stringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- confidential
Nodes ConfidentialNodes - Confidential nodes config. All the nodes in the node pool will be Confidential VM once enabled.
- disk
Size numberGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk
Type string - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- ephemeral
Storage EphemeralLocal Ssd Config Storage Local Ssd Config - Parameters for the node ephemeral storage using Local SSDs. If unspecified, ephemeral storage is backed by the boot disk.
- fast
Socket FastSocket - Enable or disable NCCL fast socket for the node pool.
- gcfs
Config GcfsConfig - Google Container File System (image streaming) configs.
- gvnic
Virtual
NIC - Enable or disable gvnic in the node pool.
- image
Type string - The image type to use for this node. Note that for a given image type, the latest version of it will be used. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- kubelet
Config NodeKubelet Config - Node kubelet configs.
- labels {[key: string]: string}
- The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it's best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
- linux
Node LinuxConfig Node Config - Parameters that can be configured on Linux nodes.
- local
Nvme LocalSsd Block Config Nvme Ssd Block Config - Parameters for using raw-block Local NVMe SSDs.
- local
Ssd numberCount - The number of local SSD disks to be attached to the node. The limit for this value is dependent upon the maximum number of disks available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information.
- logging
Config NodePool Logging Config - Logging configuration.
- machine
Type string - The name of a Google Compute Engine machine type If unspecified, the default machine type is
e2-medium
. - metadata {[key: string]: string}
- The metadata key/value pairs assigned to instances in the cluster. Keys must conform to the regexp
[a-zA-Z0-9-_]+
and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the reserved keys: - "cluster-location" - "cluster-name" - "cluster-uid" - "configure-sh" - "containerd-configure-sh" - "enable-os-login" - "gci-ensure-gke-docker" - "gci-metrics-enabled" - "gci-update-strategy" - "instance-template" - "kube-env" - "startup-script" - "user-data" - "disable-address-manager" - "windows-startup-script-ps1" - "common-psm1" - "k8s-node-setup-psm1" - "install-ssh-psm1" - "user-profile-psm1" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value's size must be less than or equal to 32 KB. The total size of all keys and values must be less than 512 KB. - min
Cpu stringPlatform - Minimum CPU platform to be used by this instance. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as
minCpuPlatform: "Intel Haswell"
orminCpuPlatform: "Intel Sandy Bridge"
. For more information, read how to specify min CPU platform - node
Group string - Setting this field will assign instances of this pool to run on the specified node group. This is useful for running workloads on sole tenant nodes.
- oauth
Scopes string[] - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. The following scopes are recommended, but not required, and by default are not included: *
https://www.googleapis.com/auth/compute
is required for mounting persistent storage on your nodes. *https://www.googleapis.com/auth/devstorage.read_only
is required for communicating with gcr.io (the Google Container Registry). If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. - preemptible boolean
- Whether the nodes are created as preemptible VM instances. See: https://cloud.google.com/compute/docs/instances/preemptible for more information about preemptible VM instances.
- reservation
Affinity ReservationAffinity - The optional reservation affinity. Setting this field will apply the specified Zonal Compute Reservation to this node pool.
- resource
Labels {[key: string]: string} - The resource labels for the node pool to use to annotate any related Google Compute Engine resources.
- Resource
Manager Tags - A map of resource manager tag keys and values to be attached to the nodes.
- sandbox
Config SandboxConfig - Sandbox configuration for this node.
- service
Account string - The Google Cloud Platform Service Account to be used by the node VMs. Specify the email address of the Service Account; otherwise, if no Service Account is specified, the "default" service account is used.
- shielded
Instance ShieldedConfig Instance Config - Shielded Instance options.
- sole
Tenant SoleConfig Tenant Config - Parameters for node pools to be backed by shared sole tenant node groups.
- spot boolean
- Spot flag for enabling Spot VM, which is a rebrand of the existing preemptible flag.
- string[]
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035.
- taints
Node
Taint[] - List of kubernetes taints to be applied to each node. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
- windows
Node WindowsConfig Node Config - Parameters that can be configured on Windows nodes.
- workload
Metadata WorkloadConfig Metadata Config - The workload metadata configuration for this node.
- accelerators
Sequence[Accelerator
Config] - A list of hardware accelerators to be attached to each node. See https://cloud.google.com/compute/docs/gpus for more information about support for GPUs.
- advanced_
machine_ Advancedfeatures Machine Features - Advanced features for the Compute Engine VM.
- boot_
disk_ strkms_ key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- confidential_
nodes ConfidentialNodes - Confidential nodes config. All the nodes in the node pool will be Confidential VM once enabled.
- disk_
size_ intgb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk_
type str - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- ephemeral_
storage_ Ephemerallocal_ ssd_ config Storage Local Ssd Config - Parameters for the node ephemeral storage using Local SSDs. If unspecified, ephemeral storage is backed by the boot disk.
- fast_
socket FastSocket - Enable or disable NCCL fast socket for the node pool.
- gcfs_
config GcfsConfig - Google Container File System (image streaming) configs.
- gvnic
Virtual
NIC - Enable or disable gvnic in the node pool.
- image_
type str - The image type to use for this node. Note that for a given image type, the latest version of it will be used. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- kubelet_
config NodeKubelet Config - Node kubelet configs.
- labels Mapping[str, str]
- The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it's best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
- linux_
node_ Linuxconfig Node Config - Parameters that can be configured on Linux nodes.
- local_
nvme_ Localssd_ block_ config Nvme Ssd Block Config - Parameters for using raw-block Local NVMe SSDs.
- local_
ssd_ intcount - The number of local SSD disks to be attached to the node. The limit for this value is dependent upon the maximum number of disks available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information.
- logging_
config NodePool Logging Config - Logging configuration.
- machine_
type str - The name of a Google Compute Engine machine type If unspecified, the default machine type is
e2-medium
. - metadata Mapping[str, str]
- The metadata key/value pairs assigned to instances in the cluster. Keys must conform to the regexp
[a-zA-Z0-9-_]+
and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the reserved keys: - "cluster-location" - "cluster-name" - "cluster-uid" - "configure-sh" - "containerd-configure-sh" - "enable-os-login" - "gci-ensure-gke-docker" - "gci-metrics-enabled" - "gci-update-strategy" - "instance-template" - "kube-env" - "startup-script" - "user-data" - "disable-address-manager" - "windows-startup-script-ps1" - "common-psm1" - "k8s-node-setup-psm1" - "install-ssh-psm1" - "user-profile-psm1" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value's size must be less than or equal to 32 KB. The total size of all keys and values must be less than 512 KB. - min_
cpu_ strplatform - Minimum CPU platform to be used by this instance. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as
minCpuPlatform: "Intel Haswell"
orminCpuPlatform: "Intel Sandy Bridge"
. For more information, read how to specify min CPU platform - node_
group str - Setting this field will assign instances of this pool to run on the specified node group. This is useful for running workloads on sole tenant nodes.
- oauth_
scopes Sequence[str] - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. The following scopes are recommended, but not required, and by default are not included: *
https://www.googleapis.com/auth/compute
is required for mounting persistent storage on your nodes. *https://www.googleapis.com/auth/devstorage.read_only
is required for communicating with gcr.io (the Google Container Registry). If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. - preemptible bool
- Whether the nodes are created as preemptible VM instances. See: https://cloud.google.com/compute/docs/instances/preemptible for more information about preemptible VM instances.
- reservation_
affinity ReservationAffinity - The optional reservation affinity. Setting this field will apply the specified Zonal Compute Reservation to this node pool.
- resource_
labels Mapping[str, str] - The resource labels for the node pool to use to annotate any related Google Compute Engine resources.
- Resource
Manager Tags - A map of resource manager tag keys and values to be attached to the nodes.
- sandbox_
config SandboxConfig - Sandbox configuration for this node.
- service_
account str - The Google Cloud Platform Service Account to be used by the node VMs. Specify the email address of the Service Account; otherwise, if no Service Account is specified, the "default" service account is used.
- shielded_
instance_ Shieldedconfig Instance Config - Shielded Instance options.
- sole_
tenant_ Soleconfig Tenant Config - Parameters for node pools to be backed by shared sole tenant node groups.
- spot bool
- Spot flag for enabling Spot VM, which is a rebrand of the existing preemptible flag.
- Sequence[str]
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035.
- taints
Sequence[Node
Taint] - List of kubernetes taints to be applied to each node. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
- windows_
node_ Windowsconfig Node Config - Parameters that can be configured on Windows nodes.
- workload_
metadata_ Workloadconfig Metadata Config - The workload metadata configuration for this node.
- accelerators List<Property Map>
- A list of hardware accelerators to be attached to each node. See https://cloud.google.com/compute/docs/gpus for more information about support for GPUs.
- advanced
Machine Property MapFeatures - Advanced features for the Compute Engine VM.
- boot
Disk StringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- confidential
Nodes Property Map - Confidential nodes config. All the nodes in the node pool will be Confidential VM once enabled.
- disk
Size NumberGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk
Type String - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- ephemeral
Storage Property MapLocal Ssd Config - Parameters for the node ephemeral storage using Local SSDs. If unspecified, ephemeral storage is backed by the boot disk.
- fast
Socket Property Map - Enable or disable NCCL fast socket for the node pool.
- gcfs
Config Property Map - Google Container File System (image streaming) configs.
- gvnic Property Map
- Enable or disable gvnic in the node pool.
- image
Type String - The image type to use for this node. Note that for a given image type, the latest version of it will be used. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- kubelet
Config Property Map - Node kubelet configs.
- labels Map<String>
- The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it's best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
- linux
Node Property MapConfig - Parameters that can be configured on Linux nodes.
- local
Nvme Property MapSsd Block Config - Parameters for using raw-block Local NVMe SSDs.
- local
Ssd NumberCount - The number of local SSD disks to be attached to the node. The limit for this value is dependent upon the maximum number of disks available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information.
- logging
Config Property Map - Logging configuration.
- machine
Type String - The name of a Google Compute Engine machine type If unspecified, the default machine type is
e2-medium
. - metadata Map<String>
- The metadata key/value pairs assigned to instances in the cluster. Keys must conform to the regexp
[a-zA-Z0-9-_]+
and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the reserved keys: - "cluster-location" - "cluster-name" - "cluster-uid" - "configure-sh" - "containerd-configure-sh" - "enable-os-login" - "gci-ensure-gke-docker" - "gci-metrics-enabled" - "gci-update-strategy" - "instance-template" - "kube-env" - "startup-script" - "user-data" - "disable-address-manager" - "windows-startup-script-ps1" - "common-psm1" - "k8s-node-setup-psm1" - "install-ssh-psm1" - "user-profile-psm1" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value's size must be less than or equal to 32 KB. The total size of all keys and values must be less than 512 KB. - min
Cpu StringPlatform - Minimum CPU platform to be used by this instance. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as
minCpuPlatform: "Intel Haswell"
orminCpuPlatform: "Intel Sandy Bridge"
. For more information, read how to specify min CPU platform - node
Group String - Setting this field will assign instances of this pool to run on the specified node group. This is useful for running workloads on sole tenant nodes.
- oauth
Scopes List<String> - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. The following scopes are recommended, but not required, and by default are not included: *
https://www.googleapis.com/auth/compute
is required for mounting persistent storage on your nodes. *https://www.googleapis.com/auth/devstorage.read_only
is required for communicating with gcr.io (the Google Container Registry). If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. - preemptible Boolean
- Whether the nodes are created as preemptible VM instances. See: https://cloud.google.com/compute/docs/instances/preemptible for more information about preemptible VM instances.
- reservation
Affinity Property Map - The optional reservation affinity. Setting this field will apply the specified Zonal Compute Reservation to this node pool.
- resource
Labels Map<String> - The resource labels for the node pool to use to annotate any related Google Compute Engine resources.
- Property Map
- A map of resource manager tag keys and values to be attached to the nodes.
- sandbox
Config Property Map - Sandbox configuration for this node.
- service
Account String - The Google Cloud Platform Service Account to be used by the node VMs. Specify the email address of the Service Account; otherwise, if no Service Account is specified, the "default" service account is used.
- shielded
Instance Property MapConfig - Shielded Instance options.
- sole
Tenant Property MapConfig - Parameters for node pools to be backed by shared sole tenant node groups.
- spot Boolean
- Spot flag for enabling Spot VM, which is a rebrand of the existing preemptible flag.
- List<String>
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035.
- taints List<Property Map>
- List of kubernetes taints to be applied to each node. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
- windows
Node Property MapConfig - Parameters that can be configured on Windows nodes.
- workload
Metadata Property MapConfig - The workload metadata configuration for this node.
NodeConfigDefaults, NodeConfigDefaultsArgs
- Gcfs
Config Pulumi.Google Native. Container. V1. Inputs. Gcfs Config - GCFS (Google Container File System, also known as Riptide) options.
- Logging
Config Pulumi.Google Native. Container. V1. Inputs. Node Pool Logging Config - Logging configuration for node pools.
- Gcfs
Config GcfsConfig - GCFS (Google Container File System, also known as Riptide) options.
- Logging
Config NodePool Logging Config - Logging configuration for node pools.
- gcfs
Config GcfsConfig - GCFS (Google Container File System, also known as Riptide) options.
- logging
Config NodePool Logging Config - Logging configuration for node pools.
- gcfs
Config GcfsConfig - GCFS (Google Container File System, also known as Riptide) options.
- logging
Config NodePool Logging Config - Logging configuration for node pools.
- gcfs_
config GcfsConfig - GCFS (Google Container File System, also known as Riptide) options.
- logging_
config NodePool Logging Config - Logging configuration for node pools.
- gcfs
Config Property Map - GCFS (Google Container File System, also known as Riptide) options.
- logging
Config Property Map - Logging configuration for node pools.
NodeConfigDefaultsResponse, NodeConfigDefaultsResponseArgs
- Gcfs
Config Pulumi.Google Native. Container. V1. Inputs. Gcfs Config Response - GCFS (Google Container File System, also known as Riptide) options.
- Logging
Config Pulumi.Google Native. Container. V1. Inputs. Node Pool Logging Config Response - Logging configuration for node pools.
- Gcfs
Config GcfsConfig Response - GCFS (Google Container File System, also known as Riptide) options.
- Logging
Config NodePool Logging Config Response - Logging configuration for node pools.
- gcfs
Config GcfsConfig Response - GCFS (Google Container File System, also known as Riptide) options.
- logging
Config NodePool Logging Config Response - Logging configuration for node pools.
- gcfs
Config GcfsConfig Response - GCFS (Google Container File System, also known as Riptide) options.
- logging
Config NodePool Logging Config Response - Logging configuration for node pools.
- gcfs_
config GcfsConfig Response - GCFS (Google Container File System, also known as Riptide) options.
- logging_
config NodePool Logging Config Response - Logging configuration for node pools.
- gcfs
Config Property Map - GCFS (Google Container File System, also known as Riptide) options.
- logging
Config Property Map - Logging configuration for node pools.
NodeConfigResponse, NodeConfigResponseArgs
- Accelerators
List<Pulumi.
Google Native. Container. V1. Inputs. Accelerator Config Response> - A list of hardware accelerators to be attached to each node. See https://cloud.google.com/compute/docs/gpus for more information about support for GPUs.
- Advanced
Machine Pulumi.Features Google Native. Container. V1. Inputs. Advanced Machine Features Response - Advanced features for the Compute Engine VM.
- Boot
Disk stringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- Confidential
Nodes Pulumi.Google Native. Container. V1. Inputs. Confidential Nodes Response - Confidential nodes config. All the nodes in the node pool will be Confidential VM once enabled.
- Disk
Size intGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- Disk
Type string - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- Ephemeral
Storage Pulumi.Local Ssd Config Google Native. Container. V1. Inputs. Ephemeral Storage Local Ssd Config Response - Parameters for the node ephemeral storage using Local SSDs. If unspecified, ephemeral storage is backed by the boot disk.
- Fast
Socket Pulumi.Google Native. Container. V1. Inputs. Fast Socket Response - Enable or disable NCCL fast socket for the node pool.
- Gcfs
Config Pulumi.Google Native. Container. V1. Inputs. Gcfs Config Response - Google Container File System (image streaming) configs.
- Gvnic
Pulumi.
Google Native. Container. V1. Inputs. Virtual NICResponse - Enable or disable gvnic in the node pool.
- Image
Type string - The image type to use for this node. Note that for a given image type, the latest version of it will be used. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- Kubelet
Config Pulumi.Google Native. Container. V1. Inputs. Node Kubelet Config Response - Node kubelet configs.
- Labels Dictionary<string, string>
- The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it's best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
- Linux
Node Pulumi.Config Google Native. Container. V1. Inputs. Linux Node Config Response - Parameters that can be configured on Linux nodes.
- Local
Nvme Pulumi.Ssd Block Config Google Native. Container. V1. Inputs. Local Nvme Ssd Block Config Response - Parameters for using raw-block Local NVMe SSDs.
- Local
Ssd intCount - The number of local SSD disks to be attached to the node. The limit for this value is dependent upon the maximum number of disks available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information.
- Logging
Config Pulumi.Google Native. Container. V1. Inputs. Node Pool Logging Config Response - Logging configuration.
- Machine
Type string - The name of a Google Compute Engine machine type If unspecified, the default machine type is
e2-medium
. - Metadata Dictionary<string, string>
- The metadata key/value pairs assigned to instances in the cluster. Keys must conform to the regexp
[a-zA-Z0-9-_]+
and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the reserved keys: - "cluster-location" - "cluster-name" - "cluster-uid" - "configure-sh" - "containerd-configure-sh" - "enable-os-login" - "gci-ensure-gke-docker" - "gci-metrics-enabled" - "gci-update-strategy" - "instance-template" - "kube-env" - "startup-script" - "user-data" - "disable-address-manager" - "windows-startup-script-ps1" - "common-psm1" - "k8s-node-setup-psm1" - "install-ssh-psm1" - "user-profile-psm1" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value's size must be less than or equal to 32 KB. The total size of all keys and values must be less than 512 KB. - Min
Cpu stringPlatform - Minimum CPU platform to be used by this instance. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as
minCpuPlatform: "Intel Haswell"
orminCpuPlatform: "Intel Sandy Bridge"
. For more information, read how to specify min CPU platform - Node
Group string - Setting this field will assign instances of this pool to run on the specified node group. This is useful for running workloads on sole tenant nodes.
- Oauth
Scopes List<string> - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. The following scopes are recommended, but not required, and by default are not included: *
https://www.googleapis.com/auth/compute
is required for mounting persistent storage on your nodes. *https://www.googleapis.com/auth/devstorage.read_only
is required for communicating with gcr.io (the Google Container Registry). If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. - Preemptible bool
- Whether the nodes are created as preemptible VM instances. See: https://cloud.google.com/compute/docs/instances/preemptible for more information about preemptible VM instances.
- Reservation
Affinity Pulumi.Google Native. Container. V1. Inputs. Reservation Affinity Response - The optional reservation affinity. Setting this field will apply the specified Zonal Compute Reservation to this node pool.
- Resource
Labels Dictionary<string, string> - The resource labels for the node pool to use to annotate any related Google Compute Engine resources.
- Pulumi.
Google Native. Container. V1. Inputs. Resource Manager Tags Response - A map of resource manager tag keys and values to be attached to the nodes.
- Sandbox
Config Pulumi.Google Native. Container. V1. Inputs. Sandbox Config Response - Sandbox configuration for this node.
- Service
Account string - The Google Cloud Platform Service Account to be used by the node VMs. Specify the email address of the Service Account; otherwise, if no Service Account is specified, the "default" service account is used.
- Shielded
Instance Pulumi.Config Google Native. Container. V1. Inputs. Shielded Instance Config Response - Shielded Instance options.
- Sole
Tenant Pulumi.Config Google Native. Container. V1. Inputs. Sole Tenant Config Response - Parameters for node pools to be backed by shared sole tenant node groups.
- Spot bool
- Spot flag for enabling Spot VM, which is a rebrand of the existing preemptible flag.
- List<string>
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035.
- Taints
List<Pulumi.
Google Native. Container. V1. Inputs. Node Taint Response> - List of kubernetes taints to be applied to each node. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
- Windows
Node Pulumi.Config Google Native. Container. V1. Inputs. Windows Node Config Response - Parameters that can be configured on Windows nodes.
- Workload
Metadata Pulumi.Config Google Native. Container. V1. Inputs. Workload Metadata Config Response - The workload metadata configuration for this node.
- Accelerators
[]Accelerator
Config Response - A list of hardware accelerators to be attached to each node. See https://cloud.google.com/compute/docs/gpus for more information about support for GPUs.
- Advanced
Machine AdvancedFeatures Machine Features Response - Advanced features for the Compute Engine VM.
- Boot
Disk stringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- Confidential
Nodes ConfidentialNodes Response - Confidential nodes config. All the nodes in the node pool will be Confidential VM once enabled.
- Disk
Size intGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- Disk
Type string - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- Ephemeral
Storage EphemeralLocal Ssd Config Storage Local Ssd Config Response - Parameters for the node ephemeral storage using Local SSDs. If unspecified, ephemeral storage is backed by the boot disk.
- Fast
Socket FastSocket Response - Enable or disable NCCL fast socket for the node pool.
- Gcfs
Config GcfsConfig Response - Google Container File System (image streaming) configs.
- Gvnic
Virtual
NICResponse - Enable or disable gvnic in the node pool.
- Image
Type string - The image type to use for this node. Note that for a given image type, the latest version of it will be used. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- Kubelet
Config NodeKubelet Config Response - Node kubelet configs.
- Labels map[string]string
- The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it's best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
- Linux
Node LinuxConfig Node Config Response - Parameters that can be configured on Linux nodes.
- Local
Nvme LocalSsd Block Config Nvme Ssd Block Config Response - Parameters for using raw-block Local NVMe SSDs.
- Local
Ssd intCount - The number of local SSD disks to be attached to the node. The limit for this value is dependent upon the maximum number of disks available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information.
- Logging
Config NodePool Logging Config Response - Logging configuration.
- Machine
Type string - The name of a Google Compute Engine machine type If unspecified, the default machine type is
e2-medium
. - Metadata map[string]string
- The metadata key/value pairs assigned to instances in the cluster. Keys must conform to the regexp
[a-zA-Z0-9-_]+
and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the reserved keys: - "cluster-location" - "cluster-name" - "cluster-uid" - "configure-sh" - "containerd-configure-sh" - "enable-os-login" - "gci-ensure-gke-docker" - "gci-metrics-enabled" - "gci-update-strategy" - "instance-template" - "kube-env" - "startup-script" - "user-data" - "disable-address-manager" - "windows-startup-script-ps1" - "common-psm1" - "k8s-node-setup-psm1" - "install-ssh-psm1" - "user-profile-psm1" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value's size must be less than or equal to 32 KB. The total size of all keys and values must be less than 512 KB. - Min
Cpu stringPlatform - Minimum CPU platform to be used by this instance. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as
minCpuPlatform: "Intel Haswell"
orminCpuPlatform: "Intel Sandy Bridge"
. For more information, read how to specify min CPU platform - Node
Group string - Setting this field will assign instances of this pool to run on the specified node group. This is useful for running workloads on sole tenant nodes.
- Oauth
Scopes []string - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. The following scopes are recommended, but not required, and by default are not included: *
https://www.googleapis.com/auth/compute
is required for mounting persistent storage on your nodes. *https://www.googleapis.com/auth/devstorage.read_only
is required for communicating with gcr.io (the Google Container Registry). If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. - Preemptible bool
- Whether the nodes are created as preemptible VM instances. See: https://cloud.google.com/compute/docs/instances/preemptible for more information about preemptible VM instances.
- Reservation
Affinity ReservationAffinity Response - The optional reservation affinity. Setting this field will apply the specified Zonal Compute Reservation to this node pool.
- Resource
Labels map[string]string - The resource labels for the node pool to use to annotate any related Google Compute Engine resources.
- Resource
Manager Tags Response - A map of resource manager tag keys and values to be attached to the nodes.
- Sandbox
Config SandboxConfig Response - Sandbox configuration for this node.
- Service
Account string - The Google Cloud Platform Service Account to be used by the node VMs. Specify the email address of the Service Account; otherwise, if no Service Account is specified, the "default" service account is used.
- Shielded
Instance ShieldedConfig Instance Config Response - Shielded Instance options.
- Sole
Tenant SoleConfig Tenant Config Response - Parameters for node pools to be backed by shared sole tenant node groups.
- Spot bool
- Spot flag for enabling Spot VM, which is a rebrand of the existing preemptible flag.
- []string
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035.
- Taints
[]Node
Taint Response - List of kubernetes taints to be applied to each node. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
- Windows
Node WindowsConfig Node Config Response - Parameters that can be configured on Windows nodes.
- Workload
Metadata WorkloadConfig Metadata Config Response - The workload metadata configuration for this node.
- accelerators
List<Accelerator
Config Response> - A list of hardware accelerators to be attached to each node. See https://cloud.google.com/compute/docs/gpus for more information about support for GPUs.
- advanced
Machine AdvancedFeatures Machine Features Response - Advanced features for the Compute Engine VM.
- boot
Disk StringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- confidential
Nodes ConfidentialNodes Response - Confidential nodes config. All the nodes in the node pool will be Confidential VM once enabled.
- disk
Size IntegerGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk
Type String - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- ephemeral
Storage EphemeralLocal Ssd Config Storage Local Ssd Config Response - Parameters for the node ephemeral storage using Local SSDs. If unspecified, ephemeral storage is backed by the boot disk.
- fast
Socket FastSocket Response - Enable or disable NCCL fast socket for the node pool.
- gcfs
Config GcfsConfig Response - Google Container File System (image streaming) configs.
- gvnic
Virtual
NICResponse - Enable or disable gvnic in the node pool.
- image
Type String - The image type to use for this node. Note that for a given image type, the latest version of it will be used. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- kubelet
Config NodeKubelet Config Response - Node kubelet configs.
- labels Map<String,String>
- The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it's best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
- linux
Node LinuxConfig Node Config Response - Parameters that can be configured on Linux nodes.
- local
Nvme LocalSsd Block Config Nvme Ssd Block Config Response - Parameters for using raw-block Local NVMe SSDs.
- local
Ssd IntegerCount - The number of local SSD disks to be attached to the node. The limit for this value is dependent upon the maximum number of disks available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information.
- logging
Config NodePool Logging Config Response - Logging configuration.
- machine
Type String - The name of a Google Compute Engine machine type If unspecified, the default machine type is
e2-medium
. - metadata Map<String,String>
- The metadata key/value pairs assigned to instances in the cluster. Keys must conform to the regexp
[a-zA-Z0-9-_]+
and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the reserved keys: - "cluster-location" - "cluster-name" - "cluster-uid" - "configure-sh" - "containerd-configure-sh" - "enable-os-login" - "gci-ensure-gke-docker" - "gci-metrics-enabled" - "gci-update-strategy" - "instance-template" - "kube-env" - "startup-script" - "user-data" - "disable-address-manager" - "windows-startup-script-ps1" - "common-psm1" - "k8s-node-setup-psm1" - "install-ssh-psm1" - "user-profile-psm1" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value's size must be less than or equal to 32 KB. The total size of all keys and values must be less than 512 KB. - min
Cpu StringPlatform - Minimum CPU platform to be used by this instance. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as
minCpuPlatform: "Intel Haswell"
orminCpuPlatform: "Intel Sandy Bridge"
. For more information, read how to specify min CPU platform - node
Group String - Setting this field will assign instances of this pool to run on the specified node group. This is useful for running workloads on sole tenant nodes.
- oauth
Scopes List<String> - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. The following scopes are recommended, but not required, and by default are not included: *
https://www.googleapis.com/auth/compute
is required for mounting persistent storage on your nodes. *https://www.googleapis.com/auth/devstorage.read_only
is required for communicating with gcr.io (the Google Container Registry). If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. - preemptible Boolean
- Whether the nodes are created as preemptible VM instances. See: https://cloud.google.com/compute/docs/instances/preemptible for more information about preemptible VM instances.
- reservation
Affinity ReservationAffinity Response - The optional reservation affinity. Setting this field will apply the specified Zonal Compute Reservation to this node pool.
- resource
Labels Map<String,String> - The resource labels for the node pool to use to annotate any related Google Compute Engine resources.
- Resource
Manager Tags Response - A map of resource manager tag keys and values to be attached to the nodes.
- sandbox
Config SandboxConfig Response - Sandbox configuration for this node.
- service
Account String - The Google Cloud Platform Service Account to be used by the node VMs. Specify the email address of the Service Account; otherwise, if no Service Account is specified, the "default" service account is used.
- shielded
Instance ShieldedConfig Instance Config Response - Shielded Instance options.
- sole
Tenant SoleConfig Tenant Config Response - Parameters for node pools to be backed by shared sole tenant node groups.
- spot Boolean
- Spot flag for enabling Spot VM, which is a rebrand of the existing preemptible flag.
- List<String>
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035.
- taints
List<Node
Taint Response> - List of kubernetes taints to be applied to each node. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
- windows
Node WindowsConfig Node Config Response - Parameters that can be configured on Windows nodes.
- workload
Metadata WorkloadConfig Metadata Config Response - The workload metadata configuration for this node.
- accelerators
Accelerator
Config Response[] - A list of hardware accelerators to be attached to each node. See https://cloud.google.com/compute/docs/gpus for more information about support for GPUs.
- advanced
Machine AdvancedFeatures Machine Features Response - Advanced features for the Compute Engine VM.
- boot
Disk stringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- confidential
Nodes ConfidentialNodes Response - Confidential nodes config. All the nodes in the node pool will be Confidential VM once enabled.
- disk
Size numberGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk
Type string - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- ephemeral
Storage EphemeralLocal Ssd Config Storage Local Ssd Config Response - Parameters for the node ephemeral storage using Local SSDs. If unspecified, ephemeral storage is backed by the boot disk.
- fast
Socket FastSocket Response - Enable or disable NCCL fast socket for the node pool.
- gcfs
Config GcfsConfig Response - Google Container File System (image streaming) configs.
- gvnic
Virtual
NICResponse - Enable or disable gvnic in the node pool.
- image
Type string - The image type to use for this node. Note that for a given image type, the latest version of it will be used. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- kubelet
Config NodeKubelet Config Response - Node kubelet configs.
- labels {[key: string]: string}
- The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it's best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
- linux
Node LinuxConfig Node Config Response - Parameters that can be configured on Linux nodes.
- local
Nvme LocalSsd Block Config Nvme Ssd Block Config Response - Parameters for using raw-block Local NVMe SSDs.
- local
Ssd numberCount - The number of local SSD disks to be attached to the node. The limit for this value is dependent upon the maximum number of disks available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information.
- logging
Config NodePool Logging Config Response - Logging configuration.
- machine
Type string - The name of a Google Compute Engine machine type If unspecified, the default machine type is
e2-medium
. - metadata {[key: string]: string}
- The metadata key/value pairs assigned to instances in the cluster. Keys must conform to the regexp
[a-zA-Z0-9-_]+
and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the reserved keys: - "cluster-location" - "cluster-name" - "cluster-uid" - "configure-sh" - "containerd-configure-sh" - "enable-os-login" - "gci-ensure-gke-docker" - "gci-metrics-enabled" - "gci-update-strategy" - "instance-template" - "kube-env" - "startup-script" - "user-data" - "disable-address-manager" - "windows-startup-script-ps1" - "common-psm1" - "k8s-node-setup-psm1" - "install-ssh-psm1" - "user-profile-psm1" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value's size must be less than or equal to 32 KB. The total size of all keys and values must be less than 512 KB. - min
Cpu stringPlatform - Minimum CPU platform to be used by this instance. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as
minCpuPlatform: "Intel Haswell"
orminCpuPlatform: "Intel Sandy Bridge"
. For more information, read how to specify min CPU platform - node
Group string - Setting this field will assign instances of this pool to run on the specified node group. This is useful for running workloads on sole tenant nodes.
- oauth
Scopes string[] - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. The following scopes are recommended, but not required, and by default are not included: *
https://www.googleapis.com/auth/compute
is required for mounting persistent storage on your nodes. *https://www.googleapis.com/auth/devstorage.read_only
is required for communicating with gcr.io (the Google Container Registry). If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. - preemptible boolean
- Whether the nodes are created as preemptible VM instances. See: https://cloud.google.com/compute/docs/instances/preemptible for more information about preemptible VM instances.
- reservation
Affinity ReservationAffinity Response - The optional reservation affinity. Setting this field will apply the specified Zonal Compute Reservation to this node pool.
- resource
Labels {[key: string]: string} - The resource labels for the node pool to use to annotate any related Google Compute Engine resources.
- Resource
Manager Tags Response - A map of resource manager tag keys and values to be attached to the nodes.
- sandbox
Config SandboxConfig Response - Sandbox configuration for this node.
- service
Account string - The Google Cloud Platform Service Account to be used by the node VMs. Specify the email address of the Service Account; otherwise, if no Service Account is specified, the "default" service account is used.
- shielded
Instance ShieldedConfig Instance Config Response - Shielded Instance options.
- sole
Tenant SoleConfig Tenant Config Response - Parameters for node pools to be backed by shared sole tenant node groups.
- spot boolean
- Spot flag for enabling Spot VM, which is a rebrand of the existing preemptible flag.
- string[]
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035.
- taints
Node
Taint Response[] - List of kubernetes taints to be applied to each node. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
- windows
Node WindowsConfig Node Config Response - Parameters that can be configured on Windows nodes.
- workload
Metadata WorkloadConfig Metadata Config Response - The workload metadata configuration for this node.
- accelerators
Sequence[Accelerator
Config Response] - A list of hardware accelerators to be attached to each node. See https://cloud.google.com/compute/docs/gpus for more information about support for GPUs.
- advanced_
machine_ Advancedfeatures Machine Features Response - Advanced features for the Compute Engine VM.
- boot_
disk_ strkms_ key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- confidential_
nodes ConfidentialNodes Response - Confidential nodes config. All the nodes in the node pool will be Confidential VM once enabled.
- disk_
size_ intgb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk_
type str - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- ephemeral_
storage_ Ephemerallocal_ ssd_ config Storage Local Ssd Config Response - Parameters for the node ephemeral storage using Local SSDs. If unspecified, ephemeral storage is backed by the boot disk.
- fast_
socket FastSocket Response - Enable or disable NCCL fast socket for the node pool.
- gcfs_
config GcfsConfig Response - Google Container File System (image streaming) configs.
- gvnic
Virtual
NICResponse - Enable or disable gvnic in the node pool.
- image_
type str - The image type to use for this node. Note that for a given image type, the latest version of it will be used. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- kubelet_
config NodeKubelet Config Response - Node kubelet configs.
- labels Mapping[str, str]
- The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it's best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
- linux_
node_ Linuxconfig Node Config Response - Parameters that can be configured on Linux nodes.
- local_
nvme_ Localssd_ block_ config Nvme Ssd Block Config Response - Parameters for using raw-block Local NVMe SSDs.
- local_
ssd_ intcount - The number of local SSD disks to be attached to the node. The limit for this value is dependent upon the maximum number of disks available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information.
- logging_
config NodePool Logging Config Response - Logging configuration.
- machine_
type str - The name of a Google Compute Engine machine type If unspecified, the default machine type is
e2-medium
. - metadata Mapping[str, str]
- The metadata key/value pairs assigned to instances in the cluster. Keys must conform to the regexp
[a-zA-Z0-9-_]+
and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the reserved keys: - "cluster-location" - "cluster-name" - "cluster-uid" - "configure-sh" - "containerd-configure-sh" - "enable-os-login" - "gci-ensure-gke-docker" - "gci-metrics-enabled" - "gci-update-strategy" - "instance-template" - "kube-env" - "startup-script" - "user-data" - "disable-address-manager" - "windows-startup-script-ps1" - "common-psm1" - "k8s-node-setup-psm1" - "install-ssh-psm1" - "user-profile-psm1" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value's size must be less than or equal to 32 KB. The total size of all keys and values must be less than 512 KB. - min_
cpu_ strplatform - Minimum CPU platform to be used by this instance. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as
minCpuPlatform: "Intel Haswell"
orminCpuPlatform: "Intel Sandy Bridge"
. For more information, read how to specify min CPU platform - node_
group str - Setting this field will assign instances of this pool to run on the specified node group. This is useful for running workloads on sole tenant nodes.
- oauth_
scopes Sequence[str] - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. The following scopes are recommended, but not required, and by default are not included: *
https://www.googleapis.com/auth/compute
is required for mounting persistent storage on your nodes. *https://www.googleapis.com/auth/devstorage.read_only
is required for communicating with gcr.io (the Google Container Registry). If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. - preemptible bool
- Whether the nodes are created as preemptible VM instances. See: https://cloud.google.com/compute/docs/instances/preemptible for more information about preemptible VM instances.
- reservation_
affinity ReservationAffinity Response - The optional reservation affinity. Setting this field will apply the specified Zonal Compute Reservation to this node pool.
- resource_
labels Mapping[str, str] - The resource labels for the node pool to use to annotate any related Google Compute Engine resources.
- Resource
Manager Tags Response - A map of resource manager tag keys and values to be attached to the nodes.
- sandbox_
config SandboxConfig Response - Sandbox configuration for this node.
- service_
account str - The Google Cloud Platform Service Account to be used by the node VMs. Specify the email address of the Service Account; otherwise, if no Service Account is specified, the "default" service account is used.
- shielded_
instance_ Shieldedconfig Instance Config Response - Shielded Instance options.
- sole_
tenant_ Soleconfig Tenant Config Response - Parameters for node pools to be backed by shared sole tenant node groups.
- spot bool
- Spot flag for enabling Spot VM, which is a rebrand of the existing preemptible flag.
- Sequence[str]
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035.
- taints
Sequence[Node
Taint Response] - List of kubernetes taints to be applied to each node. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
- windows_
node_ Windowsconfig Node Config Response - Parameters that can be configured on Windows nodes.
- workload_
metadata_ Workloadconfig Metadata Config Response - The workload metadata configuration for this node.
- accelerators List<Property Map>
- A list of hardware accelerators to be attached to each node. See https://cloud.google.com/compute/docs/gpus for more information about support for GPUs.
- advanced
Machine Property MapFeatures - Advanced features for the Compute Engine VM.
- boot
Disk StringKms Key - The Customer Managed Encryption Key used to encrypt the boot disk attached to each node in the node pool. This should be of the form projects/[KEY_PROJECT_ID]/locations/[LOCATION]/keyRings/[RING_NAME]/cryptoKeys/[KEY_NAME]. For more information about protecting resources with Cloud KMS Keys please see: https://cloud.google.com/compute/docs/disks/customer-managed-encryption
- confidential
Nodes Property Map - Confidential nodes config. All the nodes in the node pool will be Confidential VM once enabled.
- disk
Size NumberGb - Size of the disk attached to each node, specified in GB. The smallest allowed disk size is 10GB. If unspecified, the default disk size is 100GB.
- disk
Type String - Type of the disk attached to each node (e.g. 'pd-standard', 'pd-ssd' or 'pd-balanced') If unspecified, the default disk type is 'pd-standard'
- ephemeral
Storage Property MapLocal Ssd Config - Parameters for the node ephemeral storage using Local SSDs. If unspecified, ephemeral storage is backed by the boot disk.
- fast
Socket Property Map - Enable or disable NCCL fast socket for the node pool.
- gcfs
Config Property Map - Google Container File System (image streaming) configs.
- gvnic Property Map
- Enable or disable gvnic in the node pool.
- image
Type String - The image type to use for this node. Note that for a given image type, the latest version of it will be used. Please see https://cloud.google.com/kubernetes-engine/docs/concepts/node-images for available image types.
- kubelet
Config Property Map - Node kubelet configs.
- labels Map<String>
- The map of Kubernetes labels (key/value pairs) to be applied to each node. These will added in addition to any default label(s) that Kubernetes may apply to the node. In case of conflict in label keys, the applied set may differ depending on the Kubernetes version -- it's best to assume the behavior is undefined and conflicts should be avoided. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
- linux
Node Property MapConfig - Parameters that can be configured on Linux nodes.
- local
Nvme Property MapSsd Block Config - Parameters for using raw-block Local NVMe SSDs.
- local
Ssd NumberCount - The number of local SSD disks to be attached to the node. The limit for this value is dependent upon the maximum number of disks available on a machine per zone. See: https://cloud.google.com/compute/docs/disks/local-ssd for more information.
- logging
Config Property Map - Logging configuration.
- machine
Type String - The name of a Google Compute Engine machine type If unspecified, the default machine type is
e2-medium
. - metadata Map<String>
- The metadata key/value pairs assigned to instances in the cluster. Keys must conform to the regexp
[a-zA-Z0-9-_]+
and be less than 128 bytes in length. These are reflected as part of a URL in the metadata server. Additionally, to avoid ambiguity, keys must not conflict with any other metadata keys for the project or be one of the reserved keys: - "cluster-location" - "cluster-name" - "cluster-uid" - "configure-sh" - "containerd-configure-sh" - "enable-os-login" - "gci-ensure-gke-docker" - "gci-metrics-enabled" - "gci-update-strategy" - "instance-template" - "kube-env" - "startup-script" - "user-data" - "disable-address-manager" - "windows-startup-script-ps1" - "common-psm1" - "k8s-node-setup-psm1" - "install-ssh-psm1" - "user-profile-psm1" Values are free-form strings, and only have meaning as interpreted by the image running in the instance. The only restriction placed on them is that each value's size must be less than or equal to 32 KB. The total size of all keys and values must be less than 512 KB. - min
Cpu StringPlatform - Minimum CPU platform to be used by this instance. The instance may be scheduled on the specified or newer CPU platform. Applicable values are the friendly names of CPU platforms, such as
minCpuPlatform: "Intel Haswell"
orminCpuPlatform: "Intel Sandy Bridge"
. For more information, read how to specify min CPU platform - node
Group String - Setting this field will assign instances of this pool to run on the specified node group. This is useful for running workloads on sole tenant nodes.
- oauth
Scopes List<String> - The set of Google API scopes to be made available on all of the node VMs under the "default" service account. The following scopes are recommended, but not required, and by default are not included: *
https://www.googleapis.com/auth/compute
is required for mounting persistent storage on your nodes. *https://www.googleapis.com/auth/devstorage.read_only
is required for communicating with gcr.io (the Google Container Registry). If unspecified, no scopes are added, unless Cloud Logging or Cloud Monitoring are enabled, in which case their required scopes will be added. - preemptible Boolean
- Whether the nodes are created as preemptible VM instances. See: https://cloud.google.com/compute/docs/instances/preemptible for more information about preemptible VM instances.
- reservation
Affinity Property Map - The optional reservation affinity. Setting this field will apply the specified Zonal Compute Reservation to this node pool.
- resource
Labels Map<String> - The resource labels for the node pool to use to annotate any related Google Compute Engine resources.
- Property Map
- A map of resource manager tag keys and values to be attached to the nodes.
- sandbox
Config Property Map - Sandbox configuration for this node.
- service
Account String - The Google Cloud Platform Service Account to be used by the node VMs. Specify the email address of the Service Account; otherwise, if no Service Account is specified, the "default" service account is used.
- shielded
Instance Property MapConfig - Shielded Instance options.
- sole
Tenant Property MapConfig - Parameters for node pools to be backed by shared sole tenant node groups.
- spot Boolean
- Spot flag for enabling Spot VM, which is a rebrand of the existing preemptible flag.
- List<String>
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster or node pool creation. Each tag within the list must comply with RFC1035.
- taints List<Property Map>
- List of kubernetes taints to be applied to each node. For more information, including usage and the valid values, see: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
- windows
Node Property MapConfig - Parameters that can be configured on Windows nodes.
- workload
Metadata Property MapConfig - The workload metadata configuration for this node.
NodeKubeletConfig, NodeKubeletConfigArgs
- Cpu
Cfs boolQuota - Enable CPU CFS quota enforcement for containers that specify CPU limits. This option is enabled by default which makes kubelet use CFS quota (https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt) to enforce container CPU limits. Otherwise, CPU limits will not be enforced at all. Disable this option to mitigate CPU throttling problems while still having your pods to be in Guaranteed QoS class by specifying the CPU limits. The default value is 'true' if unspecified.
- Cpu
Cfs stringQuota Period - Set the CPU CFS quota period value 'cpu.cfs_period_us'. The string must be a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h". The value must be a positive duration.
- Cpu
Manager stringPolicy - Control the CPU management policy on the node. See https://kubernetes.io/docs/tasks/administer-cluster/cpu-management-policies/ The following values are allowed. * "none": the default, which represents the existing scheduling behavior. * "static": allows pods with certain resource characteristics to be granted increased CPU affinity and exclusivity on the node. The default value is 'none' if unspecified.
- Insecure
Kubelet boolReadonly Port Enabled - Enable or disable Kubelet read only port.
- Pod
Pids stringLimit - Set the Pod PID limits. See https://kubernetes.io/docs/concepts/policy/pid-limiting/#pod-pid-limits Controls the maximum number of processes allowed to run in a pod. The value must be greater than or equal to 1024 and less than 4194304.
- Cpu
Cfs boolQuota - Enable CPU CFS quota enforcement for containers that specify CPU limits. This option is enabled by default which makes kubelet use CFS quota (https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt) to enforce container CPU limits. Otherwise, CPU limits will not be enforced at all. Disable this option to mitigate CPU throttling problems while still having your pods to be in Guaranteed QoS class by specifying the CPU limits. The default value is 'true' if unspecified.
- Cpu
Cfs stringQuota Period - Set the CPU CFS quota period value 'cpu.cfs_period_us'. The string must be a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h". The value must be a positive duration.
- Cpu
Manager stringPolicy - Control the CPU management policy on the node. See https://kubernetes.io/docs/tasks/administer-cluster/cpu-management-policies/ The following values are allowed. * "none": the default, which represents the existing scheduling behavior. * "static": allows pods with certain resource characteristics to be granted increased CPU affinity and exclusivity on the node. The default value is 'none' if unspecified.
- Insecure
Kubelet boolReadonly Port Enabled - Enable or disable Kubelet read only port.
- Pod
Pids stringLimit - Set the Pod PID limits. See https://kubernetes.io/docs/concepts/policy/pid-limiting/#pod-pid-limits Controls the maximum number of processes allowed to run in a pod. The value must be greater than or equal to 1024 and less than 4194304.
- cpu
Cfs BooleanQuota - Enable CPU CFS quota enforcement for containers that specify CPU limits. This option is enabled by default which makes kubelet use CFS quota (https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt) to enforce container CPU limits. Otherwise, CPU limits will not be enforced at all. Disable this option to mitigate CPU throttling problems while still having your pods to be in Guaranteed QoS class by specifying the CPU limits. The default value is 'true' if unspecified.
- cpu
Cfs StringQuota Period - Set the CPU CFS quota period value 'cpu.cfs_period_us'. The string must be a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h". The value must be a positive duration.
- cpu
Manager StringPolicy - Control the CPU management policy on the node. See https://kubernetes.io/docs/tasks/administer-cluster/cpu-management-policies/ The following values are allowed. * "none": the default, which represents the existing scheduling behavior. * "static": allows pods with certain resource characteristics to be granted increased CPU affinity and exclusivity on the node. The default value is 'none' if unspecified.
- insecure
Kubelet BooleanReadonly Port Enabled - Enable or disable Kubelet read only port.
- pod
Pids StringLimit - Set the Pod PID limits. See https://kubernetes.io/docs/concepts/policy/pid-limiting/#pod-pid-limits Controls the maximum number of processes allowed to run in a pod. The value must be greater than or equal to 1024 and less than 4194304.
- cpu
Cfs booleanQuota - Enable CPU CFS quota enforcement for containers that specify CPU limits. This option is enabled by default which makes kubelet use CFS quota (https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt) to enforce container CPU limits. Otherwise, CPU limits will not be enforced at all. Disable this option to mitigate CPU throttling problems while still having your pods to be in Guaranteed QoS class by specifying the CPU limits. The default value is 'true' if unspecified.
- cpu
Cfs stringQuota Period - Set the CPU CFS quota period value 'cpu.cfs_period_us'. The string must be a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h". The value must be a positive duration.
- cpu
Manager stringPolicy - Control the CPU management policy on the node. See https://kubernetes.io/docs/tasks/administer-cluster/cpu-management-policies/ The following values are allowed. * "none": the default, which represents the existing scheduling behavior. * "static": allows pods with certain resource characteristics to be granted increased CPU affinity and exclusivity on the node. The default value is 'none' if unspecified.
- insecure
Kubelet booleanReadonly Port Enabled - Enable or disable Kubelet read only port.
- pod
Pids stringLimit - Set the Pod PID limits. See https://kubernetes.io/docs/concepts/policy/pid-limiting/#pod-pid-limits Controls the maximum number of processes allowed to run in a pod. The value must be greater than or equal to 1024 and less than 4194304.
- cpu_
cfs_ boolquota - Enable CPU CFS quota enforcement for containers that specify CPU limits. This option is enabled by default which makes kubelet use CFS quota (https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt) to enforce container CPU limits. Otherwise, CPU limits will not be enforced at all. Disable this option to mitigate CPU throttling problems while still having your pods to be in Guaranteed QoS class by specifying the CPU limits. The default value is 'true' if unspecified.
- cpu_
cfs_ strquota_ period - Set the CPU CFS quota period value 'cpu.cfs_period_us'. The string must be a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h". The value must be a positive duration.
- cpu_
manager_ strpolicy - Control the CPU management policy on the node. See https://kubernetes.io/docs/tasks/administer-cluster/cpu-management-policies/ The following values are allowed. * "none": the default, which represents the existing scheduling behavior. * "static": allows pods with certain resource characteristics to be granted increased CPU affinity and exclusivity on the node. The default value is 'none' if unspecified.
- insecure_
kubelet_ boolreadonly_ port_ enabled - Enable or disable Kubelet read only port.
- pod_
pids_ strlimit - Set the Pod PID limits. See https://kubernetes.io/docs/concepts/policy/pid-limiting/#pod-pid-limits Controls the maximum number of processes allowed to run in a pod. The value must be greater than or equal to 1024 and less than 4194304.
- cpu
Cfs BooleanQuota - Enable CPU CFS quota enforcement for containers that specify CPU limits. This option is enabled by default which makes kubelet use CFS quota (https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt) to enforce container CPU limits. Otherwise, CPU limits will not be enforced at all. Disable this option to mitigate CPU throttling problems while still having your pods to be in Guaranteed QoS class by specifying the CPU limits. The default value is 'true' if unspecified.
- cpu
Cfs StringQuota Period - Set the CPU CFS quota period value 'cpu.cfs_period_us'. The string must be a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h". The value must be a positive duration.
- cpu
Manager StringPolicy - Control the CPU management policy on the node. See https://kubernetes.io/docs/tasks/administer-cluster/cpu-management-policies/ The following values are allowed. * "none": the default, which represents the existing scheduling behavior. * "static": allows pods with certain resource characteristics to be granted increased CPU affinity and exclusivity on the node. The default value is 'none' if unspecified.
- insecure
Kubelet BooleanReadonly Port Enabled - Enable or disable Kubelet read only port.
- pod
Pids StringLimit - Set the Pod PID limits. See https://kubernetes.io/docs/concepts/policy/pid-limiting/#pod-pid-limits Controls the maximum number of processes allowed to run in a pod. The value must be greater than or equal to 1024 and less than 4194304.
NodeKubeletConfigResponse, NodeKubeletConfigResponseArgs
- Cpu
Cfs boolQuota - Enable CPU CFS quota enforcement for containers that specify CPU limits. This option is enabled by default which makes kubelet use CFS quota (https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt) to enforce container CPU limits. Otherwise, CPU limits will not be enforced at all. Disable this option to mitigate CPU throttling problems while still having your pods to be in Guaranteed QoS class by specifying the CPU limits. The default value is 'true' if unspecified.
- Cpu
Cfs stringQuota Period - Set the CPU CFS quota period value 'cpu.cfs_period_us'. The string must be a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h". The value must be a positive duration.
- Cpu
Manager stringPolicy - Control the CPU management policy on the node. See https://kubernetes.io/docs/tasks/administer-cluster/cpu-management-policies/ The following values are allowed. * "none": the default, which represents the existing scheduling behavior. * "static": allows pods with certain resource characteristics to be granted increased CPU affinity and exclusivity on the node. The default value is 'none' if unspecified.
- Insecure
Kubelet boolReadonly Port Enabled - Enable or disable Kubelet read only port.
- Pod
Pids stringLimit - Set the Pod PID limits. See https://kubernetes.io/docs/concepts/policy/pid-limiting/#pod-pid-limits Controls the maximum number of processes allowed to run in a pod. The value must be greater than or equal to 1024 and less than 4194304.
- Cpu
Cfs boolQuota - Enable CPU CFS quota enforcement for containers that specify CPU limits. This option is enabled by default which makes kubelet use CFS quota (https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt) to enforce container CPU limits. Otherwise, CPU limits will not be enforced at all. Disable this option to mitigate CPU throttling problems while still having your pods to be in Guaranteed QoS class by specifying the CPU limits. The default value is 'true' if unspecified.
- Cpu
Cfs stringQuota Period - Set the CPU CFS quota period value 'cpu.cfs_period_us'. The string must be a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h". The value must be a positive duration.
- Cpu
Manager stringPolicy - Control the CPU management policy on the node. See https://kubernetes.io/docs/tasks/administer-cluster/cpu-management-policies/ The following values are allowed. * "none": the default, which represents the existing scheduling behavior. * "static": allows pods with certain resource characteristics to be granted increased CPU affinity and exclusivity on the node. The default value is 'none' if unspecified.
- Insecure
Kubelet boolReadonly Port Enabled - Enable or disable Kubelet read only port.
- Pod
Pids stringLimit - Set the Pod PID limits. See https://kubernetes.io/docs/concepts/policy/pid-limiting/#pod-pid-limits Controls the maximum number of processes allowed to run in a pod. The value must be greater than or equal to 1024 and less than 4194304.
- cpu
Cfs BooleanQuota - Enable CPU CFS quota enforcement for containers that specify CPU limits. This option is enabled by default which makes kubelet use CFS quota (https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt) to enforce container CPU limits. Otherwise, CPU limits will not be enforced at all. Disable this option to mitigate CPU throttling problems while still having your pods to be in Guaranteed QoS class by specifying the CPU limits. The default value is 'true' if unspecified.
- cpu
Cfs StringQuota Period - Set the CPU CFS quota period value 'cpu.cfs_period_us'. The string must be a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h". The value must be a positive duration.
- cpu
Manager StringPolicy - Control the CPU management policy on the node. See https://kubernetes.io/docs/tasks/administer-cluster/cpu-management-policies/ The following values are allowed. * "none": the default, which represents the existing scheduling behavior. * "static": allows pods with certain resource characteristics to be granted increased CPU affinity and exclusivity on the node. The default value is 'none' if unspecified.
- insecure
Kubelet BooleanReadonly Port Enabled - Enable or disable Kubelet read only port.
- pod
Pids StringLimit - Set the Pod PID limits. See https://kubernetes.io/docs/concepts/policy/pid-limiting/#pod-pid-limits Controls the maximum number of processes allowed to run in a pod. The value must be greater than or equal to 1024 and less than 4194304.
- cpu
Cfs booleanQuota - Enable CPU CFS quota enforcement for containers that specify CPU limits. This option is enabled by default which makes kubelet use CFS quota (https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt) to enforce container CPU limits. Otherwise, CPU limits will not be enforced at all. Disable this option to mitigate CPU throttling problems while still having your pods to be in Guaranteed QoS class by specifying the CPU limits. The default value is 'true' if unspecified.
- cpu
Cfs stringQuota Period - Set the CPU CFS quota period value 'cpu.cfs_period_us'. The string must be a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h". The value must be a positive duration.
- cpu
Manager stringPolicy - Control the CPU management policy on the node. See https://kubernetes.io/docs/tasks/administer-cluster/cpu-management-policies/ The following values are allowed. * "none": the default, which represents the existing scheduling behavior. * "static": allows pods with certain resource characteristics to be granted increased CPU affinity and exclusivity on the node. The default value is 'none' if unspecified.
- insecure
Kubelet booleanReadonly Port Enabled - Enable or disable Kubelet read only port.
- pod
Pids stringLimit - Set the Pod PID limits. See https://kubernetes.io/docs/concepts/policy/pid-limiting/#pod-pid-limits Controls the maximum number of processes allowed to run in a pod. The value must be greater than or equal to 1024 and less than 4194304.
- cpu_
cfs_ boolquota - Enable CPU CFS quota enforcement for containers that specify CPU limits. This option is enabled by default which makes kubelet use CFS quota (https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt) to enforce container CPU limits. Otherwise, CPU limits will not be enforced at all. Disable this option to mitigate CPU throttling problems while still having your pods to be in Guaranteed QoS class by specifying the CPU limits. The default value is 'true' if unspecified.
- cpu_
cfs_ strquota_ period - Set the CPU CFS quota period value 'cpu.cfs_period_us'. The string must be a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h". The value must be a positive duration.
- cpu_
manager_ strpolicy - Control the CPU management policy on the node. See https://kubernetes.io/docs/tasks/administer-cluster/cpu-management-policies/ The following values are allowed. * "none": the default, which represents the existing scheduling behavior. * "static": allows pods with certain resource characteristics to be granted increased CPU affinity and exclusivity on the node. The default value is 'none' if unspecified.
- insecure_
kubelet_ boolreadonly_ port_ enabled - Enable or disable Kubelet read only port.
- pod_
pids_ strlimit - Set the Pod PID limits. See https://kubernetes.io/docs/concepts/policy/pid-limiting/#pod-pid-limits Controls the maximum number of processes allowed to run in a pod. The value must be greater than or equal to 1024 and less than 4194304.
- cpu
Cfs BooleanQuota - Enable CPU CFS quota enforcement for containers that specify CPU limits. This option is enabled by default which makes kubelet use CFS quota (https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt) to enforce container CPU limits. Otherwise, CPU limits will not be enforced at all. Disable this option to mitigate CPU throttling problems while still having your pods to be in Guaranteed QoS class by specifying the CPU limits. The default value is 'true' if unspecified.
- cpu
Cfs StringQuota Period - Set the CPU CFS quota period value 'cpu.cfs_period_us'. The string must be a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h". The value must be a positive duration.
- cpu
Manager StringPolicy - Control the CPU management policy on the node. See https://kubernetes.io/docs/tasks/administer-cluster/cpu-management-policies/ The following values are allowed. * "none": the default, which represents the existing scheduling behavior. * "static": allows pods with certain resource characteristics to be granted increased CPU affinity and exclusivity on the node. The default value is 'none' if unspecified.
- insecure
Kubelet BooleanReadonly Port Enabled - Enable or disable Kubelet read only port.
- pod
Pids StringLimit - Set the Pod PID limits. See https://kubernetes.io/docs/concepts/policy/pid-limiting/#pod-pid-limits Controls the maximum number of processes allowed to run in a pod. The value must be greater than or equal to 1024 and less than 4194304.
NodeManagement, NodeManagementArgs
- Auto
Repair bool - A flag that specifies whether the node auto-repair is enabled for the node pool. If enabled, the nodes in this node pool will be monitored and, if they fail health checks too many times, an automatic repair action will be triggered.
- Auto
Upgrade bool - A flag that specifies whether node auto-upgrade is enabled for the node pool. If enabled, node auto-upgrade helps keep the nodes in your node pool up to date with the latest release version of Kubernetes.
- Upgrade
Options Pulumi.Google Native. Container. V1. Inputs. Auto Upgrade Options - Specifies the Auto Upgrade knobs for the node pool.
- Auto
Repair bool - A flag that specifies whether the node auto-repair is enabled for the node pool. If enabled, the nodes in this node pool will be monitored and, if they fail health checks too many times, an automatic repair action will be triggered.
- Auto
Upgrade bool - A flag that specifies whether node auto-upgrade is enabled for the node pool. If enabled, node auto-upgrade helps keep the nodes in your node pool up to date with the latest release version of Kubernetes.
- Upgrade
Options AutoUpgrade Options - Specifies the Auto Upgrade knobs for the node pool.
- auto
Repair Boolean - A flag that specifies whether the node auto-repair is enabled for the node pool. If enabled, the nodes in this node pool will be monitored and, if they fail health checks too many times, an automatic repair action will be triggered.
- auto
Upgrade Boolean - A flag that specifies whether node auto-upgrade is enabled for the node pool. If enabled, node auto-upgrade helps keep the nodes in your node pool up to date with the latest release version of Kubernetes.
- upgrade
Options AutoUpgrade Options - Specifies the Auto Upgrade knobs for the node pool.
- auto
Repair boolean - A flag that specifies whether the node auto-repair is enabled for the node pool. If enabled, the nodes in this node pool will be monitored and, if they fail health checks too many times, an automatic repair action will be triggered.
- auto
Upgrade boolean - A flag that specifies whether node auto-upgrade is enabled for the node pool. If enabled, node auto-upgrade helps keep the nodes in your node pool up to date with the latest release version of Kubernetes.
- upgrade
Options AutoUpgrade Options - Specifies the Auto Upgrade knobs for the node pool.
- auto_
repair bool - A flag that specifies whether the node auto-repair is enabled for the node pool. If enabled, the nodes in this node pool will be monitored and, if they fail health checks too many times, an automatic repair action will be triggered.
- auto_
upgrade bool - A flag that specifies whether node auto-upgrade is enabled for the node pool. If enabled, node auto-upgrade helps keep the nodes in your node pool up to date with the latest release version of Kubernetes.
- upgrade_
options AutoUpgrade Options - Specifies the Auto Upgrade knobs for the node pool.
- auto
Repair Boolean - A flag that specifies whether the node auto-repair is enabled for the node pool. If enabled, the nodes in this node pool will be monitored and, if they fail health checks too many times, an automatic repair action will be triggered.
- auto
Upgrade Boolean - A flag that specifies whether node auto-upgrade is enabled for the node pool. If enabled, node auto-upgrade helps keep the nodes in your node pool up to date with the latest release version of Kubernetes.
- upgrade
Options Property Map - Specifies the Auto Upgrade knobs for the node pool.
NodeManagementResponse, NodeManagementResponseArgs
- Auto
Repair bool - A flag that specifies whether the node auto-repair is enabled for the node pool. If enabled, the nodes in this node pool will be monitored and, if they fail health checks too many times, an automatic repair action will be triggered.
- Auto
Upgrade bool - A flag that specifies whether node auto-upgrade is enabled for the node pool. If enabled, node auto-upgrade helps keep the nodes in your node pool up to date with the latest release version of Kubernetes.
- Upgrade
Options Pulumi.Google Native. Container. V1. Inputs. Auto Upgrade Options Response - Specifies the Auto Upgrade knobs for the node pool.
- Auto
Repair bool - A flag that specifies whether the node auto-repair is enabled for the node pool. If enabled, the nodes in this node pool will be monitored and, if they fail health checks too many times, an automatic repair action will be triggered.
- Auto
Upgrade bool - A flag that specifies whether node auto-upgrade is enabled for the node pool. If enabled, node auto-upgrade helps keep the nodes in your node pool up to date with the latest release version of Kubernetes.
- Upgrade
Options AutoUpgrade Options Response - Specifies the Auto Upgrade knobs for the node pool.
- auto
Repair Boolean - A flag that specifies whether the node auto-repair is enabled for the node pool. If enabled, the nodes in this node pool will be monitored and, if they fail health checks too many times, an automatic repair action will be triggered.
- auto
Upgrade Boolean - A flag that specifies whether node auto-upgrade is enabled for the node pool. If enabled, node auto-upgrade helps keep the nodes in your node pool up to date with the latest release version of Kubernetes.
- upgrade
Options AutoUpgrade Options Response - Specifies the Auto Upgrade knobs for the node pool.
- auto
Repair boolean - A flag that specifies whether the node auto-repair is enabled for the node pool. If enabled, the nodes in this node pool will be monitored and, if they fail health checks too many times, an automatic repair action will be triggered.
- auto
Upgrade boolean - A flag that specifies whether node auto-upgrade is enabled for the node pool. If enabled, node auto-upgrade helps keep the nodes in your node pool up to date with the latest release version of Kubernetes.
- upgrade
Options AutoUpgrade Options Response - Specifies the Auto Upgrade knobs for the node pool.
- auto_
repair bool - A flag that specifies whether the node auto-repair is enabled for the node pool. If enabled, the nodes in this node pool will be monitored and, if they fail health checks too many times, an automatic repair action will be triggered.
- auto_
upgrade bool - A flag that specifies whether node auto-upgrade is enabled for the node pool. If enabled, node auto-upgrade helps keep the nodes in your node pool up to date with the latest release version of Kubernetes.
- upgrade_
options AutoUpgrade Options Response - Specifies the Auto Upgrade knobs for the node pool.
- auto
Repair Boolean - A flag that specifies whether the node auto-repair is enabled for the node pool. If enabled, the nodes in this node pool will be monitored and, if they fail health checks too many times, an automatic repair action will be triggered.
- auto
Upgrade Boolean - A flag that specifies whether node auto-upgrade is enabled for the node pool. If enabled, node auto-upgrade helps keep the nodes in your node pool up to date with the latest release version of Kubernetes.
- upgrade
Options Property Map - Specifies the Auto Upgrade knobs for the node pool.
NodeNetworkConfig, NodeNetworkConfigArgs
- Additional
Node List<Pulumi.Network Configs Google Native. Container. V1. Inputs. Additional Node Network Config> - We specify the additional node networks for this node pool using this list. Each node network corresponds to an additional interface
- Additional
Pod List<Pulumi.Network Configs Google Native. Container. V1. Inputs. Additional Pod Network Config> - We specify the additional pod networks for this node pool using this list. Each pod network corresponds to an additional alias IP range for the node
- Create
Pod boolRange - Input only. Whether to create a new range for pod IPs in this node pool. Defaults are provided for
pod_range
andpod_ipv4_cidr_block
if they are not specified. If neithercreate_pod_range
orpod_range
are specified, the cluster-level default (ip_allocation_policy.cluster_ipv4_cidr_block
) is used. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - Enable
Private boolNodes - Whether nodes have internal IP addresses only. If enable_private_nodes is not specified, then the value is derived from cluster.privateClusterConfig.enablePrivateNodes
- Network
Performance Pulumi.Config Google Native. Container. V1. Inputs. Network Performance Config - Network bandwidth tier configuration.
- Pod
Cidr Pulumi.Overprovision Config Google Native. Container. V1. Inputs. Pod CIDROverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the nodepool. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is rounded off to next power of 2 and we then double that to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- Pod
Ipv4Cidr stringBlock - The IP address range for pod IPs in this node pool. Only applicable if
create_pod_range
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) to pick a specific range to use. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - Pod
Range string - The ID of the secondary range for pod IPs. If
create_pod_range
is true, this ID is used for the new range. Ifcreate_pod_range
is false, uses an existing secondary range with this ID. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created.
- Additional
Node []AdditionalNetwork Configs Node Network Config - We specify the additional node networks for this node pool using this list. Each node network corresponds to an additional interface
- Additional
Pod []AdditionalNetwork Configs Pod Network Config - We specify the additional pod networks for this node pool using this list. Each pod network corresponds to an additional alias IP range for the node
- Create
Pod boolRange - Input only. Whether to create a new range for pod IPs in this node pool. Defaults are provided for
pod_range
andpod_ipv4_cidr_block
if they are not specified. If neithercreate_pod_range
orpod_range
are specified, the cluster-level default (ip_allocation_policy.cluster_ipv4_cidr_block
) is used. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - Enable
Private boolNodes - Whether nodes have internal IP addresses only. If enable_private_nodes is not specified, then the value is derived from cluster.privateClusterConfig.enablePrivateNodes
- Network
Performance NetworkConfig Performance Config - Network bandwidth tier configuration.
- Pod
Cidr PodOverprovision Config CIDROverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the nodepool. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is rounded off to next power of 2 and we then double that to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- Pod
Ipv4Cidr stringBlock - The IP address range for pod IPs in this node pool. Only applicable if
create_pod_range
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) to pick a specific range to use. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - Pod
Range string - The ID of the secondary range for pod IPs. If
create_pod_range
is true, this ID is used for the new range. Ifcreate_pod_range
is false, uses an existing secondary range with this ID. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created.
- additional
Node List<AdditionalNetwork Configs Node Network Config> - We specify the additional node networks for this node pool using this list. Each node network corresponds to an additional interface
- additional
Pod List<AdditionalNetwork Configs Pod Network Config> - We specify the additional pod networks for this node pool using this list. Each pod network corresponds to an additional alias IP range for the node
- create
Pod BooleanRange - Input only. Whether to create a new range for pod IPs in this node pool. Defaults are provided for
pod_range
andpod_ipv4_cidr_block
if they are not specified. If neithercreate_pod_range
orpod_range
are specified, the cluster-level default (ip_allocation_policy.cluster_ipv4_cidr_block
) is used. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - enable
Private BooleanNodes - Whether nodes have internal IP addresses only. If enable_private_nodes is not specified, then the value is derived from cluster.privateClusterConfig.enablePrivateNodes
- network
Performance NetworkConfig Performance Config - Network bandwidth tier configuration.
- pod
Cidr PodOverprovision Config CIDROverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the nodepool. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is rounded off to next power of 2 and we then double that to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- pod
Ipv4Cidr StringBlock - The IP address range for pod IPs in this node pool. Only applicable if
create_pod_range
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) to pick a specific range to use. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - pod
Range String - The ID of the secondary range for pod IPs. If
create_pod_range
is true, this ID is used for the new range. Ifcreate_pod_range
is false, uses an existing secondary range with this ID. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created.
- additional
Node AdditionalNetwork Configs Node Network Config[] - We specify the additional node networks for this node pool using this list. Each node network corresponds to an additional interface
- additional
Pod AdditionalNetwork Configs Pod Network Config[] - We specify the additional pod networks for this node pool using this list. Each pod network corresponds to an additional alias IP range for the node
- create
Pod booleanRange - Input only. Whether to create a new range for pod IPs in this node pool. Defaults are provided for
pod_range
andpod_ipv4_cidr_block
if they are not specified. If neithercreate_pod_range
orpod_range
are specified, the cluster-level default (ip_allocation_policy.cluster_ipv4_cidr_block
) is used. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - enable
Private booleanNodes - Whether nodes have internal IP addresses only. If enable_private_nodes is not specified, then the value is derived from cluster.privateClusterConfig.enablePrivateNodes
- network
Performance NetworkConfig Performance Config - Network bandwidth tier configuration.
- pod
Cidr PodOverprovision Config CIDROverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the nodepool. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is rounded off to next power of 2 and we then double that to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- pod
Ipv4Cidr stringBlock - The IP address range for pod IPs in this node pool. Only applicable if
create_pod_range
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) to pick a specific range to use. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - pod
Range string - The ID of the secondary range for pod IPs. If
create_pod_range
is true, this ID is used for the new range. Ifcreate_pod_range
is false, uses an existing secondary range with this ID. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created.
- additional_
node_ Sequence[Additionalnetwork_ configs Node Network Config] - We specify the additional node networks for this node pool using this list. Each node network corresponds to an additional interface
- additional_
pod_ Sequence[Additionalnetwork_ configs Pod Network Config] - We specify the additional pod networks for this node pool using this list. Each pod network corresponds to an additional alias IP range for the node
- create_
pod_ boolrange - Input only. Whether to create a new range for pod IPs in this node pool. Defaults are provided for
pod_range
andpod_ipv4_cidr_block
if they are not specified. If neithercreate_pod_range
orpod_range
are specified, the cluster-level default (ip_allocation_policy.cluster_ipv4_cidr_block
) is used. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - enable_
private_ boolnodes - Whether nodes have internal IP addresses only. If enable_private_nodes is not specified, then the value is derived from cluster.privateClusterConfig.enablePrivateNodes
- network_
performance_ Networkconfig Performance Config - Network bandwidth tier configuration.
- pod_
cidr_ Podoverprovision_ config CIDROverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the nodepool. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is rounded off to next power of 2 and we then double that to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- pod_
ipv4_ strcidr_ block - The IP address range for pod IPs in this node pool. Only applicable if
create_pod_range
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) to pick a specific range to use. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - pod_
range str - The ID of the secondary range for pod IPs. If
create_pod_range
is true, this ID is used for the new range. Ifcreate_pod_range
is false, uses an existing secondary range with this ID. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created.
- additional
Node List<Property Map>Network Configs - We specify the additional node networks for this node pool using this list. Each node network corresponds to an additional interface
- additional
Pod List<Property Map>Network Configs - We specify the additional pod networks for this node pool using this list. Each pod network corresponds to an additional alias IP range for the node
- create
Pod BooleanRange - Input only. Whether to create a new range for pod IPs in this node pool. Defaults are provided for
pod_range
andpod_ipv4_cidr_block
if they are not specified. If neithercreate_pod_range
orpod_range
are specified, the cluster-level default (ip_allocation_policy.cluster_ipv4_cidr_block
) is used. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - enable
Private BooleanNodes - Whether nodes have internal IP addresses only. If enable_private_nodes is not specified, then the value is derived from cluster.privateClusterConfig.enablePrivateNodes
- network
Performance Property MapConfig - Network bandwidth tier configuration.
- pod
Cidr Property MapOverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the nodepool. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is rounded off to next power of 2 and we then double that to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- pod
Ipv4Cidr StringBlock - The IP address range for pod IPs in this node pool. Only applicable if
create_pod_range
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) to pick a specific range to use. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - pod
Range String - The ID of the secondary range for pod IPs. If
create_pod_range
is true, this ID is used for the new range. Ifcreate_pod_range
is false, uses an existing secondary range with this ID. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created.
NodeNetworkConfigResponse, NodeNetworkConfigResponseArgs
- Additional
Node List<Pulumi.Network Configs Google Native. Container. V1. Inputs. Additional Node Network Config Response> - We specify the additional node networks for this node pool using this list. Each node network corresponds to an additional interface
- Additional
Pod List<Pulumi.Network Configs Google Native. Container. V1. Inputs. Additional Pod Network Config Response> - We specify the additional pod networks for this node pool using this list. Each pod network corresponds to an additional alias IP range for the node
- Create
Pod boolRange - Input only. Whether to create a new range for pod IPs in this node pool. Defaults are provided for
pod_range
andpod_ipv4_cidr_block
if they are not specified. If neithercreate_pod_range
orpod_range
are specified, the cluster-level default (ip_allocation_policy.cluster_ipv4_cidr_block
) is used. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - Enable
Private boolNodes - Whether nodes have internal IP addresses only. If enable_private_nodes is not specified, then the value is derived from cluster.privateClusterConfig.enablePrivateNodes
- Network
Performance Pulumi.Config Google Native. Container. V1. Inputs. Network Performance Config Response - Network bandwidth tier configuration.
- Pod
Cidr Pulumi.Overprovision Config Google Native. Container. V1. Inputs. Pod CIDROverprovision Config Response - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the nodepool. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is rounded off to next power of 2 and we then double that to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- Pod
Ipv4Cidr stringBlock - The IP address range for pod IPs in this node pool. Only applicable if
create_pod_range
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) to pick a specific range to use. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - Pod
Ipv4Range doubleUtilization - [Output only] The utilization of the IPv4 range for the pod. The ratio is Usage/[Total number of IPs in the secondary range], Usage=numNodesnumZonespodIPsPerNode.
- Pod
Range string - The ID of the secondary range for pod IPs. If
create_pod_range
is true, this ID is used for the new range. Ifcreate_pod_range
is false, uses an existing secondary range with this ID. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created.
- Additional
Node []AdditionalNetwork Configs Node Network Config Response - We specify the additional node networks for this node pool using this list. Each node network corresponds to an additional interface
- Additional
Pod []AdditionalNetwork Configs Pod Network Config Response - We specify the additional pod networks for this node pool using this list. Each pod network corresponds to an additional alias IP range for the node
- Create
Pod boolRange - Input only. Whether to create a new range for pod IPs in this node pool. Defaults are provided for
pod_range
andpod_ipv4_cidr_block
if they are not specified. If neithercreate_pod_range
orpod_range
are specified, the cluster-level default (ip_allocation_policy.cluster_ipv4_cidr_block
) is used. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - Enable
Private boolNodes - Whether nodes have internal IP addresses only. If enable_private_nodes is not specified, then the value is derived from cluster.privateClusterConfig.enablePrivateNodes
- Network
Performance NetworkConfig Performance Config Response - Network bandwidth tier configuration.
- Pod
Cidr PodOverprovision Config CIDROverprovision Config Response - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the nodepool. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is rounded off to next power of 2 and we then double that to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- Pod
Ipv4Cidr stringBlock - The IP address range for pod IPs in this node pool. Only applicable if
create_pod_range
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) to pick a specific range to use. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - Pod
Ipv4Range float64Utilization - [Output only] The utilization of the IPv4 range for the pod. The ratio is Usage/[Total number of IPs in the secondary range], Usage=numNodesnumZonespodIPsPerNode.
- Pod
Range string - The ID of the secondary range for pod IPs. If
create_pod_range
is true, this ID is used for the new range. Ifcreate_pod_range
is false, uses an existing secondary range with this ID. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created.
- additional
Node List<AdditionalNetwork Configs Node Network Config Response> - We specify the additional node networks for this node pool using this list. Each node network corresponds to an additional interface
- additional
Pod List<AdditionalNetwork Configs Pod Network Config Response> - We specify the additional pod networks for this node pool using this list. Each pod network corresponds to an additional alias IP range for the node
- create
Pod BooleanRange - Input only. Whether to create a new range for pod IPs in this node pool. Defaults are provided for
pod_range
andpod_ipv4_cidr_block
if they are not specified. If neithercreate_pod_range
orpod_range
are specified, the cluster-level default (ip_allocation_policy.cluster_ipv4_cidr_block
) is used. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - enable
Private BooleanNodes - Whether nodes have internal IP addresses only. If enable_private_nodes is not specified, then the value is derived from cluster.privateClusterConfig.enablePrivateNodes
- network
Performance NetworkConfig Performance Config Response - Network bandwidth tier configuration.
- pod
Cidr PodOverprovision Config CIDROverprovision Config Response - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the nodepool. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is rounded off to next power of 2 and we then double that to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- pod
Ipv4Cidr StringBlock - The IP address range for pod IPs in this node pool. Only applicable if
create_pod_range
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) to pick a specific range to use. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - pod
Ipv4Range DoubleUtilization - [Output only] The utilization of the IPv4 range for the pod. The ratio is Usage/[Total number of IPs in the secondary range], Usage=numNodesnumZonespodIPsPerNode.
- pod
Range String - The ID of the secondary range for pod IPs. If
create_pod_range
is true, this ID is used for the new range. Ifcreate_pod_range
is false, uses an existing secondary range with this ID. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created.
- additional
Node AdditionalNetwork Configs Node Network Config Response[] - We specify the additional node networks for this node pool using this list. Each node network corresponds to an additional interface
- additional
Pod AdditionalNetwork Configs Pod Network Config Response[] - We specify the additional pod networks for this node pool using this list. Each pod network corresponds to an additional alias IP range for the node
- create
Pod booleanRange - Input only. Whether to create a new range for pod IPs in this node pool. Defaults are provided for
pod_range
andpod_ipv4_cidr_block
if they are not specified. If neithercreate_pod_range
orpod_range
are specified, the cluster-level default (ip_allocation_policy.cluster_ipv4_cidr_block
) is used. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - enable
Private booleanNodes - Whether nodes have internal IP addresses only. If enable_private_nodes is not specified, then the value is derived from cluster.privateClusterConfig.enablePrivateNodes
- network
Performance NetworkConfig Performance Config Response - Network bandwidth tier configuration.
- pod
Cidr PodOverprovision Config CIDROverprovision Config Response - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the nodepool. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is rounded off to next power of 2 and we then double that to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- pod
Ipv4Cidr stringBlock - The IP address range for pod IPs in this node pool. Only applicable if
create_pod_range
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) to pick a specific range to use. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - pod
Ipv4Range numberUtilization - [Output only] The utilization of the IPv4 range for the pod. The ratio is Usage/[Total number of IPs in the secondary range], Usage=numNodesnumZonespodIPsPerNode.
- pod
Range string - The ID of the secondary range for pod IPs. If
create_pod_range
is true, this ID is used for the new range. Ifcreate_pod_range
is false, uses an existing secondary range with this ID. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created.
- additional_
node_ Sequence[Additionalnetwork_ configs Node Network Config Response] - We specify the additional node networks for this node pool using this list. Each node network corresponds to an additional interface
- additional_
pod_ Sequence[Additionalnetwork_ configs Pod Network Config Response] - We specify the additional pod networks for this node pool using this list. Each pod network corresponds to an additional alias IP range for the node
- create_
pod_ boolrange - Input only. Whether to create a new range for pod IPs in this node pool. Defaults are provided for
pod_range
andpod_ipv4_cidr_block
if they are not specified. If neithercreate_pod_range
orpod_range
are specified, the cluster-level default (ip_allocation_policy.cluster_ipv4_cidr_block
) is used. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - enable_
private_ boolnodes - Whether nodes have internal IP addresses only. If enable_private_nodes is not specified, then the value is derived from cluster.privateClusterConfig.enablePrivateNodes
- network_
performance_ Networkconfig Performance Config Response - Network bandwidth tier configuration.
- pod_
cidr_ Podoverprovision_ config CIDROverprovision Config Response - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the nodepool. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is rounded off to next power of 2 and we then double that to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- pod_
ipv4_ strcidr_ block - The IP address range for pod IPs in this node pool. Only applicable if
create_pod_range
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) to pick a specific range to use. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - pod_
ipv4_ floatrange_ utilization - [Output only] The utilization of the IPv4 range for the pod. The ratio is Usage/[Total number of IPs in the secondary range], Usage=numNodesnumZonespodIPsPerNode.
- pod_
range str - The ID of the secondary range for pod IPs. If
create_pod_range
is true, this ID is used for the new range. Ifcreate_pod_range
is false, uses an existing secondary range with this ID. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created.
- additional
Node List<Property Map>Network Configs - We specify the additional node networks for this node pool using this list. Each node network corresponds to an additional interface
- additional
Pod List<Property Map>Network Configs - We specify the additional pod networks for this node pool using this list. Each pod network corresponds to an additional alias IP range for the node
- create
Pod BooleanRange - Input only. Whether to create a new range for pod IPs in this node pool. Defaults are provided for
pod_range
andpod_ipv4_cidr_block
if they are not specified. If neithercreate_pod_range
orpod_range
are specified, the cluster-level default (ip_allocation_policy.cluster_ipv4_cidr_block
) is used. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - enable
Private BooleanNodes - Whether nodes have internal IP addresses only. If enable_private_nodes is not specified, then the value is derived from cluster.privateClusterConfig.enablePrivateNodes
- network
Performance Property MapConfig - Network bandwidth tier configuration.
- pod
Cidr Property MapOverprovision Config - [PRIVATE FIELD] Pod CIDR size overprovisioning config for the nodepool. Pod CIDR size per node depends on max_pods_per_node. By default, the value of max_pods_per_node is rounded off to next power of 2 and we then double that to get the size of pod CIDR block per node. Example: max_pods_per_node of 30 would result in 64 IPs (/26). This config can disable the doubling of IPs (we still round off to next power of 2) Example: max_pods_per_node of 30 will result in 32 IPs (/27) when overprovisioning is disabled.
- pod
Ipv4Cidr StringBlock - The IP address range for pod IPs in this node pool. Only applicable if
create_pod_range
is true. Set to blank to have a range chosen with the default size. Set to /netmask (e.g./14
) to have a range chosen with a specific netmask. Set to a CIDR notation (e.g.10.96.0.0/14
) to pick a specific range to use. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created. - pod
Ipv4Range NumberUtilization - [Output only] The utilization of the IPv4 range for the pod. The ratio is Usage/[Total number of IPs in the secondary range], Usage=numNodesnumZonespodIPsPerNode.
- pod
Range String - The ID of the secondary range for pod IPs. If
create_pod_range
is true, this ID is used for the new range. Ifcreate_pod_range
is false, uses an existing secondary range with this ID. Only applicable ifip_allocation_policy.use_ip_aliases
is true. This field cannot be changed after the node pool has been created.
NodePool, NodePoolArgs
- Autoscaling
Pulumi.
Google Native. Container. V1. Inputs. Node Pool Autoscaling - Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present.
- Best
Effort Pulumi.Provisioning Google Native. Container. V1. Inputs. Best Effort Provisioning - Enable best effort provisioning for nodes
- Conditions
List<Pulumi.
Google Native. Container. V1. Inputs. Status Condition> - Which conditions caused the current node pool state.
- Config
Pulumi.
Google Native. Container. V1. Inputs. Node Config - The node configuration of the pool.
- Etag string
- 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.
- Initial
Node intCount - The initial node count for the pool. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota.
- Locations List<string>
- 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.
- Management
Pulumi.
Google Native. Container. V1. Inputs. Node Management - NodeManagement configuration for this NodePool.
- Max
Pods Pulumi.Constraint Google Native. Container. V1. Inputs. Max Pods Constraint - The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool.
- Name string
- The name of the node pool.
- Network
Config Pulumi.Google Native. Container. V1. Inputs. Node Network Config - Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults.
- Placement
Policy Pulumi.Google Native. Container. V1. Inputs. Placement Policy - Specifies the node placement policy.
- Queued
Provisioning Pulumi.Google Native. Container. V1. Inputs. Queued Provisioning - Specifies the configuration of queued provisioning.
- Upgrade
Settings Pulumi.Google Native. Container. V1. Inputs. Upgrade Settings - Upgrade settings control disruption and speed of the upgrade.
- Version string
- The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here.
- Autoscaling
Node
Pool Autoscaling - Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present.
- Best
Effort BestProvisioning Effort Provisioning - Enable best effort provisioning for nodes
- Conditions
[]Status
Condition - Which conditions caused the current node pool state.
- Config
Node
Config - The node configuration of the pool.
- Etag string
- 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.
- Initial
Node intCount - The initial node count for the pool. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota.
- Locations []string
- 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.
- Management
Node
Management - NodeManagement configuration for this NodePool.
- Max
Pods MaxConstraint Pods Constraint - The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool.
- Name string
- The name of the node pool.
- Network
Config NodeNetwork Config - Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults.
- Placement
Policy PlacementPolicy - Specifies the node placement policy.
- Queued
Provisioning QueuedProvisioning - Specifies the configuration of queued provisioning.
- Upgrade
Settings UpgradeSettings - Upgrade settings control disruption and speed of the upgrade.
- Version string
- The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here.
- autoscaling
Node
Pool Autoscaling - Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present.
- best
Effort BestProvisioning Effort Provisioning - Enable best effort provisioning for nodes
- conditions
List<Status
Condition> - Which conditions caused the current node pool state.
- config
Node
Config - The node configuration of the pool.
- etag String
- 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.
- initial
Node IntegerCount - The initial node count for the pool. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota.
- locations List<String>
- 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.
- management
Node
Management - NodeManagement configuration for this NodePool.
- max
Pods MaxConstraint Pods Constraint - The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool.
- name String
- The name of the node pool.
- network
Config NodeNetwork Config - Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults.
- placement
Policy PlacementPolicy - Specifies the node placement policy.
- queued
Provisioning QueuedProvisioning - Specifies the configuration of queued provisioning.
- upgrade
Settings UpgradeSettings - Upgrade settings control disruption and speed of the upgrade.
- version String
- The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here.
- autoscaling
Node
Pool Autoscaling - Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present.
- best
Effort BestProvisioning Effort Provisioning - Enable best effort provisioning for nodes
- conditions
Status
Condition[] - Which conditions caused the current node pool state.
- config
Node
Config - The node configuration of the pool.
- etag string
- 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.
- initial
Node numberCount - The initial node count for the pool. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota.
- locations string[]
- 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.
- management
Node
Management - NodeManagement configuration for this NodePool.
- max
Pods MaxConstraint Pods Constraint - The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool.
- name string
- The name of the node pool.
- network
Config NodeNetwork Config - Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults.
- placement
Policy PlacementPolicy - Specifies the node placement policy.
- queued
Provisioning QueuedProvisioning - Specifies the configuration of queued provisioning.
- upgrade
Settings UpgradeSettings - Upgrade settings control disruption and speed of the upgrade.
- version string
- The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here.
- autoscaling
Node
Pool Autoscaling - Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present.
- best_
effort_ Bestprovisioning Effort Provisioning - Enable best effort provisioning for nodes
- conditions
Sequence[Status
Condition] - Which conditions caused the current node pool state.
- config
Node
Config - The node configuration of the pool.
- 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.
- initial_
node_ intcount - The initial node count for the pool. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota.
- locations Sequence[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.
- management
Node
Management - NodeManagement configuration for this NodePool.
- max_
pods_ Maxconstraint Pods Constraint - The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool.
- name str
- The name of the node pool.
- network_
config NodeNetwork Config - Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults.
- placement_
policy PlacementPolicy - Specifies the node placement policy.
- queued_
provisioning QueuedProvisioning - Specifies the configuration of queued provisioning.
- upgrade_
settings UpgradeSettings - Upgrade settings control disruption and speed of the upgrade.
- version str
- The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here.
- autoscaling Property Map
- Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present.
- best
Effort Property MapProvisioning - Enable best effort provisioning for nodes
- conditions List<Property Map>
- Which conditions caused the current node pool state.
- config Property Map
- The node configuration of the pool.
- etag String
- 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.
- initial
Node NumberCount - The initial node count for the pool. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota.
- locations List<String>
- 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.
- management Property Map
- NodeManagement configuration for this NodePool.
- max
Pods Property MapConstraint - The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool.
- name String
- The name of the node pool.
- network
Config Property Map - Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults.
- placement
Policy Property Map - Specifies the node placement policy.
- queued
Provisioning Property Map - Specifies the configuration of queued provisioning.
- upgrade
Settings Property Map - Upgrade settings control disruption and speed of the upgrade.
- version String
- The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here.
NodePoolAutoConfig, NodePoolAutoConfigArgs
- Pulumi.
Google Native. Container. V1. Inputs. Network Tags - The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster creation. Each tag within the list must comply with RFC1035.
- Pulumi.
Google Native. Container. V1. Inputs. Resource Manager Tags - Resource manager tag keys and values to be attached to the nodes for managing Compute Engine firewalls using Network Firewall Policies.
- Network
Tags - The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster creation. Each tag within the list must comply with RFC1035.
- Resource
Manager Tags - Resource manager tag keys and values to be attached to the nodes for managing Compute Engine firewalls using Network Firewall Policies.
- Network
Tags - The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster creation. Each tag within the list must comply with RFC1035.
- Resource
Manager Tags - Resource manager tag keys and values to be attached to the nodes for managing Compute Engine firewalls using Network Firewall Policies.
- Network
Tags - The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster creation. Each tag within the list must comply with RFC1035.
- Resource
Manager Tags - Resource manager tag keys and values to be attached to the nodes for managing Compute Engine firewalls using Network Firewall Policies.
- Network
Tags - The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster creation. Each tag within the list must comply with RFC1035.
- Resource
Manager Tags - Resource manager tag keys and values to be attached to the nodes for managing Compute Engine firewalls using Network Firewall Policies.
- Property Map
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster creation. Each tag within the list must comply with RFC1035.
- Property Map
- Resource manager tag keys and values to be attached to the nodes for managing Compute Engine firewalls using Network Firewall Policies.
NodePoolAutoConfigResponse, NodePoolAutoConfigResponseArgs
- Pulumi.
Google Native. Container. V1. Inputs. Network Tags Response - The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster creation. Each tag within the list must comply with RFC1035.
- Pulumi.
Google Native. Container. V1. Inputs. Resource Manager Tags Response - Resource manager tag keys and values to be attached to the nodes for managing Compute Engine firewalls using Network Firewall Policies.
- Network
Tags Response - The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster creation. Each tag within the list must comply with RFC1035.
- Resource
Manager Tags Response - Resource manager tag keys and values to be attached to the nodes for managing Compute Engine firewalls using Network Firewall Policies.
- Network
Tags Response - The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster creation. Each tag within the list must comply with RFC1035.
- Resource
Manager Tags Response - Resource manager tag keys and values to be attached to the nodes for managing Compute Engine firewalls using Network Firewall Policies.
- Network
Tags Response - The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster creation. Each tag within the list must comply with RFC1035.
- Resource
Manager Tags Response - Resource manager tag keys and values to be attached to the nodes for managing Compute Engine firewalls using Network Firewall Policies.
- Network
Tags Response - The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster creation. Each tag within the list must comply with RFC1035.
- Resource
Manager Tags Response - Resource manager tag keys and values to be attached to the nodes for managing Compute Engine firewalls using Network Firewall Policies.
- Property Map
- The list of instance tags applied to all nodes. Tags are used to identify valid sources or targets for network firewalls and are specified by the client during cluster creation. Each tag within the list must comply with RFC1035.
- Property Map
- Resource manager tag keys and values to be attached to the nodes for managing Compute Engine firewalls using Network Firewall Policies.
NodePoolAutoscaling, NodePoolAutoscalingArgs
- Autoprovisioned bool
- Can this node pool be deleted automatically.
- Enabled bool
- Is autoscaling enabled for this node pool.
- Location
Policy Pulumi.Google Native. Container. V1. Node Pool Autoscaling Location Policy - Location policy used when scaling up a nodepool.
- Max
Node intCount - Maximum number of nodes for one location in the NodePool. Must be >= min_node_count. There has to be enough quota to scale up the cluster.
- Min
Node intCount - Minimum number of nodes for one location in the NodePool. Must be >= 1 and <= max_node_count.
- Total
Max intNode Count - Maximum number of nodes in the node pool. Must be greater than total_min_node_count. There has to be enough quota to scale up the cluster. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- Total
Min intNode Count - Minimum number of nodes in the node pool. Must be greater than 1 less than total_max_node_count. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- Autoprovisioned bool
- Can this node pool be deleted automatically.
- Enabled bool
- Is autoscaling enabled for this node pool.
- Location
Policy NodePool Autoscaling Location Policy - Location policy used when scaling up a nodepool.
- Max
Node intCount - Maximum number of nodes for one location in the NodePool. Must be >= min_node_count. There has to be enough quota to scale up the cluster.
- Min
Node intCount - Minimum number of nodes for one location in the NodePool. Must be >= 1 and <= max_node_count.
- Total
Max intNode Count - Maximum number of nodes in the node pool. Must be greater than total_min_node_count. There has to be enough quota to scale up the cluster. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- Total
Min intNode Count - Minimum number of nodes in the node pool. Must be greater than 1 less than total_max_node_count. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- autoprovisioned Boolean
- Can this node pool be deleted automatically.
- enabled Boolean
- Is autoscaling enabled for this node pool.
- location
Policy NodePool Autoscaling Location Policy - Location policy used when scaling up a nodepool.
- max
Node IntegerCount - Maximum number of nodes for one location in the NodePool. Must be >= min_node_count. There has to be enough quota to scale up the cluster.
- min
Node IntegerCount - Minimum number of nodes for one location in the NodePool. Must be >= 1 and <= max_node_count.
- total
Max IntegerNode Count - Maximum number of nodes in the node pool. Must be greater than total_min_node_count. There has to be enough quota to scale up the cluster. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- total
Min IntegerNode Count - Minimum number of nodes in the node pool. Must be greater than 1 less than total_max_node_count. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- autoprovisioned boolean
- Can this node pool be deleted automatically.
- enabled boolean
- Is autoscaling enabled for this node pool.
- location
Policy NodePool Autoscaling Location Policy - Location policy used when scaling up a nodepool.
- max
Node numberCount - Maximum number of nodes for one location in the NodePool. Must be >= min_node_count. There has to be enough quota to scale up the cluster.
- min
Node numberCount - Minimum number of nodes for one location in the NodePool. Must be >= 1 and <= max_node_count.
- total
Max numberNode Count - Maximum number of nodes in the node pool. Must be greater than total_min_node_count. There has to be enough quota to scale up the cluster. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- total
Min numberNode Count - Minimum number of nodes in the node pool. Must be greater than 1 less than total_max_node_count. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- autoprovisioned bool
- Can this node pool be deleted automatically.
- enabled bool
- Is autoscaling enabled for this node pool.
- location_
policy NodePool Autoscaling Location Policy - Location policy used when scaling up a nodepool.
- max_
node_ intcount - Maximum number of nodes for one location in the NodePool. Must be >= min_node_count. There has to be enough quota to scale up the cluster.
- min_
node_ intcount - Minimum number of nodes for one location in the NodePool. Must be >= 1 and <= max_node_count.
- total_
max_ intnode_ count - Maximum number of nodes in the node pool. Must be greater than total_min_node_count. There has to be enough quota to scale up the cluster. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- total_
min_ intnode_ count - Minimum number of nodes in the node pool. Must be greater than 1 less than total_max_node_count. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- autoprovisioned Boolean
- Can this node pool be deleted automatically.
- enabled Boolean
- Is autoscaling enabled for this node pool.
- location
Policy "LOCATION_POLICY_UNSPECIFIED" | "BALANCED" | "ANY" - Location policy used when scaling up a nodepool.
- max
Node NumberCount - Maximum number of nodes for one location in the NodePool. Must be >= min_node_count. There has to be enough quota to scale up the cluster.
- min
Node NumberCount - Minimum number of nodes for one location in the NodePool. Must be >= 1 and <= max_node_count.
- total
Max NumberNode Count - Maximum number of nodes in the node pool. Must be greater than total_min_node_count. There has to be enough quota to scale up the cluster. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- total
Min NumberNode Count - Minimum number of nodes in the node pool. Must be greater than 1 less than total_max_node_count. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
NodePoolAutoscalingLocationPolicy, NodePoolAutoscalingLocationPolicyArgs
- Location
Policy Unspecified - LOCATION_POLICY_UNSPECIFIEDNot set.
- Balanced
- BALANCEDBALANCED is a best effort policy that aims to balance the sizes of different zones.
- Any
- ANYANY policy picks zones that have the highest capacity available.
- Node
Pool Autoscaling Location Policy Location Policy Unspecified - LOCATION_POLICY_UNSPECIFIEDNot set.
- Node
Pool Autoscaling Location Policy Balanced - BALANCEDBALANCED is a best effort policy that aims to balance the sizes of different zones.
- Node
Pool Autoscaling Location Policy Any - ANYANY policy picks zones that have the highest capacity available.
- Location
Policy Unspecified - LOCATION_POLICY_UNSPECIFIEDNot set.
- Balanced
- BALANCEDBALANCED is a best effort policy that aims to balance the sizes of different zones.
- Any
- ANYANY policy picks zones that have the highest capacity available.
- Location
Policy Unspecified - LOCATION_POLICY_UNSPECIFIEDNot set.
- Balanced
- BALANCEDBALANCED is a best effort policy that aims to balance the sizes of different zones.
- Any
- ANYANY policy picks zones that have the highest capacity available.
- LOCATION_POLICY_UNSPECIFIED
- LOCATION_POLICY_UNSPECIFIEDNot set.
- BALANCED
- BALANCEDBALANCED is a best effort policy that aims to balance the sizes of different zones.
- ANY
- ANYANY policy picks zones that have the highest capacity available.
- "LOCATION_POLICY_UNSPECIFIED"
- LOCATION_POLICY_UNSPECIFIEDNot set.
- "BALANCED"
- BALANCEDBALANCED is a best effort policy that aims to balance the sizes of different zones.
- "ANY"
- ANYANY policy picks zones that have the highest capacity available.
NodePoolAutoscalingResponse, NodePoolAutoscalingResponseArgs
- Autoprovisioned bool
- Can this node pool be deleted automatically.
- Enabled bool
- Is autoscaling enabled for this node pool.
- Location
Policy string - Location policy used when scaling up a nodepool.
- Max
Node intCount - Maximum number of nodes for one location in the NodePool. Must be >= min_node_count. There has to be enough quota to scale up the cluster.
- Min
Node intCount - Minimum number of nodes for one location in the NodePool. Must be >= 1 and <= max_node_count.
- Total
Max intNode Count - Maximum number of nodes in the node pool. Must be greater than total_min_node_count. There has to be enough quota to scale up the cluster. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- Total
Min intNode Count - Minimum number of nodes in the node pool. Must be greater than 1 less than total_max_node_count. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- Autoprovisioned bool
- Can this node pool be deleted automatically.
- Enabled bool
- Is autoscaling enabled for this node pool.
- Location
Policy string - Location policy used when scaling up a nodepool.
- Max
Node intCount - Maximum number of nodes for one location in the NodePool. Must be >= min_node_count. There has to be enough quota to scale up the cluster.
- Min
Node intCount - Minimum number of nodes for one location in the NodePool. Must be >= 1 and <= max_node_count.
- Total
Max intNode Count - Maximum number of nodes in the node pool. Must be greater than total_min_node_count. There has to be enough quota to scale up the cluster. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- Total
Min intNode Count - Minimum number of nodes in the node pool. Must be greater than 1 less than total_max_node_count. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- autoprovisioned Boolean
- Can this node pool be deleted automatically.
- enabled Boolean
- Is autoscaling enabled for this node pool.
- location
Policy String - Location policy used when scaling up a nodepool.
- max
Node IntegerCount - Maximum number of nodes for one location in the NodePool. Must be >= min_node_count. There has to be enough quota to scale up the cluster.
- min
Node IntegerCount - Minimum number of nodes for one location in the NodePool. Must be >= 1 and <= max_node_count.
- total
Max IntegerNode Count - Maximum number of nodes in the node pool. Must be greater than total_min_node_count. There has to be enough quota to scale up the cluster. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- total
Min IntegerNode Count - Minimum number of nodes in the node pool. Must be greater than 1 less than total_max_node_count. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- autoprovisioned boolean
- Can this node pool be deleted automatically.
- enabled boolean
- Is autoscaling enabled for this node pool.
- location
Policy string - Location policy used when scaling up a nodepool.
- max
Node numberCount - Maximum number of nodes for one location in the NodePool. Must be >= min_node_count. There has to be enough quota to scale up the cluster.
- min
Node numberCount - Minimum number of nodes for one location in the NodePool. Must be >= 1 and <= max_node_count.
- total
Max numberNode Count - Maximum number of nodes in the node pool. Must be greater than total_min_node_count. There has to be enough quota to scale up the cluster. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- total
Min numberNode Count - Minimum number of nodes in the node pool. Must be greater than 1 less than total_max_node_count. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- autoprovisioned bool
- Can this node pool be deleted automatically.
- enabled bool
- Is autoscaling enabled for this node pool.
- location_
policy str - Location policy used when scaling up a nodepool.
- max_
node_ intcount - Maximum number of nodes for one location in the NodePool. Must be >= min_node_count. There has to be enough quota to scale up the cluster.
- min_
node_ intcount - Minimum number of nodes for one location in the NodePool. Must be >= 1 and <= max_node_count.
- total_
max_ intnode_ count - Maximum number of nodes in the node pool. Must be greater than total_min_node_count. There has to be enough quota to scale up the cluster. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- total_
min_ intnode_ count - Minimum number of nodes in the node pool. Must be greater than 1 less than total_max_node_count. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- autoprovisioned Boolean
- Can this node pool be deleted automatically.
- enabled Boolean
- Is autoscaling enabled for this node pool.
- location
Policy String - Location policy used when scaling up a nodepool.
- max
Node NumberCount - Maximum number of nodes for one location in the NodePool. Must be >= min_node_count. There has to be enough quota to scale up the cluster.
- min
Node NumberCount - Minimum number of nodes for one location in the NodePool. Must be >= 1 and <= max_node_count.
- total
Max NumberNode Count - Maximum number of nodes in the node pool. Must be greater than total_min_node_count. There has to be enough quota to scale up the cluster. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
- total
Min NumberNode Count - Minimum number of nodes in the node pool. Must be greater than 1 less than total_max_node_count. The total_*_node_count fields are mutually exclusive with the *_node_count fields.
NodePoolDefaults, NodePoolDefaultsArgs
- Node
Config Pulumi.Defaults Google Native. Container. V1. Inputs. Node Config Defaults - Subset of NodeConfig message that has defaults.
- Node
Config NodeDefaults Config Defaults - Subset of NodeConfig message that has defaults.
- node
Config NodeDefaults Config Defaults - Subset of NodeConfig message that has defaults.
- node
Config NodeDefaults Config Defaults - Subset of NodeConfig message that has defaults.
- node_
config_ Nodedefaults Config Defaults - Subset of NodeConfig message that has defaults.
- node
Config Property MapDefaults - Subset of NodeConfig message that has defaults.
NodePoolDefaultsResponse, NodePoolDefaultsResponseArgs
- Node
Config Pulumi.Defaults Google Native. Container. V1. Inputs. Node Config Defaults Response - Subset of NodeConfig message that has defaults.
- Node
Config NodeDefaults Config Defaults Response - Subset of NodeConfig message that has defaults.
- node
Config NodeDefaults Config Defaults Response - Subset of NodeConfig message that has defaults.
- node
Config NodeDefaults Config Defaults Response - Subset of NodeConfig message that has defaults.
- node_
config_ Nodedefaults Config Defaults Response - Subset of NodeConfig message that has defaults.
- node
Config Property MapDefaults - Subset of NodeConfig message that has defaults.
NodePoolLoggingConfig, NodePoolLoggingConfigArgs
- Variant
Config Pulumi.Google Native. Container. V1. Inputs. Logging Variant Config - Logging variant configuration.
- Variant
Config LoggingVariant Config - Logging variant configuration.
- variant
Config LoggingVariant Config - Logging variant configuration.
- variant
Config LoggingVariant Config - Logging variant configuration.
- variant_
config LoggingVariant Config - Logging variant configuration.
- variant
Config Property Map - Logging variant configuration.
NodePoolLoggingConfigResponse, NodePoolLoggingConfigResponseArgs
- Variant
Config Pulumi.Google Native. Container. V1. Inputs. Logging Variant Config Response - Logging variant configuration.
- Variant
Config LoggingVariant Config Response - Logging variant configuration.
- variant
Config LoggingVariant Config Response - Logging variant configuration.
- variant
Config LoggingVariant Config Response - Logging variant configuration.
- variant_
config LoggingVariant Config Response - Logging variant configuration.
- variant
Config Property Map - Logging variant configuration.
NodePoolResponse, NodePoolResponseArgs
- Autoscaling
Pulumi.
Google Native. Container. V1. Inputs. Node Pool Autoscaling Response - Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present.
- Best
Effort Pulumi.Provisioning Google Native. Container. V1. Inputs. Best Effort Provisioning Response - Enable best effort provisioning for nodes
- Conditions
List<Pulumi.
Google Native. Container. V1. Inputs. Status Condition Response> - Which conditions caused the current node pool state.
- Config
Pulumi.
Google Native. Container. V1. Inputs. Node Config Response - The node configuration of the pool.
- Etag string
- 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.
- Initial
Node intCount - The initial node count for the pool. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota.
- Instance
Group List<string>Urls - [Output only] The resource URLs of the managed instance groups associated with this node pool. During the node pool blue-green upgrade operation, the URLs contain both blue and green resources.
- Locations List<string>
- 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.
- Management
Pulumi.
Google Native. Container. V1. Inputs. Node Management Response - NodeManagement configuration for this NodePool.
- Max
Pods Pulumi.Constraint Google Native. Container. V1. Inputs. Max Pods Constraint Response - The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool.
- Name string
- The name of the node pool.
- Network
Config Pulumi.Google Native. Container. V1. Inputs. Node Network Config Response - Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults.
- Placement
Policy Pulumi.Google Native. Container. V1. Inputs. Placement Policy Response - Specifies the node placement policy.
- Pod
Ipv4Cidr intSize - [Output only] The pod CIDR block size per node in this node pool.
- Queued
Provisioning Pulumi.Google Native. Container. V1. Inputs. Queued Provisioning Response - Specifies the configuration of queued provisioning.
- Self
Link string - [Output only] Server-defined URL for the resource.
- Status string
- [Output only] The status of the nodes in this pool instance.
- Status
Message string - [Output only] Deprecated. Use conditions instead. Additional information about the current status of this node pool instance, if available.
- Update
Info Pulumi.Google Native. Container. V1. Inputs. Update Info Response - [Output only] Update info contains relevant information during a node pool update.
- Upgrade
Settings Pulumi.Google Native. Container. V1. Inputs. Upgrade Settings Response - Upgrade settings control disruption and speed of the upgrade.
- Version string
- The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here.
- Autoscaling
Node
Pool Autoscaling Response - Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present.
- Best
Effort BestProvisioning Effort Provisioning Response - Enable best effort provisioning for nodes
- Conditions
[]Status
Condition Response - Which conditions caused the current node pool state.
- Config
Node
Config Response - The node configuration of the pool.
- Etag string
- 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.
- Initial
Node intCount - The initial node count for the pool. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota.
- Instance
Group []stringUrls - [Output only] The resource URLs of the managed instance groups associated with this node pool. During the node pool blue-green upgrade operation, the URLs contain both blue and green resources.
- Locations []string
- 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.
- Management
Node
Management Response - NodeManagement configuration for this NodePool.
- Max
Pods MaxConstraint Pods Constraint Response - The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool.
- Name string
- The name of the node pool.
- Network
Config NodeNetwork Config Response - Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults.
- Placement
Policy PlacementPolicy Response - Specifies the node placement policy.
- Pod
Ipv4Cidr intSize - [Output only] The pod CIDR block size per node in this node pool.
- Queued
Provisioning QueuedProvisioning Response - Specifies the configuration of queued provisioning.
- Self
Link string - [Output only] Server-defined URL for the resource.
- Status string
- [Output only] The status of the nodes in this pool instance.
- Status
Message string - [Output only] Deprecated. Use conditions instead. Additional information about the current status of this node pool instance, if available.
- Update
Info UpdateInfo Response - [Output only] Update info contains relevant information during a node pool update.
- Upgrade
Settings UpgradeSettings Response - Upgrade settings control disruption and speed of the upgrade.
- Version string
- The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here.
- autoscaling
Node
Pool Autoscaling Response - Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present.
- best
Effort BestProvisioning Effort Provisioning Response - Enable best effort provisioning for nodes
- conditions
List<Status
Condition Response> - Which conditions caused the current node pool state.
- config
Node
Config Response - The node configuration of the pool.
- etag String
- 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.
- initial
Node IntegerCount - The initial node count for the pool. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota.
- instance
Group List<String>Urls - [Output only] The resource URLs of the managed instance groups associated with this node pool. During the node pool blue-green upgrade operation, the URLs contain both blue and green resources.
- locations List<String>
- 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.
- management
Node
Management Response - NodeManagement configuration for this NodePool.
- max
Pods MaxConstraint Pods Constraint Response - The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool.
- name String
- The name of the node pool.
- network
Config NodeNetwork Config Response - Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults.
- placement
Policy PlacementPolicy Response - Specifies the node placement policy.
- pod
Ipv4Cidr IntegerSize - [Output only] The pod CIDR block size per node in this node pool.
- queued
Provisioning QueuedProvisioning Response - Specifies the configuration of queued provisioning.
- self
Link String - [Output only] Server-defined URL for the resource.
- status String
- [Output only] The status of the nodes in this pool instance.
- status
Message String - [Output only] Deprecated. Use conditions instead. Additional information about the current status of this node pool instance, if available.
- update
Info UpdateInfo Response - [Output only] Update info contains relevant information during a node pool update.
- upgrade
Settings UpgradeSettings Response - Upgrade settings control disruption and speed of the upgrade.
- version String
- The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here.
- autoscaling
Node
Pool Autoscaling Response - Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present.
- best
Effort BestProvisioning Effort Provisioning Response - Enable best effort provisioning for nodes
- conditions
Status
Condition Response[] - Which conditions caused the current node pool state.
- config
Node
Config Response - The node configuration of the pool.
- etag string
- 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.
- initial
Node numberCount - The initial node count for the pool. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota.
- instance
Group string[]Urls - [Output only] The resource URLs of the managed instance groups associated with this node pool. During the node pool blue-green upgrade operation, the URLs contain both blue and green resources.
- locations string[]
- 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.
- management
Node
Management Response - NodeManagement configuration for this NodePool.
- max
Pods MaxConstraint Pods Constraint Response - The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool.
- name string
- The name of the node pool.
- network
Config NodeNetwork Config Response - Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults.
- placement
Policy PlacementPolicy Response - Specifies the node placement policy.
- pod
Ipv4Cidr numberSize - [Output only] The pod CIDR block size per node in this node pool.
- queued
Provisioning QueuedProvisioning Response - Specifies the configuration of queued provisioning.
- self
Link string - [Output only] Server-defined URL for the resource.
- status string
- [Output only] The status of the nodes in this pool instance.
- status
Message string - [Output only] Deprecated. Use conditions instead. Additional information about the current status of this node pool instance, if available.
- update
Info UpdateInfo Response - [Output only] Update info contains relevant information during a node pool update.
- upgrade
Settings UpgradeSettings Response - Upgrade settings control disruption and speed of the upgrade.
- version string
- The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here.
- autoscaling
Node
Pool Autoscaling Response - Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present.
- best_
effort_ Bestprovisioning Effort Provisioning Response - Enable best effort provisioning for nodes
- conditions
Sequence[Status
Condition Response] - Which conditions caused the current node pool state.
- config
Node
Config Response - The node configuration of the pool.
- 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.
- initial_
node_ intcount - The initial node count for the pool. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota.
- instance_
group_ Sequence[str]urls - [Output only] The resource URLs of the managed instance groups associated with this node pool. During the node pool blue-green upgrade operation, the URLs contain both blue and green resources.
- locations Sequence[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.
- management
Node
Management Response - NodeManagement configuration for this NodePool.
- max_
pods_ Maxconstraint Pods Constraint Response - The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool.
- name str
- The name of the node pool.
- network_
config NodeNetwork Config Response - Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults.
- placement_
policy PlacementPolicy Response - Specifies the node placement policy.
- pod_
ipv4_ intcidr_ size - [Output only] The pod CIDR block size per node in this node pool.
- queued_
provisioning QueuedProvisioning Response - Specifies the configuration of queued provisioning.
- self_
link str - [Output only] Server-defined URL for the resource.
- status str
- [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.
- update_
info UpdateInfo Response - [Output only] Update info contains relevant information during a node pool update.
- upgrade_
settings UpgradeSettings Response - Upgrade settings control disruption and speed of the upgrade.
- version str
- The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here.
- autoscaling Property Map
- Autoscaler configuration for this NodePool. Autoscaler is enabled only if a valid configuration is present.
- best
Effort Property MapProvisioning - Enable best effort provisioning for nodes
- conditions List<Property Map>
- Which conditions caused the current node pool state.
- config Property Map
- The node configuration of the pool.
- etag String
- 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.
- initial
Node NumberCount - The initial node count for the pool. You must ensure that your Compute Engine resource quota is sufficient for this number of instances. You must also have available firewall and routes quota.
- instance
Group List<String>Urls - [Output only] The resource URLs of the managed instance groups associated with this node pool. During the node pool blue-green upgrade operation, the URLs contain both blue and green resources.
- locations List<String>
- 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.
- management Property Map
- NodeManagement configuration for this NodePool.
- max
Pods Property MapConstraint - The constraint on the maximum number of pods that can be run simultaneously on a node in the node pool.
- name String
- The name of the node pool.
- network
Config Property Map - Networking configuration for this NodePool. If specified, it overrides the cluster-level defaults.
- placement
Policy Property Map - Specifies the node placement policy.
- pod
Ipv4Cidr NumberSize - [Output only] The pod CIDR block size per node in this node pool.
- queued
Provisioning Property Map - Specifies the configuration of queued provisioning.
- self
Link String - [Output only] Server-defined URL for the resource.
- status String
- [Output only] The status of the nodes in this pool instance.
- status
Message String - [Output only] Deprecated. Use conditions instead. Additional information about the current status of this node pool instance, if available.
- update
Info Property Map - [Output only] Update info contains relevant information during a node pool update.
- upgrade
Settings Property Map - Upgrade settings control disruption and speed of the upgrade.
- version String
- The version of Kubernetes running on this NodePool's nodes. If unspecified, it defaults as described here.
NodeTaint, NodeTaintArgs
- Effect
Pulumi.
Google Native. Container. V1. Node Taint Effect - Effect for taint.
- Key string
- Key for taint.
- Value string
- Value for taint.
- Effect
Node
Taint Effect - Effect for taint.
- Key string
- Key for taint.
- Value string
- Value for taint.
- effect
Node
Taint Effect - Effect for taint.
- key String
- Key for taint.
- value String
- Value for taint.
- effect
Node
Taint Effect - Effect for taint.
- key string
- Key for taint.
- value string
- Value for taint.
- effect
Node
Taint Effect - Effect for taint.
- key str
- Key for taint.
- value str
- Value for taint.
- effect "EFFECT_UNSPECIFIED" | "NO_SCHEDULE" | "PREFER_NO_SCHEDULE" | "NO_EXECUTE"
- Effect for taint.
- key String
- Key for taint.
- value String
- Value for taint.
NodeTaintEffect, NodeTaintEffectArgs
- Effect
Unspecified - EFFECT_UNSPECIFIEDNot set
- No
Schedule - NO_SCHEDULENoSchedule
- Prefer
No Schedule - PREFER_NO_SCHEDULEPreferNoSchedule
- No
Execute - NO_EXECUTENoExecute
- Node
Taint Effect Effect Unspecified - EFFECT_UNSPECIFIEDNot set
- Node
Taint Effect No Schedule - NO_SCHEDULENoSchedule
- Node
Taint Effect Prefer No Schedule - PREFER_NO_SCHEDULEPreferNoSchedule
- Node
Taint Effect No Execute - NO_EXECUTENoExecute
- Effect
Unspecified - EFFECT_UNSPECIFIEDNot set
- No
Schedule - NO_SCHEDULENoSchedule
- Prefer
No Schedule - PREFER_NO_SCHEDULEPreferNoSchedule
- No
Execute - NO_EXECUTENoExecute
- Effect
Unspecified - EFFECT_UNSPECIFIEDNot set
- No
Schedule - NO_SCHEDULENoSchedule
- Prefer
No Schedule - PREFER_NO_SCHEDULEPreferNoSchedule
- No
Execute - NO_EXECUTENoExecute
- EFFECT_UNSPECIFIED
- EFFECT_UNSPECIFIEDNot set
- NO_SCHEDULE
- NO_SCHEDULENoSchedule
- PREFER_NO_SCHEDULE
- PREFER_NO_SCHEDULEPreferNoSchedule
- NO_EXECUTE
- NO_EXECUTENoExecute
- "EFFECT_UNSPECIFIED"
- EFFECT_UNSPECIFIEDNot set
- "NO_SCHEDULE"
- NO_SCHEDULENoSchedule
- "PREFER_NO_SCHEDULE"
- PREFER_NO_SCHEDULEPreferNoSchedule
- "NO_EXECUTE"
- NO_EXECUTENoExecute
NodeTaintResponse, NodeTaintResponseArgs
NotificationConfig, NotificationConfigArgs
- Pubsub
Pulumi.
Google Native. Container. V1. Inputs. Pub Sub - Notification config for Pub/Sub.
- pubsub Property Map
- Notification config for Pub/Sub.
NotificationConfigResponse, NotificationConfigResponseArgs
- Pubsub
Pulumi.
Google Native. Container. V1. Inputs. Pub Sub Response - Notification config for Pub/Sub.
- Pubsub
Pub
Sub Response - Notification config for Pub/Sub.
- pubsub
Pub
Sub Response - Notification config for Pub/Sub.
- pubsub
Pub
Sub Response - Notification config for Pub/Sub.
- pubsub
Pub
Sub Response - Notification config for Pub/Sub.
- pubsub Property Map
- Notification config for Pub/Sub.
ParentProductConfig, ParentProductConfigArgs
- Labels Dictionary<string, string>
- Labels contain the configuration of the parent product.
- Product
Name string - Name of the parent product associated with the cluster.
- Labels map[string]string
- Labels contain the configuration of the parent product.
- Product
Name string - Name of the parent product associated with the cluster.
- labels Map<String,String>
- Labels contain the configuration of the parent product.
- product
Name String - Name of the parent product associated with the cluster.
- labels {[key: string]: string}
- Labels contain the configuration of the parent product.
- product
Name string - Name of the parent product associated with the cluster.
- labels Mapping[str, str]
- Labels contain the configuration of the parent product.
- product_
name str - Name of the parent product associated with the cluster.
- labels Map<String>
- Labels contain the configuration of the parent product.
- product
Name String - Name of the parent product associated with the cluster.
ParentProductConfigResponse, ParentProductConfigResponseArgs
- Labels Dictionary<string, string>
- Labels contain the configuration of the parent product.
- Product
Name string - Name of the parent product associated with the cluster.
- Labels map[string]string
- Labels contain the configuration of the parent product.
- Product
Name string - Name of the parent product associated with the cluster.
- labels Map<String,String>
- Labels contain the configuration of the parent product.
- product
Name String - Name of the parent product associated with the cluster.
- labels {[key: string]: string}
- Labels contain the configuration of the parent product.
- product
Name string - Name of the parent product associated with the cluster.
- labels Mapping[str, str]
- Labels contain the configuration of the parent product.
- product_
name str - Name of the parent product associated with the cluster.
- labels Map<String>
- Labels contain the configuration of the parent product.
- product
Name String - Name of the parent product associated with the cluster.
PlacementPolicy, PlacementPolicyArgs
- Policy
Name string - If set, refers to the name of a custom resource policy supplied by the user. The resource policy must be in the same project and region as the node pool. If not found, InvalidArgument error is returned.
- Tpu
Topology string - Optional. TPU placement topology for pod slice node pool. https://cloud.google.com/tpu/docs/types-topologies#tpu_topologies
- Type
Pulumi.
Google Native. Container. V1. Placement Policy Type - The type of placement.
- Policy
Name string - If set, refers to the name of a custom resource policy supplied by the user. The resource policy must be in the same project and region as the node pool. If not found, InvalidArgument error is returned.
- Tpu
Topology string - Optional. TPU placement topology for pod slice node pool. https://cloud.google.com/tpu/docs/types-topologies#tpu_topologies
- Type
Placement
Policy Type - The type of placement.
- policy
Name String - If set, refers to the name of a custom resource policy supplied by the user. The resource policy must be in the same project and region as the node pool. If not found, InvalidArgument error is returned.
- tpu
Topology String - Optional. TPU placement topology for pod slice node pool. https://cloud.google.com/tpu/docs/types-topologies#tpu_topologies
- type
Placement
Policy Type - The type of placement.
- policy
Name string - If set, refers to the name of a custom resource policy supplied by the user. The resource policy must be in the same project and region as the node pool. If not found, InvalidArgument error is returned.
- tpu
Topology string - Optional. TPU placement topology for pod slice node pool. https://cloud.google.com/tpu/docs/types-topologies#tpu_topologies
- type
Placement
Policy Type - The type of placement.
- policy_
name str - If set, refers to the name of a custom resource policy supplied by the user. The resource policy must be in the same project and region as the node pool. If not found, InvalidArgument error is returned.
- tpu_
topology str - Optional. TPU placement topology for pod slice node pool. https://cloud.google.com/tpu/docs/types-topologies#tpu_topologies
- type
Placement
Policy Type - The type of placement.
- policy
Name String - If set, refers to the name of a custom resource policy supplied by the user. The resource policy must be in the same project and region as the node pool. If not found, InvalidArgument error is returned.
- tpu
Topology String - Optional. TPU placement topology for pod slice node pool. https://cloud.google.com/tpu/docs/types-topologies#tpu_topologies
- type "TYPE_UNSPECIFIED" | "COMPACT"
- The type of placement.
PlacementPolicyResponse, PlacementPolicyResponseArgs
- Policy
Name string - If set, refers to the name of a custom resource policy supplied by the user. The resource policy must be in the same project and region as the node pool. If not found, InvalidArgument error is returned.
- Tpu
Topology string - Optional. TPU placement topology for pod slice node pool. https://cloud.google.com/tpu/docs/types-topologies#tpu_topologies
- Type string
- The type of placement.
- Policy
Name string - If set, refers to the name of a custom resource policy supplied by the user. The resource policy must be in the same project and region as the node pool. If not found, InvalidArgument error is returned.
- Tpu
Topology string - Optional. TPU placement topology for pod slice node pool. https://cloud.google.com/tpu/docs/types-topologies#tpu_topologies
- Type string
- The type of placement.
- policy
Name String - If set, refers to the name of a custom resource policy supplied by the user. The resource policy must be in the same project and region as the node pool. If not found, InvalidArgument error is returned.
- tpu
Topology String - Optional. TPU placement topology for pod slice node pool. https://cloud.google.com/tpu/docs/types-topologies#tpu_topologies
- type String
- The type of placement.
- policy
Name string - If set, refers to the name of a custom resource policy supplied by the user. The resource policy must be in the same project and region as the node pool. If not found, InvalidArgument error is returned.
- tpu
Topology string - Optional. TPU placement topology for pod slice node pool. https://cloud.google.com/tpu/docs/types-topologies#tpu_topologies
- type string
- The type of placement.
- policy_
name str - If set, refers to the name of a custom resource policy supplied by the user. The resource policy must be in the same project and region as the node pool. If not found, InvalidArgument error is returned.
- tpu_
topology str - Optional. TPU placement topology for pod slice node pool. https://cloud.google.com/tpu/docs/types-topologies#tpu_topologies
- type str
- The type of placement.
- policy
Name String - If set, refers to the name of a custom resource policy supplied by the user. The resource policy must be in the same project and region as the node pool. If not found, InvalidArgument error is returned.
- tpu
Topology String - Optional. TPU placement topology for pod slice node pool. https://cloud.google.com/tpu/docs/types-topologies#tpu_topologies
- type String
- The type of placement.
PlacementPolicyType, PlacementPolicyTypeArgs
- Type
Unspecified - TYPE_UNSPECIFIEDTYPE_UNSPECIFIED specifies no requirements on nodes placement.
- Compact
- COMPACTCOMPACT specifies node placement in the same availability domain to ensure low communication latency.
- Placement
Policy Type Type Unspecified - TYPE_UNSPECIFIEDTYPE_UNSPECIFIED specifies no requirements on nodes placement.
- Placement
Policy Type Compact - COMPACTCOMPACT specifies node placement in the same availability domain to ensure low communication latency.
- Type
Unspecified - TYPE_UNSPECIFIEDTYPE_UNSPECIFIED specifies no requirements on nodes placement.
- Compact
- COMPACTCOMPACT specifies node placement in the same availability domain to ensure low communication latency.
- Type
Unspecified - TYPE_UNSPECIFIEDTYPE_UNSPECIFIED specifies no requirements on nodes placement.
- Compact
- COMPACTCOMPACT specifies node placement in the same availability domain to ensure low communication latency.
- TYPE_UNSPECIFIED
- TYPE_UNSPECIFIEDTYPE_UNSPECIFIED specifies no requirements on nodes placement.
- COMPACT
- COMPACTCOMPACT specifies node placement in the same availability domain to ensure low communication latency.
- "TYPE_UNSPECIFIED"
- TYPE_UNSPECIFIEDTYPE_UNSPECIFIED specifies no requirements on nodes placement.
- "COMPACT"
- COMPACTCOMPACT specifies node placement in the same availability domain to ensure low communication latency.
PodCIDROverprovisionConfig, PodCIDROverprovisionConfigArgs
- Disable bool
- Whether Pod CIDR overprovisioning is disabled. Note: Pod CIDR overprovisioning is enabled by default.
- Disable bool
- Whether Pod CIDR overprovisioning is disabled. Note: Pod CIDR overprovisioning is enabled by default.
- disable Boolean
- Whether Pod CIDR overprovisioning is disabled. Note: Pod CIDR overprovisioning is enabled by default.
- disable boolean
- Whether Pod CIDR overprovisioning is disabled. Note: Pod CIDR overprovisioning is enabled by default.
- disable bool
- Whether Pod CIDR overprovisioning is disabled. Note: Pod CIDR overprovisioning is enabled by default.
- disable Boolean
- Whether Pod CIDR overprovisioning is disabled. Note: Pod CIDR overprovisioning is enabled by default.
PodCIDROverprovisionConfigResponse, PodCIDROverprovisionConfigResponseArgs
- Disable bool
- Whether Pod CIDR overprovisioning is disabled. Note: Pod CIDR overprovisioning is enabled by default.
- Disable bool
- Whether Pod CIDR overprovisioning is disabled. Note: Pod CIDR overprovisioning is enabled by default.
- disable Boolean
- Whether Pod CIDR overprovisioning is disabled. Note: Pod CIDR overprovisioning is enabled by default.
- disable boolean
- Whether Pod CIDR overprovisioning is disabled. Note: Pod CIDR overprovisioning is enabled by default.
- disable bool
- Whether Pod CIDR overprovisioning is disabled. Note: Pod CIDR overprovisioning is enabled by default.
- disable Boolean
- Whether Pod CIDR overprovisioning is disabled. Note: Pod CIDR overprovisioning is enabled by default.
PrivateClusterConfig, PrivateClusterConfigArgs
- Enable
Private boolEndpoint - Whether the master's internal IP address is used as the cluster endpoint.
- Enable
Private boolNodes - Whether nodes have internal IP addresses only. If enabled, all nodes are given only RFC 1918 private addresses and communicate with the master via private networking.
- Master
Global Pulumi.Access Config Google Native. Container. V1. Inputs. Private Cluster Master Global Access Config - Controls master global access settings.
- Master
Ipv4Cidr stringBlock - The IP range in CIDR notation to use for the hosted master network. This range will be used for assigning internal IP addresses to the master or set of masters, as well as the ILB VIP. This range must not overlap with any other ranges in use within the cluster's network.
- Private
Endpoint stringSubnetwork - Subnet to provision the master's private endpoint during cluster creation. Specified in projects//regions//subnetworks/* format.
- Enable
Private boolEndpoint - Whether the master's internal IP address is used as the cluster endpoint.
- Enable
Private boolNodes - Whether nodes have internal IP addresses only. If enabled, all nodes are given only RFC 1918 private addresses and communicate with the master via private networking.
- Master
Global PrivateAccess Config Cluster Master Global Access Config - Controls master global access settings.
- Master
Ipv4Cidr stringBlock - The IP range in CIDR notation to use for the hosted master network. This range will be used for assigning internal IP addresses to the master or set of masters, as well as the ILB VIP. This range must not overlap with any other ranges in use within the cluster's network.
- Private
Endpoint stringSubnetwork - Subnet to provision the master's private endpoint during cluster creation. Specified in projects//regions//subnetworks/* format.
- enable
Private BooleanEndpoint - Whether the master's internal IP address is used as the cluster endpoint.
- enable
Private BooleanNodes - Whether nodes have internal IP addresses only. If enabled, all nodes are given only RFC 1918 private addresses and communicate with the master via private networking.
- master
Global PrivateAccess Config Cluster Master Global Access Config - Controls master global access settings.
- master
Ipv4Cidr StringBlock - The IP range in CIDR notation to use for the hosted master network. This range will be used for assigning internal IP addresses to the master or set of masters, as well as the ILB VIP. This range must not overlap with any other ranges in use within the cluster's network.
- private
Endpoint StringSubnetwork - Subnet to provision the master's private endpoint during cluster creation. Specified in projects//regions//subnetworks/* format.
- enable
Private booleanEndpoint - Whether the master's internal IP address is used as the cluster endpoint.
- enable
Private booleanNodes - Whether nodes have internal IP addresses only. If enabled, all nodes are given only RFC 1918 private addresses and communicate with the master via private networking.
- master
Global PrivateAccess Config Cluster Master Global Access Config - Controls master global access settings.
- master
Ipv4Cidr stringBlock - The IP range in CIDR notation to use for the hosted master network. This range will be used for assigning internal IP addresses to the master or set of masters, as well as the ILB VIP. This range must not overlap with any other ranges in use within the cluster's network.
- private
Endpoint stringSubnetwork - Subnet to provision the master's private endpoint during cluster creation. Specified in projects//regions//subnetworks/* format.
- enable_
private_ boolendpoint - Whether the master's internal IP address is used as the cluster endpoint.
- enable_
private_ boolnodes - Whether nodes have internal IP addresses only. If enabled, all nodes are given only RFC 1918 private addresses and communicate with the master via private networking.
- master_
global_ Privateaccess_ config Cluster Master Global Access Config - Controls master global access settings.
- master_
ipv4_ strcidr_ block - The IP range in CIDR notation to use for the hosted master network. This range will be used for assigning internal IP addresses to the master or set of masters, as well as the ILB VIP. This range must not overlap with any other ranges in use within the cluster's network.
- private_
endpoint_ strsubnetwork - Subnet to provision the master's private endpoint during cluster creation. Specified in projects//regions//subnetworks/* format.
- enable
Private BooleanEndpoint - Whether the master's internal IP address is used as the cluster endpoint.
- enable
Private BooleanNodes - Whether nodes have internal IP addresses only. If enabled, all nodes are given only RFC 1918 private addresses and communicate with the master via private networking.
- master
Global Property MapAccess Config - Controls master global access settings.
- master
Ipv4Cidr StringBlock - The IP range in CIDR notation to use for the hosted master network. This range will be used for assigning internal IP addresses to the master or set of masters, as well as the ILB VIP. This range must not overlap with any other ranges in use within the cluster's network.
- private
Endpoint StringSubnetwork - Subnet to provision the master's private endpoint during cluster creation. Specified in projects//regions//subnetworks/* format.
PrivateClusterConfigResponse, PrivateClusterConfigResponseArgs
- Enable
Private boolEndpoint - Whether the master's internal IP address is used as the cluster endpoint.
- Enable
Private boolNodes - Whether nodes have internal IP addresses only. If enabled, all nodes are given only RFC 1918 private addresses and communicate with the master via private networking.
- Master
Global Pulumi.Access Config Google Native. Container. V1. Inputs. Private Cluster Master Global Access Config Response - Controls master global access settings.
- Master
Ipv4Cidr stringBlock - The IP range in CIDR notation to use for the hosted master network. This range will be used for assigning internal IP addresses to the master or set of masters, as well as the ILB VIP. This range must not overlap with any other ranges in use within the cluster's network.
- Peering
Name string - The peering name in the customer VPC used by this cluster.
- Private
Endpoint string - The internal IP address of this cluster's master endpoint.
- Private
Endpoint stringSubnetwork - Subnet to provision the master's private endpoint during cluster creation. Specified in projects//regions//subnetworks/* format.
- Public
Endpoint string - The external IP address of this cluster's master endpoint.
- Enable
Private boolEndpoint - Whether the master's internal IP address is used as the cluster endpoint.
- Enable
Private boolNodes - Whether nodes have internal IP addresses only. If enabled, all nodes are given only RFC 1918 private addresses and communicate with the master via private networking.
- Master
Global PrivateAccess Config Cluster Master Global Access Config Response - Controls master global access settings.
- Master
Ipv4Cidr stringBlock - The IP range in CIDR notation to use for the hosted master network. This range will be used for assigning internal IP addresses to the master or set of masters, as well as the ILB VIP. This range must not overlap with any other ranges in use within the cluster's network.
- Peering
Name string - The peering name in the customer VPC used by this cluster.
- Private
Endpoint string - The internal IP address of this cluster's master endpoint.
- Private
Endpoint stringSubnetwork - Subnet to provision the master's private endpoint during cluster creation. Specified in projects//regions//subnetworks/* format.
- Public
Endpoint string - The external IP address of this cluster's master endpoint.
- enable
Private BooleanEndpoint - Whether the master's internal IP address is used as the cluster endpoint.
- enable
Private BooleanNodes - Whether nodes have internal IP addresses only. If enabled, all nodes are given only RFC 1918 private addresses and communicate with the master via private networking.
- master
Global PrivateAccess Config Cluster Master Global Access Config Response - Controls master global access settings.
- master
Ipv4Cidr StringBlock - The IP range in CIDR notation to use for the hosted master network. This range will be used for assigning internal IP addresses to the master or set of masters, as well as the ILB VIP. This range must not overlap with any other ranges in use within the cluster's network.
- peering
Name String - The peering name in the customer VPC used by this cluster.
- private
Endpoint String - The internal IP address of this cluster's master endpoint.
- private
Endpoint StringSubnetwork - Subnet to provision the master's private endpoint during cluster creation. Specified in projects//regions//subnetworks/* format.
- public
Endpoint String - The external IP address of this cluster's master endpoint.
- enable
Private booleanEndpoint - Whether the master's internal IP address is used as the cluster endpoint.
- enable
Private booleanNodes - Whether nodes have internal IP addresses only. If enabled, all nodes are given only RFC 1918 private addresses and communicate with the master via private networking.
- master
Global PrivateAccess Config Cluster Master Global Access Config Response - Controls master global access settings.
- master
Ipv4Cidr stringBlock - The IP range in CIDR notation to use for the hosted master network. This range will be used for assigning internal IP addresses to the master or set of masters, as well as the ILB VIP. This range must not overlap with any other ranges in use within the cluster's network.
- peering
Name string - The peering name in the customer VPC used by this cluster.
- private
Endpoint string - The internal IP address of this cluster's master endpoint.
- private
Endpoint stringSubnetwork - Subnet to provision the master's private endpoint during cluster creation. Specified in projects//regions//subnetworks/* format.
- public
Endpoint string - The external IP address of this cluster's master endpoint.
- enable_
private_ boolendpoint - Whether the master's internal IP address is used as the cluster endpoint.
- enable_
private_ boolnodes - Whether nodes have internal IP addresses only. If enabled, all nodes are given only RFC 1918 private addresses and communicate with the master via private networking.
- master_
global_ Privateaccess_ config Cluster Master Global Access Config Response - Controls master global access settings.
- master_
ipv4_ strcidr_ block - The IP range in CIDR notation to use for the hosted master network. This range will be used for assigning internal IP addresses to the master or set of masters, as well as the ILB VIP. This range must not overlap with any other ranges in use within the cluster's network.
- peering_
name str - The peering name in the customer VPC used by this cluster.
- private_
endpoint str - The internal IP address of this cluster's master endpoint.
- private_
endpoint_ strsubnetwork - Subnet to provision the master's private endpoint during cluster creation. Specified in projects//regions//subnetworks/* format.
- public_
endpoint str - The external IP address of this cluster's master endpoint.
- enable
Private BooleanEndpoint - Whether the master's internal IP address is used as the cluster endpoint.
- enable
Private BooleanNodes - Whether nodes have internal IP addresses only. If enabled, all nodes are given only RFC 1918 private addresses and communicate with the master via private networking.
- master
Global Property MapAccess Config - Controls master global access settings.
- master
Ipv4Cidr StringBlock - The IP range in CIDR notation to use for the hosted master network. This range will be used for assigning internal IP addresses to the master or set of masters, as well as the ILB VIP. This range must not overlap with any other ranges in use within the cluster's network.
- peering
Name String - The peering name in the customer VPC used by this cluster.
- private
Endpoint String - The internal IP address of this cluster's master endpoint.
- private
Endpoint StringSubnetwork - Subnet to provision the master's private endpoint during cluster creation. Specified in projects//regions//subnetworks/* format.
- public
Endpoint String - The external IP address of this cluster's master endpoint.
PrivateClusterMasterGlobalAccessConfig, PrivateClusterMasterGlobalAccessConfigArgs
- Enabled bool
- Whenever master is accessible globally or not.
- Enabled bool
- Whenever master is accessible globally or not.
- enabled Boolean
- Whenever master is accessible globally or not.
- enabled boolean
- Whenever master is accessible globally or not.
- enabled bool
- Whenever master is accessible globally or not.
- enabled Boolean
- Whenever master is accessible globally or not.
PrivateClusterMasterGlobalAccessConfigResponse, PrivateClusterMasterGlobalAccessConfigResponseArgs
- Enabled bool
- Whenever master is accessible globally or not.
- Enabled bool
- Whenever master is accessible globally or not.
- enabled Boolean
- Whenever master is accessible globally or not.
- enabled boolean
- Whenever master is accessible globally or not.
- enabled bool
- Whenever master is accessible globally or not.
- enabled Boolean
- Whenever master is accessible globally or not.
PubSub, PubSubArgs
- Enabled bool
- Enable notifications for Pub/Sub.
- Filter
Pulumi.
Google Native. Container. V1. Inputs. Filter - Allows filtering to one or more specific event types. If no filter is specified, or if a filter is specified with no event types, all event types will be sent
- Topic string
- The desired Pub/Sub topic to which notifications will be sent by GKE. Format is
projects/{project}/topics/{topic}
.
- Enabled bool
- Enable notifications for Pub/Sub.
- Filter Filter
- Allows filtering to one or more specific event types. If no filter is specified, or if a filter is specified with no event types, all event types will be sent
- Topic string
- The desired Pub/Sub topic to which notifications will be sent by GKE. Format is
projects/{project}/topics/{topic}
.
- enabled Boolean
- Enable notifications for Pub/Sub.
- filter Filter
- Allows filtering to one or more specific event types. If no filter is specified, or if a filter is specified with no event types, all event types will be sent
- topic String
- The desired Pub/Sub topic to which notifications will be sent by GKE. Format is
projects/{project}/topics/{topic}
.
- enabled boolean
- Enable notifications for Pub/Sub.
- filter Filter
- Allows filtering to one or more specific event types. If no filter is specified, or if a filter is specified with no event types, all event types will be sent
- topic string
- The desired Pub/Sub topic to which notifications will be sent by GKE. Format is
projects/{project}/topics/{topic}
.
- enabled bool
- Enable notifications for Pub/Sub.
- filter Filter
- Allows filtering to one or more specific event types. If no filter is specified, or if a filter is specified with no event types, all event types will be sent
- topic str
- The desired Pub/Sub topic to which notifications will be sent by GKE. Format is
projects/{project}/topics/{topic}
.
- enabled Boolean
- Enable notifications for Pub/Sub.
- filter Property Map
- Allows filtering to one or more specific event types. If no filter is specified, or if a filter is specified with no event types, all event types will be sent
- topic String
- The desired Pub/Sub topic to which notifications will be sent by GKE. Format is
projects/{project}/topics/{topic}
.
PubSubResponse, PubSubResponseArgs
- Enabled bool
- Enable notifications for Pub/Sub.
- Filter
Pulumi.
Google Native. Container. V1. Inputs. Filter Response - Allows filtering to one or more specific event types. If no filter is specified, or if a filter is specified with no event types, all event types will be sent
- Topic string
- The desired Pub/Sub topic to which notifications will be sent by GKE. Format is
projects/{project}/topics/{topic}
.
- Enabled bool
- Enable notifications for Pub/Sub.
- Filter
Filter
Response - Allows filtering to one or more specific event types. If no filter is specified, or if a filter is specified with no event types, all event types will be sent
- Topic string
- The desired Pub/Sub topic to which notifications will be sent by GKE. Format is
projects/{project}/topics/{topic}
.
- enabled Boolean
- Enable notifications for Pub/Sub.
- filter
Filter
Response - Allows filtering to one or more specific event types. If no filter is specified, or if a filter is specified with no event types, all event types will be sent
- topic String
- The desired Pub/Sub topic to which notifications will be sent by GKE. Format is
projects/{project}/topics/{topic}
.
- enabled boolean
- Enable notifications for Pub/Sub.
- filter
Filter
Response - Allows filtering to one or more specific event types. If no filter is specified, or if a filter is specified with no event types, all event types will be sent
- topic string
- The desired Pub/Sub topic to which notifications will be sent by GKE. Format is
projects/{project}/topics/{topic}
.
- enabled bool
- Enable notifications for Pub/Sub.
- filter
Filter
Response - Allows filtering to one or more specific event types. If no filter is specified, or if a filter is specified with no event types, all event types will be sent
- topic str
- The desired Pub/Sub topic to which notifications will be sent by GKE. Format is
projects/{project}/topics/{topic}
.
- enabled Boolean
- Enable notifications for Pub/Sub.
- filter Property Map
- Allows filtering to one or more specific event types. If no filter is specified, or if a filter is specified with no event types, all event types will be sent
- topic String
- The desired Pub/Sub topic to which notifications will be sent by GKE. Format is
projects/{project}/topics/{topic}
.
QueuedProvisioning, QueuedProvisioningArgs
- Enabled bool
- Denotes that this nodepool is QRM specific, meaning nodes can be only obtained through queuing via the Cluster Autoscaler ProvisioningRequest API.
- Enabled bool
- Denotes that this nodepool is QRM specific, meaning nodes can be only obtained through queuing via the Cluster Autoscaler ProvisioningRequest API.
- enabled Boolean
- Denotes that this nodepool is QRM specific, meaning nodes can be only obtained through queuing via the Cluster Autoscaler ProvisioningRequest API.
- enabled boolean
- Denotes that this nodepool is QRM specific, meaning nodes can be only obtained through queuing via the Cluster Autoscaler ProvisioningRequest API.
- enabled bool
- Denotes that this nodepool is QRM specific, meaning nodes can be only obtained through queuing via the Cluster Autoscaler ProvisioningRequest API.
- enabled Boolean
- Denotes that this nodepool is QRM specific, meaning nodes can be only obtained through queuing via the Cluster Autoscaler ProvisioningRequest API.
QueuedProvisioningResponse, QueuedProvisioningResponseArgs
- Enabled bool
- Denotes that this nodepool is QRM specific, meaning nodes can be only obtained through queuing via the Cluster Autoscaler ProvisioningRequest API.
- Enabled bool
- Denotes that this nodepool is QRM specific, meaning nodes can be only obtained through queuing via the Cluster Autoscaler ProvisioningRequest API.
- enabled Boolean
- Denotes that this nodepool is QRM specific, meaning nodes can be only obtained through queuing via the Cluster Autoscaler ProvisioningRequest API.
- enabled boolean
- Denotes that this nodepool is QRM specific, meaning nodes can be only obtained through queuing via the Cluster Autoscaler ProvisioningRequest API.
- enabled bool
- Denotes that this nodepool is QRM specific, meaning nodes can be only obtained through queuing via the Cluster Autoscaler ProvisioningRequest API.
- enabled Boolean
- Denotes that this nodepool is QRM specific, meaning nodes can be only obtained through queuing via the Cluster Autoscaler ProvisioningRequest API.
RangeInfoResponse, RangeInfoResponseArgs
- Range
Name string - [Output only] Name of a range.
- Utilization double
- [Output only] The utilization of the range.
- Range
Name string - [Output only] Name of a range.
- Utilization float64
- [Output only] The utilization of the range.
- range
Name String - [Output only] Name of a range.
- utilization Double
- [Output only] The utilization of the range.
- range
Name string - [Output only] Name of a range.
- utilization number
- [Output only] The utilization of the range.
- range_
name str - [Output only] Name of a range.
- utilization float
- [Output only] The utilization of the range.
- range
Name String - [Output only] Name of a range.
- utilization Number
- [Output only] The utilization of the range.
RecurringTimeWindow, RecurringTimeWindowArgs
- Recurrence string
- An RRULE (https://tools.ietf.org/html/rfc5545#section-3.8.5.3) for how this window reccurs. They go on for the span of time between the start and end time. For example, to have something repeat every weekday, you'd use:
FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
To repeat some window daily (equivalent to the DailyMaintenanceWindow):FREQ=DAILY
For the first weekend of every month:FREQ=MONTHLY;BYSETPOS=1;BYDAY=SA,SU
This specifies how frequently the window starts. Eg, if you wanted to have a 9-5 UTC-4 window every weekday, you'd use something like:start time = 2019-01-01T09:00:00-0400 end time = 2019-01-01T17:00:00-0400 recurrence = FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
Windows can span multiple days. Eg, to make the window encompass every weekend from midnight Saturday till the last minute of Sunday UTC:start time = 2019-01-05T00:00:00Z end time = 2019-01-07T23:59:00Z recurrence = FREQ=WEEKLY;BYDAY=SA
Note the start and end time's specific dates are largely arbitrary except to specify duration of the window and when it first starts. The FREQ values of HOURLY, MINUTELY, and SECONDLY are not supported. - Window
Pulumi.
Google Native. Container. V1. Inputs. Time Window - The window of the first recurrence.
- Recurrence string
- An RRULE (https://tools.ietf.org/html/rfc5545#section-3.8.5.3) for how this window reccurs. They go on for the span of time between the start and end time. For example, to have something repeat every weekday, you'd use:
FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
To repeat some window daily (equivalent to the DailyMaintenanceWindow):FREQ=DAILY
For the first weekend of every month:FREQ=MONTHLY;BYSETPOS=1;BYDAY=SA,SU
This specifies how frequently the window starts. Eg, if you wanted to have a 9-5 UTC-4 window every weekday, you'd use something like:start time = 2019-01-01T09:00:00-0400 end time = 2019-01-01T17:00:00-0400 recurrence = FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
Windows can span multiple days. Eg, to make the window encompass every weekend from midnight Saturday till the last minute of Sunday UTC:start time = 2019-01-05T00:00:00Z end time = 2019-01-07T23:59:00Z recurrence = FREQ=WEEKLY;BYDAY=SA
Note the start and end time's specific dates are largely arbitrary except to specify duration of the window and when it first starts. The FREQ values of HOURLY, MINUTELY, and SECONDLY are not supported. - Window
Time
Window - The window of the first recurrence.
- recurrence String
- An RRULE (https://tools.ietf.org/html/rfc5545#section-3.8.5.3) for how this window reccurs. They go on for the span of time between the start and end time. For example, to have something repeat every weekday, you'd use:
FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
To repeat some window daily (equivalent to the DailyMaintenanceWindow):FREQ=DAILY
For the first weekend of every month:FREQ=MONTHLY;BYSETPOS=1;BYDAY=SA,SU
This specifies how frequently the window starts. Eg, if you wanted to have a 9-5 UTC-4 window every weekday, you'd use something like:start time = 2019-01-01T09:00:00-0400 end time = 2019-01-01T17:00:00-0400 recurrence = FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
Windows can span multiple days. Eg, to make the window encompass every weekend from midnight Saturday till the last minute of Sunday UTC:start time = 2019-01-05T00:00:00Z end time = 2019-01-07T23:59:00Z recurrence = FREQ=WEEKLY;BYDAY=SA
Note the start and end time's specific dates are largely arbitrary except to specify duration of the window and when it first starts. The FREQ values of HOURLY, MINUTELY, and SECONDLY are not supported. - window
Time
Window - The window of the first recurrence.
- recurrence string
- An RRULE (https://tools.ietf.org/html/rfc5545#section-3.8.5.3) for how this window reccurs. They go on for the span of time between the start and end time. For example, to have something repeat every weekday, you'd use:
FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
To repeat some window daily (equivalent to the DailyMaintenanceWindow):FREQ=DAILY
For the first weekend of every month:FREQ=MONTHLY;BYSETPOS=1;BYDAY=SA,SU
This specifies how frequently the window starts. Eg, if you wanted to have a 9-5 UTC-4 window every weekday, you'd use something like:start time = 2019-01-01T09:00:00-0400 end time = 2019-01-01T17:00:00-0400 recurrence = FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
Windows can span multiple days. Eg, to make the window encompass every weekend from midnight Saturday till the last minute of Sunday UTC:start time = 2019-01-05T00:00:00Z end time = 2019-01-07T23:59:00Z recurrence = FREQ=WEEKLY;BYDAY=SA
Note the start and end time's specific dates are largely arbitrary except to specify duration of the window and when it first starts. The FREQ values of HOURLY, MINUTELY, and SECONDLY are not supported. - window
Time
Window - The window of the first recurrence.
- recurrence str
- An RRULE (https://tools.ietf.org/html/rfc5545#section-3.8.5.3) for how this window reccurs. They go on for the span of time between the start and end time. For example, to have something repeat every weekday, you'd use:
FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
To repeat some window daily (equivalent to the DailyMaintenanceWindow):FREQ=DAILY
For the first weekend of every month:FREQ=MONTHLY;BYSETPOS=1;BYDAY=SA,SU
This specifies how frequently the window starts. Eg, if you wanted to have a 9-5 UTC-4 window every weekday, you'd use something like:start time = 2019-01-01T09:00:00-0400 end time = 2019-01-01T17:00:00-0400 recurrence = FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
Windows can span multiple days. Eg, to make the window encompass every weekend from midnight Saturday till the last minute of Sunday UTC:start time = 2019-01-05T00:00:00Z end time = 2019-01-07T23:59:00Z recurrence = FREQ=WEEKLY;BYDAY=SA
Note the start and end time's specific dates are largely arbitrary except to specify duration of the window and when it first starts. The FREQ values of HOURLY, MINUTELY, and SECONDLY are not supported. - window
Time
Window - The window of the first recurrence.
- recurrence String
- An RRULE (https://tools.ietf.org/html/rfc5545#section-3.8.5.3) for how this window reccurs. They go on for the span of time between the start and end time. For example, to have something repeat every weekday, you'd use:
FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
To repeat some window daily (equivalent to the DailyMaintenanceWindow):FREQ=DAILY
For the first weekend of every month:FREQ=MONTHLY;BYSETPOS=1;BYDAY=SA,SU
This specifies how frequently the window starts. Eg, if you wanted to have a 9-5 UTC-4 window every weekday, you'd use something like:start time = 2019-01-01T09:00:00-0400 end time = 2019-01-01T17:00:00-0400 recurrence = FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
Windows can span multiple days. Eg, to make the window encompass every weekend from midnight Saturday till the last minute of Sunday UTC:start time = 2019-01-05T00:00:00Z end time = 2019-01-07T23:59:00Z recurrence = FREQ=WEEKLY;BYDAY=SA
Note the start and end time's specific dates are largely arbitrary except to specify duration of the window and when it first starts. The FREQ values of HOURLY, MINUTELY, and SECONDLY are not supported. - window Property Map
- The window of the first recurrence.
RecurringTimeWindowResponse, RecurringTimeWindowResponseArgs
- Recurrence string
- An RRULE (https://tools.ietf.org/html/rfc5545#section-3.8.5.3) for how this window reccurs. They go on for the span of time between the start and end time. For example, to have something repeat every weekday, you'd use:
FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
To repeat some window daily (equivalent to the DailyMaintenanceWindow):FREQ=DAILY
For the first weekend of every month:FREQ=MONTHLY;BYSETPOS=1;BYDAY=SA,SU
This specifies how frequently the window starts. Eg, if you wanted to have a 9-5 UTC-4 window every weekday, you'd use something like:start time = 2019-01-01T09:00:00-0400 end time = 2019-01-01T17:00:00-0400 recurrence = FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
Windows can span multiple days. Eg, to make the window encompass every weekend from midnight Saturday till the last minute of Sunday UTC:start time = 2019-01-05T00:00:00Z end time = 2019-01-07T23:59:00Z recurrence = FREQ=WEEKLY;BYDAY=SA
Note the start and end time's specific dates are largely arbitrary except to specify duration of the window and when it first starts. The FREQ values of HOURLY, MINUTELY, and SECONDLY are not supported. - Window
Pulumi.
Google Native. Container. V1. Inputs. Time Window Response - The window of the first recurrence.
- Recurrence string
- An RRULE (https://tools.ietf.org/html/rfc5545#section-3.8.5.3) for how this window reccurs. They go on for the span of time between the start and end time. For example, to have something repeat every weekday, you'd use:
FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
To repeat some window daily (equivalent to the DailyMaintenanceWindow):FREQ=DAILY
For the first weekend of every month:FREQ=MONTHLY;BYSETPOS=1;BYDAY=SA,SU
This specifies how frequently the window starts. Eg, if you wanted to have a 9-5 UTC-4 window every weekday, you'd use something like:start time = 2019-01-01T09:00:00-0400 end time = 2019-01-01T17:00:00-0400 recurrence = FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
Windows can span multiple days. Eg, to make the window encompass every weekend from midnight Saturday till the last minute of Sunday UTC:start time = 2019-01-05T00:00:00Z end time = 2019-01-07T23:59:00Z recurrence = FREQ=WEEKLY;BYDAY=SA
Note the start and end time's specific dates are largely arbitrary except to specify duration of the window and when it first starts. The FREQ values of HOURLY, MINUTELY, and SECONDLY are not supported. - Window
Time
Window Response - The window of the first recurrence.
- recurrence String
- An RRULE (https://tools.ietf.org/html/rfc5545#section-3.8.5.3) for how this window reccurs. They go on for the span of time between the start and end time. For example, to have something repeat every weekday, you'd use:
FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
To repeat some window daily (equivalent to the DailyMaintenanceWindow):FREQ=DAILY
For the first weekend of every month:FREQ=MONTHLY;BYSETPOS=1;BYDAY=SA,SU
This specifies how frequently the window starts. Eg, if you wanted to have a 9-5 UTC-4 window every weekday, you'd use something like:start time = 2019-01-01T09:00:00-0400 end time = 2019-01-01T17:00:00-0400 recurrence = FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
Windows can span multiple days. Eg, to make the window encompass every weekend from midnight Saturday till the last minute of Sunday UTC:start time = 2019-01-05T00:00:00Z end time = 2019-01-07T23:59:00Z recurrence = FREQ=WEEKLY;BYDAY=SA
Note the start and end time's specific dates are largely arbitrary except to specify duration of the window and when it first starts. The FREQ values of HOURLY, MINUTELY, and SECONDLY are not supported. - window
Time
Window Response - The window of the first recurrence.
- recurrence string
- An RRULE (https://tools.ietf.org/html/rfc5545#section-3.8.5.3) for how this window reccurs. They go on for the span of time between the start and end time. For example, to have something repeat every weekday, you'd use:
FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
To repeat some window daily (equivalent to the DailyMaintenanceWindow):FREQ=DAILY
For the first weekend of every month:FREQ=MONTHLY;BYSETPOS=1;BYDAY=SA,SU
This specifies how frequently the window starts. Eg, if you wanted to have a 9-5 UTC-4 window every weekday, you'd use something like:start time = 2019-01-01T09:00:00-0400 end time = 2019-01-01T17:00:00-0400 recurrence = FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
Windows can span multiple days. Eg, to make the window encompass every weekend from midnight Saturday till the last minute of Sunday UTC:start time = 2019-01-05T00:00:00Z end time = 2019-01-07T23:59:00Z recurrence = FREQ=WEEKLY;BYDAY=SA
Note the start and end time's specific dates are largely arbitrary except to specify duration of the window and when it first starts. The FREQ values of HOURLY, MINUTELY, and SECONDLY are not supported. - window
Time
Window Response - The window of the first recurrence.
- recurrence str
- An RRULE (https://tools.ietf.org/html/rfc5545#section-3.8.5.3) for how this window reccurs. They go on for the span of time between the start and end time. For example, to have something repeat every weekday, you'd use:
FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
To repeat some window daily (equivalent to the DailyMaintenanceWindow):FREQ=DAILY
For the first weekend of every month:FREQ=MONTHLY;BYSETPOS=1;BYDAY=SA,SU
This specifies how frequently the window starts. Eg, if you wanted to have a 9-5 UTC-4 window every weekday, you'd use something like:start time = 2019-01-01T09:00:00-0400 end time = 2019-01-01T17:00:00-0400 recurrence = FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
Windows can span multiple days. Eg, to make the window encompass every weekend from midnight Saturday till the last minute of Sunday UTC:start time = 2019-01-05T00:00:00Z end time = 2019-01-07T23:59:00Z recurrence = FREQ=WEEKLY;BYDAY=SA
Note the start and end time's specific dates are largely arbitrary except to specify duration of the window and when it first starts. The FREQ values of HOURLY, MINUTELY, and SECONDLY are not supported. - window
Time
Window Response - The window of the first recurrence.
- recurrence String
- An RRULE (https://tools.ietf.org/html/rfc5545#section-3.8.5.3) for how this window reccurs. They go on for the span of time between the start and end time. For example, to have something repeat every weekday, you'd use:
FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
To repeat some window daily (equivalent to the DailyMaintenanceWindow):FREQ=DAILY
For the first weekend of every month:FREQ=MONTHLY;BYSETPOS=1;BYDAY=SA,SU
This specifies how frequently the window starts. Eg, if you wanted to have a 9-5 UTC-4 window every weekday, you'd use something like:start time = 2019-01-01T09:00:00-0400 end time = 2019-01-01T17:00:00-0400 recurrence = FREQ=WEEKLY;BYDAY=MO,TU,WE,TH,FR
Windows can span multiple days. Eg, to make the window encompass every weekend from midnight Saturday till the last minute of Sunday UTC:start time = 2019-01-05T00:00:00Z end time = 2019-01-07T23:59:00Z recurrence = FREQ=WEEKLY;BYDAY=SA
Note the start and end time's specific dates are largely arbitrary except to specify duration of the window and when it first starts. The FREQ values of HOURLY, MINUTELY, and SECONDLY are not supported. - window Property Map
- The window of the first recurrence.
ReleaseChannel, ReleaseChannelArgs
- Channel
Pulumi.
Google Native. Container. V1. Release Channel Channel - channel specifies which release channel the cluster is subscribed to.
- Channel
Release
Channel Channel - channel specifies which release channel the cluster is subscribed to.
- channel
Release
Channel Channel - channel specifies which release channel the cluster is subscribed to.
- channel
Release
Channel Channel - channel specifies which release channel the cluster is subscribed to.
- channel
Release
Channel Channel - channel specifies which release channel the cluster is subscribed to.
- channel "UNSPECIFIED" | "RAPID" | "REGULAR" | "STABLE"
- channel specifies which release channel the cluster is subscribed to.
ReleaseChannelChannel, ReleaseChannelChannelArgs
- Unspecified
- UNSPECIFIEDNo channel specified.
- Rapid
- RAPIDRAPID channel is offered on an early access basis for customers who want to test new releases. WARNING: Versions available in the RAPID Channel may be subject to unresolved issues with no known workaround and are not subject to any SLAs.
- Regular
- REGULARClusters subscribed to REGULAR receive versions that are considered GA quality. REGULAR is intended for production users who want to take advantage of new features.
- Stable
- STABLEClusters subscribed to STABLE receive versions that are known to be stable and reliable in production.
- Release
Channel Channel Unspecified - UNSPECIFIEDNo channel specified.
- Release
Channel Channel Rapid - RAPIDRAPID channel is offered on an early access basis for customers who want to test new releases. WARNING: Versions available in the RAPID Channel may be subject to unresolved issues with no known workaround and are not subject to any SLAs.
- Release
Channel Channel Regular - REGULARClusters subscribed to REGULAR receive versions that are considered GA quality. REGULAR is intended for production users who want to take advantage of new features.
- Release
Channel Channel Stable - STABLEClusters subscribed to STABLE receive versions that are known to be stable and reliable in production.
- Unspecified
- UNSPECIFIEDNo channel specified.
- Rapid
- RAPIDRAPID channel is offered on an early access basis for customers who want to test new releases. WARNING: Versions available in the RAPID Channel may be subject to unresolved issues with no known workaround and are not subject to any SLAs.
- Regular
- REGULARClusters subscribed to REGULAR receive versions that are considered GA quality. REGULAR is intended for production users who want to take advantage of new features.
- Stable
- STABLEClusters subscribed to STABLE receive versions that are known to be stable and reliable in production.
- Unspecified
- UNSPECIFIEDNo channel specified.
- Rapid
- RAPIDRAPID channel is offered on an early access basis for customers who want to test new releases. WARNING: Versions available in the RAPID Channel may be subject to unresolved issues with no known workaround and are not subject to any SLAs.
- Regular
- REGULARClusters subscribed to REGULAR receive versions that are considered GA quality. REGULAR is intended for production users who want to take advantage of new features.
- Stable
- STABLEClusters subscribed to STABLE receive versions that are known to be stable and reliable in production.
- UNSPECIFIED
- UNSPECIFIEDNo channel specified.
- RAPID
- RAPIDRAPID channel is offered on an early access basis for customers who want to test new releases. WARNING: Versions available in the RAPID Channel may be subject to unresolved issues with no known workaround and are not subject to any SLAs.
- REGULAR
- REGULARClusters subscribed to REGULAR receive versions that are considered GA quality. REGULAR is intended for production users who want to take advantage of new features.
- STABLE
- STABLEClusters subscribed to STABLE receive versions that are known to be stable and reliable in production.
- "UNSPECIFIED"
- UNSPECIFIEDNo channel specified.
- "RAPID"
- RAPIDRAPID channel is offered on an early access basis for customers who want to test new releases. WARNING: Versions available in the RAPID Channel may be subject to unresolved issues with no known workaround and are not subject to any SLAs.
- "REGULAR"
- REGULARClusters subscribed to REGULAR receive versions that are considered GA quality. REGULAR is intended for production users who want to take advantage of new features.
- "STABLE"
- STABLEClusters subscribed to STABLE receive versions that are known to be stable and reliable in production.
ReleaseChannelResponse, ReleaseChannelResponseArgs
- Channel string
- channel specifies which release channel the cluster is subscribed to.
- Channel string
- channel specifies which release channel the cluster is subscribed to.
- channel String
- channel specifies which release channel the cluster is subscribed to.
- channel string
- channel specifies which release channel the cluster is subscribed to.
- channel str
- channel specifies which release channel the cluster is subscribed to.
- channel String
- channel specifies which release channel the cluster is subscribed to.
ReservationAffinity, ReservationAffinityArgs
- Consume
Reservation Pulumi.Type Google Native. Container. V1. Reservation Affinity Consume Reservation Type - Corresponds to the type of reservation consumption.
- Key string
- Corresponds to the label key of a reservation resource. To target a SPECIFIC_RESERVATION by name, specify "compute.googleapis.com/reservation-name" as the key and specify the name of your reservation as its value.
- Values List<string>
- Corresponds to the label value(s) of reservation resource(s).
- Consume
Reservation ReservationType Affinity Consume Reservation Type - Corresponds to the type of reservation consumption.
- Key string
- Corresponds to the label key of a reservation resource. To target a SPECIFIC_RESERVATION by name, specify "compute.googleapis.com/reservation-name" as the key and specify the name of your reservation as its value.
- Values []string
- Corresponds to the label value(s) of reservation resource(s).
- consume
Reservation ReservationType Affinity Consume Reservation Type - Corresponds to the type of reservation consumption.
- key String
- Corresponds to the label key of a reservation resource. To target a SPECIFIC_RESERVATION by name, specify "compute.googleapis.com/reservation-name" as the key and specify the name of your reservation as its value.
- values List<String>
- Corresponds to the label value(s) of reservation resource(s).
- consume
Reservation ReservationType Affinity Consume Reservation Type - Corresponds to the type of reservation consumption.
- key string
- Corresponds to the label key of a reservation resource. To target a SPECIFIC_RESERVATION by name, specify "compute.googleapis.com/reservation-name" as the key and specify the name of your reservation as its value.
- values string[]
- Corresponds to the label value(s) of reservation resource(s).
- consume_
reservation_ Reservationtype Affinity Consume Reservation Type - Corresponds to the type of reservation consumption.
- key str
- Corresponds to the label key of a reservation resource. To target a SPECIFIC_RESERVATION by name, specify "compute.googleapis.com/reservation-name" as the key and specify the name of your reservation as its value.
- values Sequence[str]
- Corresponds to the label value(s) of reservation resource(s).
- consume
Reservation "UNSPECIFIED" | "NO_RESERVATION" | "ANY_RESERVATION" | "SPECIFIC_RESERVATION"Type - Corresponds to the type of reservation consumption.
- key String
- Corresponds to the label key of a reservation resource. To target a SPECIFIC_RESERVATION by name, specify "compute.googleapis.com/reservation-name" as the key and specify the name of your reservation as its value.
- values List<String>
- Corresponds to the label value(s) of reservation resource(s).
ReservationAffinityConsumeReservationType, ReservationAffinityConsumeReservationTypeArgs
- Unspecified
- UNSPECIFIEDDefault value. This should not be used.
- No
Reservation - NO_RESERVATIONDo not consume from any reserved capacity.
- Any
Reservation - ANY_RESERVATIONConsume any reservation available.
- Specific
Reservation - SPECIFIC_RESERVATIONMust consume from a specific reservation. Must specify key value fields for specifying the reservations.
- Reservation
Affinity Consume Reservation Type Unspecified - UNSPECIFIEDDefault value. This should not be used.
- Reservation
Affinity Consume Reservation Type No Reservation - NO_RESERVATIONDo not consume from any reserved capacity.
- Reservation
Affinity Consume Reservation Type Any Reservation - ANY_RESERVATIONConsume any reservation available.
- Reservation
Affinity Consume Reservation Type Specific Reservation - SPECIFIC_RESERVATIONMust consume from a specific reservation. Must specify key value fields for specifying the reservations.
- Unspecified
- UNSPECIFIEDDefault value. This should not be used.
- No
Reservation - NO_RESERVATIONDo not consume from any reserved capacity.
- Any
Reservation - ANY_RESERVATIONConsume any reservation available.
- Specific
Reservation - SPECIFIC_RESERVATIONMust consume from a specific reservation. Must specify key value fields for specifying the reservations.
- Unspecified
- UNSPECIFIEDDefault value. This should not be used.
- No
Reservation - NO_RESERVATIONDo not consume from any reserved capacity.
- Any
Reservation - ANY_RESERVATIONConsume any reservation available.
- Specific
Reservation - SPECIFIC_RESERVATIONMust consume from a specific reservation. Must specify key value fields for specifying the reservations.
- UNSPECIFIED
- UNSPECIFIEDDefault value. This should not be used.
- NO_RESERVATION
- NO_RESERVATIONDo not consume from any reserved capacity.
- ANY_RESERVATION
- ANY_RESERVATIONConsume any reservation available.
- SPECIFIC_RESERVATION
- SPECIFIC_RESERVATIONMust consume from a specific reservation. Must specify key value fields for specifying the reservations.
- "UNSPECIFIED"
- UNSPECIFIEDDefault value. This should not be used.
- "NO_RESERVATION"
- NO_RESERVATIONDo not consume from any reserved capacity.
- "ANY_RESERVATION"
- ANY_RESERVATIONConsume any reservation available.
- "SPECIFIC_RESERVATION"
- SPECIFIC_RESERVATIONMust consume from a specific reservation. Must specify key value fields for specifying the reservations.
ReservationAffinityResponse, ReservationAffinityResponseArgs
- Consume
Reservation stringType - Corresponds to the type of reservation consumption.
- Key string
- Corresponds to the label key of a reservation resource. To target a SPECIFIC_RESERVATION by name, specify "compute.googleapis.com/reservation-name" as the key and specify the name of your reservation as its value.
- Values List<string>
- Corresponds to the label value(s) of reservation resource(s).
- Consume
Reservation stringType - Corresponds to the type of reservation consumption.
- Key string
- Corresponds to the label key of a reservation resource. To target a SPECIFIC_RESERVATION by name, specify "compute.googleapis.com/reservation-name" as the key and specify the name of your reservation as its value.
- Values []string
- Corresponds to the label value(s) of reservation resource(s).
- consume
Reservation StringType - Corresponds to the type of reservation consumption.
- key String
- Corresponds to the label key of a reservation resource. To target a SPECIFIC_RESERVATION by name, specify "compute.googleapis.com/reservation-name" as the key and specify the name of your reservation as its value.
- values List<String>
- Corresponds to the label value(s) of reservation resource(s).
- consume
Reservation stringType - Corresponds to the type of reservation consumption.
- key string
- Corresponds to the label key of a reservation resource. To target a SPECIFIC_RESERVATION by name, specify "compute.googleapis.com/reservation-name" as the key and specify the name of your reservation as its value.
- values string[]
- Corresponds to the label value(s) of reservation resource(s).
- consume_
reservation_ strtype - Corresponds to the type of reservation consumption.
- key str
- Corresponds to the label key of a reservation resource. To target a SPECIFIC_RESERVATION by name, specify "compute.googleapis.com/reservation-name" as the key and specify the name of your reservation as its value.
- values Sequence[str]
- Corresponds to the label value(s) of reservation resource(s).
- consume
Reservation StringType - Corresponds to the type of reservation consumption.
- key String
- Corresponds to the label key of a reservation resource. To target a SPECIFIC_RESERVATION by name, specify "compute.googleapis.com/reservation-name" as the key and specify the name of your reservation as its value.
- values List<String>
- Corresponds to the label value(s) of reservation resource(s).
ResourceLimit, ResourceLimitArgs
- Maximum string
- Maximum amount of the resource in the cluster.
- Minimum string
- Minimum amount of the resource in the cluster.
- Resource
Type string - Resource name "cpu", "memory" or gpu-specific string.
- Maximum string
- Maximum amount of the resource in the cluster.
- Minimum string
- Minimum amount of the resource in the cluster.
- Resource
Type string - Resource name "cpu", "memory" or gpu-specific string.
- maximum String
- Maximum amount of the resource in the cluster.
- minimum String
- Minimum amount of the resource in the cluster.
- resource
Type String - Resource name "cpu", "memory" or gpu-specific string.
- maximum string
- Maximum amount of the resource in the cluster.
- minimum string
- Minimum amount of the resource in the cluster.
- resource
Type string - Resource name "cpu", "memory" or gpu-specific string.
- maximum str
- Maximum amount of the resource in the cluster.
- minimum str
- Minimum amount of the resource in the cluster.
- resource_
type str - Resource name "cpu", "memory" or gpu-specific string.
- maximum String
- Maximum amount of the resource in the cluster.
- minimum String
- Minimum amount of the resource in the cluster.
- resource
Type String - Resource name "cpu", "memory" or gpu-specific string.
ResourceLimitResponse, ResourceLimitResponseArgs
- Maximum string
- Maximum amount of the resource in the cluster.
- Minimum string
- Minimum amount of the resource in the cluster.
- Resource
Type string - Resource name "cpu", "memory" or gpu-specific string.
- Maximum string
- Maximum amount of the resource in the cluster.
- Minimum string
- Minimum amount of the resource in the cluster.
- Resource
Type string - Resource name "cpu", "memory" or gpu-specific string.
- maximum String
- Maximum amount of the resource in the cluster.
- minimum String
- Minimum amount of the resource in the cluster.
- resource
Type String - Resource name "cpu", "memory" or gpu-specific string.
- maximum string
- Maximum amount of the resource in the cluster.
- minimum string
- Minimum amount of the resource in the cluster.
- resource
Type string - Resource name "cpu", "memory" or gpu-specific string.
- maximum str
- Maximum amount of the resource in the cluster.
- minimum str
- Minimum amount of the resource in the cluster.
- resource_
type str - Resource name "cpu", "memory" or gpu-specific string.
- maximum String
- Maximum amount of the resource in the cluster.
- minimum String
- Minimum amount of the resource in the cluster.
- resource
Type String - Resource name "cpu", "memory" or gpu-specific string.
ResourceManagerTags, ResourceManagerTagsArgs
- Dictionary<string, string>
- TagKeyValue must be in one of the following formats ([KEY]=[VALUE]) 1.
tagKeys/{tag_key_id}=tagValues/{tag_value_id}
2.{org_id}/{tag_key_name}={tag_value_name}
3.{project_id}/{tag_key_name}={tag_value_name}
- map[string]string
- TagKeyValue must be in one of the following formats ([KEY]=[VALUE]) 1.
tagKeys/{tag_key_id}=tagValues/{tag_value_id}
2.{org_id}/{tag_key_name}={tag_value_name}
3.{project_id}/{tag_key_name}={tag_value_name}
- Map<String,String>
- TagKeyValue must be in one of the following formats ([KEY]=[VALUE]) 1.
tagKeys/{tag_key_id}=tagValues/{tag_value_id}
2.{org_id}/{tag_key_name}={tag_value_name}
3.{project_id}/{tag_key_name}={tag_value_name}
- {[key: string]: string}
- TagKeyValue must be in one of the following formats ([KEY]=[VALUE]) 1.
tagKeys/{tag_key_id}=tagValues/{tag_value_id}
2.{org_id}/{tag_key_name}={tag_value_name}
3.{project_id}/{tag_key_name}={tag_value_name}
- Mapping[str, str]
- TagKeyValue must be in one of the following formats ([KEY]=[VALUE]) 1.
tagKeys/{tag_key_id}=tagValues/{tag_value_id}
2.{org_id}/{tag_key_name}={tag_value_name}
3.{project_id}/{tag_key_name}={tag_value_name}
- Map<String>
- TagKeyValue must be in one of the following formats ([KEY]=[VALUE]) 1.
tagKeys/{tag_key_id}=tagValues/{tag_value_id}
2.{org_id}/{tag_key_name}={tag_value_name}
3.{project_id}/{tag_key_name}={tag_value_name}
ResourceManagerTagsResponse, ResourceManagerTagsResponseArgs
- Dictionary<string, string>
- TagKeyValue must be in one of the following formats ([KEY]=[VALUE]) 1.
tagKeys/{tag_key_id}=tagValues/{tag_value_id}
2.{org_id}/{tag_key_name}={tag_value_name}
3.{project_id}/{tag_key_name}={tag_value_name}
- map[string]string
- TagKeyValue must be in one of the following formats ([KEY]=[VALUE]) 1.
tagKeys/{tag_key_id}=tagValues/{tag_value_id}
2.{org_id}/{tag_key_name}={tag_value_name}
3.{project_id}/{tag_key_name}={tag_value_name}
- Map<String,String>
- TagKeyValue must be in one of the following formats ([KEY]=[VALUE]) 1.
tagKeys/{tag_key_id}=tagValues/{tag_value_id}
2.{org_id}/{tag_key_name}={tag_value_name}
3.{project_id}/{tag_key_name}={tag_value_name}
- {[key: string]: string}
- TagKeyValue must be in one of the following formats ([KEY]=[VALUE]) 1.
tagKeys/{tag_key_id}=tagValues/{tag_value_id}
2.{org_id}/{tag_key_name}={tag_value_name}
3.{project_id}/{tag_key_name}={tag_value_name}
- Mapping[str, str]
- TagKeyValue must be in one of the following formats ([KEY]=[VALUE]) 1.
tagKeys/{tag_key_id}=tagValues/{tag_value_id}
2.{org_id}/{tag_key_name}={tag_value_name}
3.{project_id}/{tag_key_name}={tag_value_name}
- Map<String>
- TagKeyValue must be in one of the following formats ([KEY]=[VALUE]) 1.
tagKeys/{tag_key_id}=tagValues/{tag_value_id}
2.{org_id}/{tag_key_name}={tag_value_name}
3.{project_id}/{tag_key_name}={tag_value_name}
ResourceUsageExportConfig, ResourceUsageExportConfigArgs
- Bigquery
Destination Pulumi.Google Native. Container. V1. Inputs. Big Query Destination - Configuration to use BigQuery as usage export destination.
- Consumption
Metering Pulumi.Config Google Native. Container. V1. Inputs. Consumption Metering Config - Configuration to enable resource consumption metering.
- Enable
Network boolEgress Metering - Whether to enable network egress metering for this cluster. If enabled, a daemonset will be created in the cluster to meter network egress traffic.
- Bigquery
Destination BigQuery Destination - Configuration to use BigQuery as usage export destination.
- Consumption
Metering ConsumptionConfig Metering Config - Configuration to enable resource consumption metering.
- Enable
Network boolEgress Metering - Whether to enable network egress metering for this cluster. If enabled, a daemonset will be created in the cluster to meter network egress traffic.
- bigquery
Destination BigQuery Destination - Configuration to use BigQuery as usage export destination.
- consumption
Metering ConsumptionConfig Metering Config - Configuration to enable resource consumption metering.
- enable
Network BooleanEgress Metering - Whether to enable network egress metering for this cluster. If enabled, a daemonset will be created in the cluster to meter network egress traffic.
- bigquery
Destination BigQuery Destination - Configuration to use BigQuery as usage export destination.
- consumption
Metering ConsumptionConfig Metering Config - Configuration to enable resource consumption metering.
- enable
Network booleanEgress Metering - Whether to enable network egress metering for this cluster. If enabled, a daemonset will be created in the cluster to meter network egress traffic.
- bigquery_
destination BigQuery Destination - Configuration to use BigQuery as usage export destination.
- consumption_
metering_ Consumptionconfig Metering Config - Configuration to enable resource consumption metering.
- enable_
network_ boolegress_ metering - Whether to enable network egress metering for this cluster. If enabled, a daemonset will be created in the cluster to meter network egress traffic.
- bigquery
Destination Property Map - Configuration to use BigQuery as usage export destination.
- consumption
Metering Property MapConfig - Configuration to enable resource consumption metering.
- enable
Network BooleanEgress Metering - Whether to enable network egress metering for this cluster. If enabled, a daemonset will be created in the cluster to meter network egress traffic.
ResourceUsageExportConfigResponse, ResourceUsageExportConfigResponseArgs
- Bigquery
Destination Pulumi.Google Native. Container. V1. Inputs. Big Query Destination Response - Configuration to use BigQuery as usage export destination.
- Consumption
Metering Pulumi.Config Google Native. Container. V1. Inputs. Consumption Metering Config Response - Configuration to enable resource consumption metering.
- Enable
Network boolEgress Metering - Whether to enable network egress metering for this cluster. If enabled, a daemonset will be created in the cluster to meter network egress traffic.
- Bigquery
Destination BigQuery Destination Response - Configuration to use BigQuery as usage export destination.
- Consumption
Metering ConsumptionConfig Metering Config Response - Configuration to enable resource consumption metering.
- Enable
Network boolEgress Metering - Whether to enable network egress metering for this cluster. If enabled, a daemonset will be created in the cluster to meter network egress traffic.
- bigquery
Destination BigQuery Destination Response - Configuration to use BigQuery as usage export destination.
- consumption
Metering ConsumptionConfig Metering Config Response - Configuration to enable resource consumption metering.
- enable
Network BooleanEgress Metering - Whether to enable network egress metering for this cluster. If enabled, a daemonset will be created in the cluster to meter network egress traffic.
- bigquery
Destination BigQuery Destination Response - Configuration to use BigQuery as usage export destination.
- consumption
Metering ConsumptionConfig Metering Config Response - Configuration to enable resource consumption metering.
- enable
Network booleanEgress Metering - Whether to enable network egress metering for this cluster. If enabled, a daemonset will be created in the cluster to meter network egress traffic.
- bigquery_
destination BigQuery Destination Response - Configuration to use BigQuery as usage export destination.
- consumption_
metering_ Consumptionconfig Metering Config Response - Configuration to enable resource consumption metering.
- enable_
network_ boolegress_ metering - Whether to enable network egress metering for this cluster. If enabled, a daemonset will be created in the cluster to meter network egress traffic.
- bigquery
Destination Property Map - Configuration to use BigQuery as usage export destination.
- consumption
Metering Property MapConfig - Configuration to enable resource consumption metering.
- enable
Network BooleanEgress Metering - Whether to enable network egress metering for this cluster. If enabled, a daemonset will be created in the cluster to meter network egress traffic.
SandboxConfig, SandboxConfigArgs
- Type
Pulumi.
Google Native. Container. V1. Sandbox Config Type - Type of the sandbox to use for the node.
- Type
Sandbox
Config Type - Type of the sandbox to use for the node.
- type
Sandbox
Config Type - Type of the sandbox to use for the node.
- type
Sandbox
Config Type - Type of the sandbox to use for the node.
- type
Sandbox
Config Type - Type of the sandbox to use for the node.
- type "UNSPECIFIED" | "GVISOR"
- Type of the sandbox to use for the node.
SandboxConfigResponse, SandboxConfigResponseArgs
- Type string
- Type of the sandbox to use for the node.
- Type string
- Type of the sandbox to use for the node.
- type String
- Type of the sandbox to use for the node.
- type string
- Type of the sandbox to use for the node.
- type str
- Type of the sandbox to use for the node.
- type String
- Type of the sandbox to use for the node.
SandboxConfigType, SandboxConfigTypeArgs
- Unspecified
- UNSPECIFIEDDefault value. This should not be used.
- Gvisor
- GVISORRun sandbox using gvisor.
- Sandbox
Config Type Unspecified - UNSPECIFIEDDefault value. This should not be used.
- Sandbox
Config Type Gvisor - GVISORRun sandbox using gvisor.
- Unspecified
- UNSPECIFIEDDefault value. This should not be used.
- Gvisor
- GVISORRun sandbox using gvisor.
- Unspecified
- UNSPECIFIEDDefault value. This should not be used.
- Gvisor
- GVISORRun sandbox using gvisor.
- UNSPECIFIED
- UNSPECIFIEDDefault value. This should not be used.
- GVISOR
- GVISORRun sandbox using gvisor.
- "UNSPECIFIED"
- UNSPECIFIEDDefault value. This should not be used.
- "GVISOR"
- GVISORRun sandbox using gvisor.
SecurityPostureConfig, SecurityPostureConfigArgs
- Mode
Pulumi.
Google Native. Container. V1. Security Posture Config Mode - Sets which mode to use for Security Posture features.
- Vulnerability
Mode Pulumi.Google Native. Container. V1. Security Posture Config Vulnerability Mode - Sets which mode to use for vulnerability scanning.
- Mode
Security
Posture Config Mode - Sets which mode to use for Security Posture features.
- Vulnerability
Mode SecurityPosture Config Vulnerability Mode - Sets which mode to use for vulnerability scanning.
- mode
Security
Posture Config Mode - Sets which mode to use for Security Posture features.
- vulnerability
Mode SecurityPosture Config Vulnerability Mode - Sets which mode to use for vulnerability scanning.
- mode
Security
Posture Config Mode - Sets which mode to use for Security Posture features.
- vulnerability
Mode SecurityPosture Config Vulnerability Mode - Sets which mode to use for vulnerability scanning.
- mode
Security
Posture Config Mode - Sets which mode to use for Security Posture features.
- vulnerability_
mode SecurityPosture Config Vulnerability Mode - Sets which mode to use for vulnerability scanning.
- mode "MODE_UNSPECIFIED" | "DISABLED" | "BASIC"
- Sets which mode to use for Security Posture features.
- vulnerability
Mode "VULNERABILITY_MODE_UNSPECIFIED" | "VULNERABILITY_DISABLED" | "VULNERABILITY_BASIC" - Sets which mode to use for vulnerability scanning.
SecurityPostureConfigMode, SecurityPostureConfigModeArgs
- Mode
Unspecified - MODE_UNSPECIFIEDDefault value not specified.
- Disabled
- DISABLEDDisables Security Posture features on the cluster.
- Basic
- BASICApplies Security Posture features on the cluster.
- Security
Posture Config Mode Mode Unspecified - MODE_UNSPECIFIEDDefault value not specified.
- Security
Posture Config Mode Disabled - DISABLEDDisables Security Posture features on the cluster.
- Security
Posture Config Mode Basic - BASICApplies Security Posture features on the cluster.
- Mode
Unspecified - MODE_UNSPECIFIEDDefault value not specified.
- Disabled
- DISABLEDDisables Security Posture features on the cluster.
- Basic
- BASICApplies Security Posture features on the cluster.
- Mode
Unspecified - MODE_UNSPECIFIEDDefault value not specified.
- Disabled
- DISABLEDDisables Security Posture features on the cluster.
- Basic
- BASICApplies Security Posture features on the cluster.
- MODE_UNSPECIFIED
- MODE_UNSPECIFIEDDefault value not specified.
- DISABLED
- DISABLEDDisables Security Posture features on the cluster.
- BASIC
- BASICApplies Security Posture features on the cluster.
- "MODE_UNSPECIFIED"
- MODE_UNSPECIFIEDDefault value not specified.
- "DISABLED"
- DISABLEDDisables Security Posture features on the cluster.
- "BASIC"
- BASICApplies Security Posture features on the cluster.
SecurityPostureConfigResponse, SecurityPostureConfigResponseArgs
- Mode string
- Sets which mode to use for Security Posture features.
- Vulnerability
Mode string - Sets which mode to use for vulnerability scanning.
- Mode string
- Sets which mode to use for Security Posture features.
- Vulnerability
Mode string - Sets which mode to use for vulnerability scanning.
- mode String
- Sets which mode to use for Security Posture features.
- vulnerability
Mode String - Sets which mode to use for vulnerability scanning.
- mode string
- Sets which mode to use for Security Posture features.
- vulnerability
Mode string - Sets which mode to use for vulnerability scanning.
- mode str
- Sets which mode to use for Security Posture features.
- vulnerability_
mode str - Sets which mode to use for vulnerability scanning.
- mode String
- Sets which mode to use for Security Posture features.
- vulnerability
Mode String - Sets which mode to use for vulnerability scanning.
SecurityPostureConfigVulnerabilityMode, SecurityPostureConfigVulnerabilityModeArgs
- Vulnerability
Mode Unspecified - VULNERABILITY_MODE_UNSPECIFIEDDefault value not specified.
- Vulnerability
Disabled - VULNERABILITY_DISABLEDDisables vulnerability scanning on the cluster.
- Vulnerability
Basic - VULNERABILITY_BASICApplies basic vulnerability scanning on the cluster.
- Security
Posture Config Vulnerability Mode Vulnerability Mode Unspecified - VULNERABILITY_MODE_UNSPECIFIEDDefault value not specified.
- Security
Posture Config Vulnerability Mode Vulnerability Disabled - VULNERABILITY_DISABLEDDisables vulnerability scanning on the cluster.
- Security
Posture Config Vulnerability Mode Vulnerability Basic - VULNERABILITY_BASICApplies basic vulnerability scanning on the cluster.
- Vulnerability
Mode Unspecified - VULNERABILITY_MODE_UNSPECIFIEDDefault value not specified.
- Vulnerability
Disabled - VULNERABILITY_DISABLEDDisables vulnerability scanning on the cluster.
- Vulnerability
Basic - VULNERABILITY_BASICApplies basic vulnerability scanning on the cluster.
- Vulnerability
Mode Unspecified - VULNERABILITY_MODE_UNSPECIFIEDDefault value not specified.
- Vulnerability
Disabled - VULNERABILITY_DISABLEDDisables vulnerability scanning on the cluster.
- Vulnerability
Basic - VULNERABILITY_BASICApplies basic vulnerability scanning on the cluster.
- VULNERABILITY_MODE_UNSPECIFIED
- VULNERABILITY_MODE_UNSPECIFIEDDefault value not specified.
- VULNERABILITY_DISABLED
- VULNERABILITY_DISABLEDDisables vulnerability scanning on the cluster.
- VULNERABILITY_BASIC
- VULNERABILITY_BASICApplies basic vulnerability scanning on the cluster.
- "VULNERABILITY_MODE_UNSPECIFIED"
- VULNERABILITY_MODE_UNSPECIFIEDDefault value not specified.
- "VULNERABILITY_DISABLED"
- VULNERABILITY_DISABLEDDisables vulnerability scanning on the cluster.
- "VULNERABILITY_BASIC"
- VULNERABILITY_BASICApplies basic vulnerability scanning on the cluster.
ServiceExternalIPsConfig, ServiceExternalIPsConfigArgs
- Enabled bool
- Whether Services with ExternalIPs field are allowed or not.
- Enabled bool
- Whether Services with ExternalIPs field are allowed or not.
- enabled Boolean
- Whether Services with ExternalIPs field are allowed or not.
- enabled boolean
- Whether Services with ExternalIPs field are allowed or not.
- enabled bool
- Whether Services with ExternalIPs field are allowed or not.
- enabled Boolean
- Whether Services with ExternalIPs field are allowed or not.
ServiceExternalIPsConfigResponse, ServiceExternalIPsConfigResponseArgs
- Enabled bool
- Whether Services with ExternalIPs field are allowed or not.
- Enabled bool
- Whether Services with ExternalIPs field are allowed or not.
- enabled Boolean
- Whether Services with ExternalIPs field are allowed or not.
- enabled boolean
- Whether Services with ExternalIPs field are allowed or not.
- enabled bool
- Whether Services with ExternalIPs field are allowed or not.
- enabled Boolean
- Whether Services with ExternalIPs field are allowed or not.
ShieldedInstanceConfig, ShieldedInstanceConfigArgs
- Enable
Integrity boolMonitoring - Defines whether the instance has integrity monitoring enabled. Enables monitoring and attestation of the boot integrity of the instance. The attestation is performed against the integrity policy baseline. This baseline is initially derived from the implicitly trusted boot image when the instance is created.
- Enable
Secure boolBoot - Defines whether the instance has Secure Boot enabled. Secure Boot helps ensure that the system only runs authentic software by verifying the digital signature of all boot components, and halting the boot process if signature verification fails.
- Enable
Integrity boolMonitoring - Defines whether the instance has integrity monitoring enabled. Enables monitoring and attestation of the boot integrity of the instance. The attestation is performed against the integrity policy baseline. This baseline is initially derived from the implicitly trusted boot image when the instance is created.
- Enable
Secure boolBoot - Defines whether the instance has Secure Boot enabled. Secure Boot helps ensure that the system only runs authentic software by verifying the digital signature of all boot components, and halting the boot process if signature verification fails.
- enable
Integrity BooleanMonitoring - Defines whether the instance has integrity monitoring enabled. Enables monitoring and attestation of the boot integrity of the instance. The attestation is performed against the integrity policy baseline. This baseline is initially derived from the implicitly trusted boot image when the instance is created.
- enable
Secure BooleanBoot - Defines whether the instance has Secure Boot enabled. Secure Boot helps ensure that the system only runs authentic software by verifying the digital signature of all boot components, and halting the boot process if signature verification fails.
- enable
Integrity booleanMonitoring - Defines whether the instance has integrity monitoring enabled. Enables monitoring and attestation of the boot integrity of the instance. The attestation is performed against the integrity policy baseline. This baseline is initially derived from the implicitly trusted boot image when the instance is created.
- enable
Secure booleanBoot - Defines whether the instance has Secure Boot enabled. Secure Boot helps ensure that the system only runs authentic software by verifying the digital signature of all boot components, and halting the boot process if signature verification fails.
- enable_
integrity_ boolmonitoring - Defines whether the instance has integrity monitoring enabled. Enables monitoring and attestation of the boot integrity of the instance. The attestation is performed against the integrity policy baseline. This baseline is initially derived from the implicitly trusted boot image when the instance is created.
- enable_
secure_ boolboot - Defines whether the instance has Secure Boot enabled. Secure Boot helps ensure that the system only runs authentic software by verifying the digital signature of all boot components, and halting the boot process if signature verification fails.
- enable
Integrity BooleanMonitoring - Defines whether the instance has integrity monitoring enabled. Enables monitoring and attestation of the boot integrity of the instance. The attestation is performed against the integrity policy baseline. This baseline is initially derived from the implicitly trusted boot image when the instance is created.
- enable
Secure BooleanBoot - Defines whether the instance has Secure Boot enabled. Secure Boot helps ensure that the system only runs authentic software by verifying the digital signature of all boot components, and halting the boot process if signature verification fails.
ShieldedInstanceConfigResponse, ShieldedInstanceConfigResponseArgs
- Enable
Integrity boolMonitoring - Defines whether the instance has integrity monitoring enabled. Enables monitoring and attestation of the boot integrity of the instance. The attestation is performed against the integrity policy baseline. This baseline is initially derived from the implicitly trusted boot image when the instance is created.
- Enable
Secure boolBoot - Defines whether the instance has Secure Boot enabled. Secure Boot helps ensure that the system only runs authentic software by verifying the digital signature of all boot components, and halting the boot process if signature verification fails.
- Enable
Integrity boolMonitoring - Defines whether the instance has integrity monitoring enabled. Enables monitoring and attestation of the boot integrity of the instance. The attestation is performed against the integrity policy baseline. This baseline is initially derived from the implicitly trusted boot image when the instance is created.
- Enable
Secure boolBoot - Defines whether the instance has Secure Boot enabled. Secure Boot helps ensure that the system only runs authentic software by verifying the digital signature of all boot components, and halting the boot process if signature verification fails.
- enable
Integrity BooleanMonitoring - Defines whether the instance has integrity monitoring enabled. Enables monitoring and attestation of the boot integrity of the instance. The attestation is performed against the integrity policy baseline. This baseline is initially derived from the implicitly trusted boot image when the instance is created.
- enable
Secure BooleanBoot - Defines whether the instance has Secure Boot enabled. Secure Boot helps ensure that the system only runs authentic software by verifying the digital signature of all boot components, and halting the boot process if signature verification fails.
- enable
Integrity booleanMonitoring - Defines whether the instance has integrity monitoring enabled. Enables monitoring and attestation of the boot integrity of the instance. The attestation is performed against the integrity policy baseline. This baseline is initially derived from the implicitly trusted boot image when the instance is created.
- enable
Secure booleanBoot - Defines whether the instance has Secure Boot enabled. Secure Boot helps ensure that the system only runs authentic software by verifying the digital signature of all boot components, and halting the boot process if signature verification fails.
- enable_
integrity_ boolmonitoring - Defines whether the instance has integrity monitoring enabled. Enables monitoring and attestation of the boot integrity of the instance. The attestation is performed against the integrity policy baseline. This baseline is initially derived from the implicitly trusted boot image when the instance is created.
- enable_
secure_ boolboot - Defines whether the instance has Secure Boot enabled. Secure Boot helps ensure that the system only runs authentic software by verifying the digital signature of all boot components, and halting the boot process if signature verification fails.
- enable
Integrity BooleanMonitoring - Defines whether the instance has integrity monitoring enabled. Enables monitoring and attestation of the boot integrity of the instance. The attestation is performed against the integrity policy baseline. This baseline is initially derived from the implicitly trusted boot image when the instance is created.
- enable
Secure BooleanBoot - Defines whether the instance has Secure Boot enabled. Secure Boot helps ensure that the system only runs authentic software by verifying the digital signature of all boot components, and halting the boot process if signature verification fails.
ShieldedNodes, ShieldedNodesArgs
- Enabled bool
- Whether Shielded Nodes features are enabled on all nodes in this cluster.
- Enabled bool
- Whether Shielded Nodes features are enabled on all nodes in this cluster.
- enabled Boolean
- Whether Shielded Nodes features are enabled on all nodes in this cluster.
- enabled boolean
- Whether Shielded Nodes features are enabled on all nodes in this cluster.
- enabled bool
- Whether Shielded Nodes features are enabled on all nodes in this cluster.
- enabled Boolean
- Whether Shielded Nodes features are enabled on all nodes in this cluster.
ShieldedNodesResponse, ShieldedNodesResponseArgs
- Enabled bool
- Whether Shielded Nodes features are enabled on all nodes in this cluster.
- Enabled bool
- Whether Shielded Nodes features are enabled on all nodes in this cluster.
- enabled Boolean
- Whether Shielded Nodes features are enabled on all nodes in this cluster.
- enabled boolean
- Whether Shielded Nodes features are enabled on all nodes in this cluster.
- enabled bool
- Whether Shielded Nodes features are enabled on all nodes in this cluster.
- enabled Boolean
- Whether Shielded Nodes features are enabled on all nodes in this cluster.
SoleTenantConfig, SoleTenantConfigArgs
- Node
Affinities List<Pulumi.Google Native. Container. V1. Inputs. Node Affinity> - NodeAffinities used to match to a shared sole tenant node group.
- Node
Affinities []NodeAffinity - NodeAffinities used to match to a shared sole tenant node group.
- node
Affinities List<NodeAffinity> - NodeAffinities used to match to a shared sole tenant node group.
- node
Affinities NodeAffinity[] - NodeAffinities used to match to a shared sole tenant node group.
- node_
affinities Sequence[NodeAffinity] - NodeAffinities used to match to a shared sole tenant node group.
- node
Affinities List<Property Map> - NodeAffinities used to match to a shared sole tenant node group.
SoleTenantConfigResponse, SoleTenantConfigResponseArgs
- Node
Affinities List<Pulumi.Google Native. Container. V1. Inputs. Node Affinity Response> - NodeAffinities used to match to a shared sole tenant node group.
- Node
Affinities []NodeAffinity Response - NodeAffinities used to match to a shared sole tenant node group.
- node
Affinities List<NodeAffinity Response> - NodeAffinities used to match to a shared sole tenant node group.
- node
Affinities NodeAffinity Response[] - NodeAffinities used to match to a shared sole tenant node group.
- node_
affinities Sequence[NodeAffinity Response] - NodeAffinities used to match to a shared sole tenant node group.
- node
Affinities List<Property Map> - NodeAffinities used to match to a shared sole tenant node group.
StandardRolloutPolicy, StandardRolloutPolicyArgs
- Batch
Node intCount - Number of blue nodes to drain in a batch.
- Batch
Percentage double - Percentage of the blue pool nodes to drain in a batch. The range of this field should be (0.0, 1.0].
- Batch
Soak stringDuration - Soak time after each batch gets drained. Default to zero.
- Batch
Node intCount - Number of blue nodes to drain in a batch.
- Batch
Percentage float64 - Percentage of the blue pool nodes to drain in a batch. The range of this field should be (0.0, 1.0].
- Batch
Soak stringDuration - Soak time after each batch gets drained. Default to zero.
- batch
Node IntegerCount - Number of blue nodes to drain in a batch.
- batch
Percentage Double - Percentage of the blue pool nodes to drain in a batch. The range of this field should be (0.0, 1.0].
- batch
Soak StringDuration - Soak time after each batch gets drained. Default to zero.
- batch
Node numberCount - Number of blue nodes to drain in a batch.
- batch
Percentage number - Percentage of the blue pool nodes to drain in a batch. The range of this field should be (0.0, 1.0].
- batch
Soak stringDuration - Soak time after each batch gets drained. Default to zero.
- batch_
node_ intcount - Number of blue nodes to drain in a batch.
- batch_
percentage float - Percentage of the blue pool nodes to drain in a batch. The range of this field should be (0.0, 1.0].
- batch_
soak_ strduration - Soak time after each batch gets drained. Default to zero.
- batch
Node NumberCount - Number of blue nodes to drain in a batch.
- batch
Percentage Number - Percentage of the blue pool nodes to drain in a batch. The range of this field should be (0.0, 1.0].
- batch
Soak StringDuration - Soak time after each batch gets drained. Default to zero.
StandardRolloutPolicyResponse, StandardRolloutPolicyResponseArgs
- Batch
Node intCount - Number of blue nodes to drain in a batch.
- Batch
Percentage double - Percentage of the blue pool nodes to drain in a batch. The range of this field should be (0.0, 1.0].
- Batch
Soak stringDuration - Soak time after each batch gets drained. Default to zero.
- Batch
Node intCount - Number of blue nodes to drain in a batch.
- Batch
Percentage float64 - Percentage of the blue pool nodes to drain in a batch. The range of this field should be (0.0, 1.0].
- Batch
Soak stringDuration - Soak time after each batch gets drained. Default to zero.
- batch
Node IntegerCount - Number of blue nodes to drain in a batch.
- batch
Percentage Double - Percentage of the blue pool nodes to drain in a batch. The range of this field should be (0.0, 1.0].
- batch
Soak StringDuration - Soak time after each batch gets drained. Default to zero.
- batch
Node numberCount - Number of blue nodes to drain in a batch.
- batch
Percentage number - Percentage of the blue pool nodes to drain in a batch. The range of this field should be (0.0, 1.0].
- batch
Soak stringDuration - Soak time after each batch gets drained. Default to zero.
- batch_
node_ intcount - Number of blue nodes to drain in a batch.
- batch_
percentage float - Percentage of the blue pool nodes to drain in a batch. The range of this field should be (0.0, 1.0].
- batch_
soak_ strduration - Soak time after each batch gets drained. Default to zero.
- batch
Node NumberCount - Number of blue nodes to drain in a batch.
- batch
Percentage Number - Percentage of the blue pool nodes to drain in a batch. The range of this field should be (0.0, 1.0].
- batch
Soak StringDuration - Soak time after each batch gets drained. Default to zero.
StatusCondition, StatusConditionArgs
- Canonical
Code Pulumi.Google Native. Container. V1. Status Condition Canonical Code - Canonical code of the condition.
- Code
Pulumi.
Google Native. Container. V1. Status Condition Code - Machine-friendly representation of the condition Deprecated. Use canonical_code instead.
- Message string
- Human-friendly representation of the condition
- Canonical
Code StatusCondition Canonical Code - Canonical code of the condition.
- Code
Status
Condition Code - Machine-friendly representation of the condition Deprecated. Use canonical_code instead.
- Message string
- Human-friendly representation of the condition
- canonical
Code StatusCondition Canonical Code - Canonical code of the condition.
- code
Status
Condition Code - Machine-friendly representation of the condition Deprecated. Use canonical_code instead.
- message String
- Human-friendly representation of the condition
- canonical
Code StatusCondition Canonical Code - Canonical code of the condition.
- code
Status
Condition Code - Machine-friendly representation of the condition Deprecated. Use canonical_code instead.
- message string
- Human-friendly representation of the condition
- canonical_
code StatusCondition Canonical Code - Canonical code of the condition.
- code
Status
Condition Code - Machine-friendly representation of the condition Deprecated. Use canonical_code instead.
- message str
- Human-friendly representation of the condition
- canonical
Code "OK" | "CANCELLED" | "UNKNOWN" | "INVALID_ARGUMENT" | "DEADLINE_EXCEEDED" | "NOT_FOUND" | "ALREADY_EXISTS" | "PERMISSION_DENIED" | "UNAUTHENTICATED" | "RESOURCE_EXHAUSTED" | "FAILED_PRECONDITION" | "ABORTED" | "OUT_OF_RANGE" | "UNIMPLEMENTED" | "INTERNAL" | "UNAVAILABLE" | "DATA_LOSS" - Canonical code of the condition.
- code "UNKNOWN" | "GCE_STOCKOUT" | "GKE_SERVICE_ACCOUNT_DELETED" | "GCE_QUOTA_EXCEEDED" | "SET_BY_OPERATOR" | "CLOUD_KMS_KEY_ERROR" | "CA_EXPIRING"
- Machine-friendly representation of the condition Deprecated. Use canonical_code instead.
- message String
- Human-friendly representation of the condition
StatusConditionCanonicalCode, StatusConditionCanonicalCodeArgs
- Ok
- OKNot an error; returned on success. HTTP Mapping: 200 OK
- Cancelled
- CANCELLEDThe operation was cancelled, typically by the caller. HTTP Mapping: 499 Client Closed Request
- Unknown
- UNKNOWNUnknown error. For example, this error may be returned when a
Status
value received from another address space belongs to an error space that is not known in this address space. Also errors raised by APIs that do not return enough error information may be converted to this error. HTTP Mapping: 500 Internal Server Error - Invalid
Argument - INVALID_ARGUMENTThe client specified an invalid argument. Note that this differs from
FAILED_PRECONDITION
.INVALID_ARGUMENT
indicates arguments that are problematic regardless of the state of the system (e.g., a malformed file name). HTTP Mapping: 400 Bad Request - Deadline
Exceeded - DEADLINE_EXCEEDEDThe deadline expired before the operation could complete. For operations that change the state of the system, this error may be returned even if the operation has completed successfully. For example, a successful response from a server could have been delayed long enough for the deadline to expire. HTTP Mapping: 504 Gateway Timeout
- Not
Found - NOT_FOUNDSome requested entity (e.g., file or directory) was not found. Note to server developers: if a request is denied for an entire class of users, such as gradual feature rollout or undocumented allowlist,
NOT_FOUND
may be used. If a request is denied for some users within a class of users, such as user-based access control,PERMISSION_DENIED
must be used. HTTP Mapping: 404 Not Found - Already
Exists - ALREADY_EXISTSThe entity that a client attempted to create (e.g., file or directory) already exists. HTTP Mapping: 409 Conflict
- Permission
Denied - PERMISSION_DENIEDThe caller does not have permission to execute the specified operation.
PERMISSION_DENIED
must not be used for rejections caused by exhausting some resource (useRESOURCE_EXHAUSTED
instead for those errors).PERMISSION_DENIED
must not be used if the caller can not be identified (useUNAUTHENTICATED
instead for those errors). This error code does not imply the request is valid or the requested entity exists or satisfies other pre-conditions. HTTP Mapping: 403 Forbidden - Unauthenticated
- UNAUTHENTICATEDThe request does not have valid authentication credentials for the operation. HTTP Mapping: 401 Unauthorized
- Resource
Exhausted - RESOURCE_EXHAUSTEDSome resource has been exhausted, perhaps a per-user quota, or perhaps the entire file system is out of space. HTTP Mapping: 429 Too Many Requests
- Failed
Precondition - FAILED_PRECONDITIONThe operation was rejected because the system is not in a state required for the operation's execution. For example, the directory to be deleted is non-empty, an rmdir operation is applied to a non-directory, etc. Service implementors can use the following guidelines to decide between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
: (a) UseUNAVAILABLE
if the client can retry just the failing call. (b) UseABORTED
if the client should retry at a higher level. For example, when a client-specified test-and-set fails, indicating the client should restart a read-modify-write sequence. (c) UseFAILED_PRECONDITION
if the client should not retry until the system state has been explicitly fixed. For example, if an "rmdir" fails because the directory is non-empty,FAILED_PRECONDITION
should be returned since the client should not retry unless the files are deleted from the directory. HTTP Mapping: 400 Bad Request - Aborted
- ABORTEDThe operation was aborted, typically due to a concurrency issue such as a sequencer check failure or transaction abort. See the guidelines above for deciding between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
. HTTP Mapping: 409 Conflict - Out
Of Range - OUT_OF_RANGEThe operation was attempted past the valid range. E.g., seeking or reading past end-of-file. Unlike
INVALID_ARGUMENT
, this error indicates a problem that may be fixed if the system state changes. For example, a 32-bit file system will generateINVALID_ARGUMENT
if asked to read at an offset that is not in the range [0,2^32-1], but it will generateOUT_OF_RANGE
if asked to read from an offset past the current file size. There is a fair bit of overlap betweenFAILED_PRECONDITION
andOUT_OF_RANGE
. We recommend usingOUT_OF_RANGE
(the more specific error) when it applies so that callers who are iterating through a space can easily look for anOUT_OF_RANGE
error to detect when they are done. HTTP Mapping: 400 Bad Request - Unimplemented
- UNIMPLEMENTEDThe operation is not implemented or is not supported/enabled in this service. HTTP Mapping: 501 Not Implemented
- Internal
- INTERNALInternal errors. This means that some invariants expected by the underlying system have been broken. This error code is reserved for serious errors. HTTP Mapping: 500 Internal Server Error
- Unavailable
- UNAVAILABLEThe service is currently unavailable. This is most likely a transient condition, which can be corrected by retrying with a backoff. Note that it is not always safe to retry non-idempotent operations. See the guidelines above for deciding between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
. HTTP Mapping: 503 Service Unavailable - Data
Loss - DATA_LOSSUnrecoverable data loss or corruption. HTTP Mapping: 500 Internal Server Error
- Status
Condition Canonical Code Ok - OKNot an error; returned on success. HTTP Mapping: 200 OK
- Status
Condition Canonical Code Cancelled - CANCELLEDThe operation was cancelled, typically by the caller. HTTP Mapping: 499 Client Closed Request
- Status
Condition Canonical Code Unknown - UNKNOWNUnknown error. For example, this error may be returned when a
Status
value received from another address space belongs to an error space that is not known in this address space. Also errors raised by APIs that do not return enough error information may be converted to this error. HTTP Mapping: 500 Internal Server Error - Status
Condition Canonical Code Invalid Argument - INVALID_ARGUMENTThe client specified an invalid argument. Note that this differs from
FAILED_PRECONDITION
.INVALID_ARGUMENT
indicates arguments that are problematic regardless of the state of the system (e.g., a malformed file name). HTTP Mapping: 400 Bad Request - Status
Condition Canonical Code Deadline Exceeded - DEADLINE_EXCEEDEDThe deadline expired before the operation could complete. For operations that change the state of the system, this error may be returned even if the operation has completed successfully. For example, a successful response from a server could have been delayed long enough for the deadline to expire. HTTP Mapping: 504 Gateway Timeout
- Status
Condition Canonical Code Not Found - NOT_FOUNDSome requested entity (e.g., file or directory) was not found. Note to server developers: if a request is denied for an entire class of users, such as gradual feature rollout or undocumented allowlist,
NOT_FOUND
may be used. If a request is denied for some users within a class of users, such as user-based access control,PERMISSION_DENIED
must be used. HTTP Mapping: 404 Not Found - Status
Condition Canonical Code Already Exists - ALREADY_EXISTSThe entity that a client attempted to create (e.g., file or directory) already exists. HTTP Mapping: 409 Conflict
- Status
Condition Canonical Code Permission Denied - PERMISSION_DENIEDThe caller does not have permission to execute the specified operation.
PERMISSION_DENIED
must not be used for rejections caused by exhausting some resource (useRESOURCE_EXHAUSTED
instead for those errors).PERMISSION_DENIED
must not be used if the caller can not be identified (useUNAUTHENTICATED
instead for those errors). This error code does not imply the request is valid or the requested entity exists or satisfies other pre-conditions. HTTP Mapping: 403 Forbidden - Status
Condition Canonical Code Unauthenticated - UNAUTHENTICATEDThe request does not have valid authentication credentials for the operation. HTTP Mapping: 401 Unauthorized
- Status
Condition Canonical Code Resource Exhausted - RESOURCE_EXHAUSTEDSome resource has been exhausted, perhaps a per-user quota, or perhaps the entire file system is out of space. HTTP Mapping: 429 Too Many Requests
- Status
Condition Canonical Code Failed Precondition - FAILED_PRECONDITIONThe operation was rejected because the system is not in a state required for the operation's execution. For example, the directory to be deleted is non-empty, an rmdir operation is applied to a non-directory, etc. Service implementors can use the following guidelines to decide between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
: (a) UseUNAVAILABLE
if the client can retry just the failing call. (b) UseABORTED
if the client should retry at a higher level. For example, when a client-specified test-and-set fails, indicating the client should restart a read-modify-write sequence. (c) UseFAILED_PRECONDITION
if the client should not retry until the system state has been explicitly fixed. For example, if an "rmdir" fails because the directory is non-empty,FAILED_PRECONDITION
should be returned since the client should not retry unless the files are deleted from the directory. HTTP Mapping: 400 Bad Request - Status
Condition Canonical Code Aborted - ABORTEDThe operation was aborted, typically due to a concurrency issue such as a sequencer check failure or transaction abort. See the guidelines above for deciding between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
. HTTP Mapping: 409 Conflict - Status
Condition Canonical Code Out Of Range - OUT_OF_RANGEThe operation was attempted past the valid range. E.g., seeking or reading past end-of-file. Unlike
INVALID_ARGUMENT
, this error indicates a problem that may be fixed if the system state changes. For example, a 32-bit file system will generateINVALID_ARGUMENT
if asked to read at an offset that is not in the range [0,2^32-1], but it will generateOUT_OF_RANGE
if asked to read from an offset past the current file size. There is a fair bit of overlap betweenFAILED_PRECONDITION
andOUT_OF_RANGE
. We recommend usingOUT_OF_RANGE
(the more specific error) when it applies so that callers who are iterating through a space can easily look for anOUT_OF_RANGE
error to detect when they are done. HTTP Mapping: 400 Bad Request - Status
Condition Canonical Code Unimplemented - UNIMPLEMENTEDThe operation is not implemented or is not supported/enabled in this service. HTTP Mapping: 501 Not Implemented
- Status
Condition Canonical Code Internal - INTERNALInternal errors. This means that some invariants expected by the underlying system have been broken. This error code is reserved for serious errors. HTTP Mapping: 500 Internal Server Error
- Status
Condition Canonical Code Unavailable - UNAVAILABLEThe service is currently unavailable. This is most likely a transient condition, which can be corrected by retrying with a backoff. Note that it is not always safe to retry non-idempotent operations. See the guidelines above for deciding between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
. HTTP Mapping: 503 Service Unavailable - Status
Condition Canonical Code Data Loss - DATA_LOSSUnrecoverable data loss or corruption. HTTP Mapping: 500 Internal Server Error
- Ok
- OKNot an error; returned on success. HTTP Mapping: 200 OK
- Cancelled
- CANCELLEDThe operation was cancelled, typically by the caller. HTTP Mapping: 499 Client Closed Request
- Unknown
- UNKNOWNUnknown error. For example, this error may be returned when a
Status
value received from another address space belongs to an error space that is not known in this address space. Also errors raised by APIs that do not return enough error information may be converted to this error. HTTP Mapping: 500 Internal Server Error - Invalid
Argument - INVALID_ARGUMENTThe client specified an invalid argument. Note that this differs from
FAILED_PRECONDITION
.INVALID_ARGUMENT
indicates arguments that are problematic regardless of the state of the system (e.g., a malformed file name). HTTP Mapping: 400 Bad Request - Deadline
Exceeded - DEADLINE_EXCEEDEDThe deadline expired before the operation could complete. For operations that change the state of the system, this error may be returned even if the operation has completed successfully. For example, a successful response from a server could have been delayed long enough for the deadline to expire. HTTP Mapping: 504 Gateway Timeout
- Not
Found - NOT_FOUNDSome requested entity (e.g., file or directory) was not found. Note to server developers: if a request is denied for an entire class of users, such as gradual feature rollout or undocumented allowlist,
NOT_FOUND
may be used. If a request is denied for some users within a class of users, such as user-based access control,PERMISSION_DENIED
must be used. HTTP Mapping: 404 Not Found - Already
Exists - ALREADY_EXISTSThe entity that a client attempted to create (e.g., file or directory) already exists. HTTP Mapping: 409 Conflict
- Permission
Denied - PERMISSION_DENIEDThe caller does not have permission to execute the specified operation.
PERMISSION_DENIED
must not be used for rejections caused by exhausting some resource (useRESOURCE_EXHAUSTED
instead for those errors).PERMISSION_DENIED
must not be used if the caller can not be identified (useUNAUTHENTICATED
instead for those errors). This error code does not imply the request is valid or the requested entity exists or satisfies other pre-conditions. HTTP Mapping: 403 Forbidden - Unauthenticated
- UNAUTHENTICATEDThe request does not have valid authentication credentials for the operation. HTTP Mapping: 401 Unauthorized
- Resource
Exhausted - RESOURCE_EXHAUSTEDSome resource has been exhausted, perhaps a per-user quota, or perhaps the entire file system is out of space. HTTP Mapping: 429 Too Many Requests
- Failed
Precondition - FAILED_PRECONDITIONThe operation was rejected because the system is not in a state required for the operation's execution. For example, the directory to be deleted is non-empty, an rmdir operation is applied to a non-directory, etc. Service implementors can use the following guidelines to decide between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
: (a) UseUNAVAILABLE
if the client can retry just the failing call. (b) UseABORTED
if the client should retry at a higher level. For example, when a client-specified test-and-set fails, indicating the client should restart a read-modify-write sequence. (c) UseFAILED_PRECONDITION
if the client should not retry until the system state has been explicitly fixed. For example, if an "rmdir" fails because the directory is non-empty,FAILED_PRECONDITION
should be returned since the client should not retry unless the files are deleted from the directory. HTTP Mapping: 400 Bad Request - Aborted
- ABORTEDThe operation was aborted, typically due to a concurrency issue such as a sequencer check failure or transaction abort. See the guidelines above for deciding between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
. HTTP Mapping: 409 Conflict - Out
Of Range - OUT_OF_RANGEThe operation was attempted past the valid range. E.g., seeking or reading past end-of-file. Unlike
INVALID_ARGUMENT
, this error indicates a problem that may be fixed if the system state changes. For example, a 32-bit file system will generateINVALID_ARGUMENT
if asked to read at an offset that is not in the range [0,2^32-1], but it will generateOUT_OF_RANGE
if asked to read from an offset past the current file size. There is a fair bit of overlap betweenFAILED_PRECONDITION
andOUT_OF_RANGE
. We recommend usingOUT_OF_RANGE
(the more specific error) when it applies so that callers who are iterating through a space can easily look for anOUT_OF_RANGE
error to detect when they are done. HTTP Mapping: 400 Bad Request - Unimplemented
- UNIMPLEMENTEDThe operation is not implemented or is not supported/enabled in this service. HTTP Mapping: 501 Not Implemented
- Internal
- INTERNALInternal errors. This means that some invariants expected by the underlying system have been broken. This error code is reserved for serious errors. HTTP Mapping: 500 Internal Server Error
- Unavailable
- UNAVAILABLEThe service is currently unavailable. This is most likely a transient condition, which can be corrected by retrying with a backoff. Note that it is not always safe to retry non-idempotent operations. See the guidelines above for deciding between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
. HTTP Mapping: 503 Service Unavailable - Data
Loss - DATA_LOSSUnrecoverable data loss or corruption. HTTP Mapping: 500 Internal Server Error
- Ok
- OKNot an error; returned on success. HTTP Mapping: 200 OK
- Cancelled
- CANCELLEDThe operation was cancelled, typically by the caller. HTTP Mapping: 499 Client Closed Request
- Unknown
- UNKNOWNUnknown error. For example, this error may be returned when a
Status
value received from another address space belongs to an error space that is not known in this address space. Also errors raised by APIs that do not return enough error information may be converted to this error. HTTP Mapping: 500 Internal Server Error - Invalid
Argument - INVALID_ARGUMENTThe client specified an invalid argument. Note that this differs from
FAILED_PRECONDITION
.INVALID_ARGUMENT
indicates arguments that are problematic regardless of the state of the system (e.g., a malformed file name). HTTP Mapping: 400 Bad Request - Deadline
Exceeded - DEADLINE_EXCEEDEDThe deadline expired before the operation could complete. For operations that change the state of the system, this error may be returned even if the operation has completed successfully. For example, a successful response from a server could have been delayed long enough for the deadline to expire. HTTP Mapping: 504 Gateway Timeout
- Not
Found - NOT_FOUNDSome requested entity (e.g., file or directory) was not found. Note to server developers: if a request is denied for an entire class of users, such as gradual feature rollout or undocumented allowlist,
NOT_FOUND
may be used. If a request is denied for some users within a class of users, such as user-based access control,PERMISSION_DENIED
must be used. HTTP Mapping: 404 Not Found - Already
Exists - ALREADY_EXISTSThe entity that a client attempted to create (e.g., file or directory) already exists. HTTP Mapping: 409 Conflict
- Permission
Denied - PERMISSION_DENIEDThe caller does not have permission to execute the specified operation.
PERMISSION_DENIED
must not be used for rejections caused by exhausting some resource (useRESOURCE_EXHAUSTED
instead for those errors).PERMISSION_DENIED
must not be used if the caller can not be identified (useUNAUTHENTICATED
instead for those errors). This error code does not imply the request is valid or the requested entity exists or satisfies other pre-conditions. HTTP Mapping: 403 Forbidden - Unauthenticated
- UNAUTHENTICATEDThe request does not have valid authentication credentials for the operation. HTTP Mapping: 401 Unauthorized
- Resource
Exhausted - RESOURCE_EXHAUSTEDSome resource has been exhausted, perhaps a per-user quota, or perhaps the entire file system is out of space. HTTP Mapping: 429 Too Many Requests
- Failed
Precondition - FAILED_PRECONDITIONThe operation was rejected because the system is not in a state required for the operation's execution. For example, the directory to be deleted is non-empty, an rmdir operation is applied to a non-directory, etc. Service implementors can use the following guidelines to decide between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
: (a) UseUNAVAILABLE
if the client can retry just the failing call. (b) UseABORTED
if the client should retry at a higher level. For example, when a client-specified test-and-set fails, indicating the client should restart a read-modify-write sequence. (c) UseFAILED_PRECONDITION
if the client should not retry until the system state has been explicitly fixed. For example, if an "rmdir" fails because the directory is non-empty,FAILED_PRECONDITION
should be returned since the client should not retry unless the files are deleted from the directory. HTTP Mapping: 400 Bad Request - Aborted
- ABORTEDThe operation was aborted, typically due to a concurrency issue such as a sequencer check failure or transaction abort. See the guidelines above for deciding between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
. HTTP Mapping: 409 Conflict - Out
Of Range - OUT_OF_RANGEThe operation was attempted past the valid range. E.g., seeking or reading past end-of-file. Unlike
INVALID_ARGUMENT
, this error indicates a problem that may be fixed if the system state changes. For example, a 32-bit file system will generateINVALID_ARGUMENT
if asked to read at an offset that is not in the range [0,2^32-1], but it will generateOUT_OF_RANGE
if asked to read from an offset past the current file size. There is a fair bit of overlap betweenFAILED_PRECONDITION
andOUT_OF_RANGE
. We recommend usingOUT_OF_RANGE
(the more specific error) when it applies so that callers who are iterating through a space can easily look for anOUT_OF_RANGE
error to detect when they are done. HTTP Mapping: 400 Bad Request - Unimplemented
- UNIMPLEMENTEDThe operation is not implemented or is not supported/enabled in this service. HTTP Mapping: 501 Not Implemented
- Internal
- INTERNALInternal errors. This means that some invariants expected by the underlying system have been broken. This error code is reserved for serious errors. HTTP Mapping: 500 Internal Server Error
- Unavailable
- UNAVAILABLEThe service is currently unavailable. This is most likely a transient condition, which can be corrected by retrying with a backoff. Note that it is not always safe to retry non-idempotent operations. See the guidelines above for deciding between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
. HTTP Mapping: 503 Service Unavailable - Data
Loss - DATA_LOSSUnrecoverable data loss or corruption. HTTP Mapping: 500 Internal Server Error
- OK
- OKNot an error; returned on success. HTTP Mapping: 200 OK
- CANCELLED
- CANCELLEDThe operation was cancelled, typically by the caller. HTTP Mapping: 499 Client Closed Request
- UNKNOWN
- UNKNOWNUnknown error. For example, this error may be returned when a
Status
value received from another address space belongs to an error space that is not known in this address space. Also errors raised by APIs that do not return enough error information may be converted to this error. HTTP Mapping: 500 Internal Server Error - INVALID_ARGUMENT
- INVALID_ARGUMENTThe client specified an invalid argument. Note that this differs from
FAILED_PRECONDITION
.INVALID_ARGUMENT
indicates arguments that are problematic regardless of the state of the system (e.g., a malformed file name). HTTP Mapping: 400 Bad Request - DEADLINE_EXCEEDED
- DEADLINE_EXCEEDEDThe deadline expired before the operation could complete. For operations that change the state of the system, this error may be returned even if the operation has completed successfully. For example, a successful response from a server could have been delayed long enough for the deadline to expire. HTTP Mapping: 504 Gateway Timeout
- NOT_FOUND
- NOT_FOUNDSome requested entity (e.g., file or directory) was not found. Note to server developers: if a request is denied for an entire class of users, such as gradual feature rollout or undocumented allowlist,
NOT_FOUND
may be used. If a request is denied for some users within a class of users, such as user-based access control,PERMISSION_DENIED
must be used. HTTP Mapping: 404 Not Found - ALREADY_EXISTS
- ALREADY_EXISTSThe entity that a client attempted to create (e.g., file or directory) already exists. HTTP Mapping: 409 Conflict
- PERMISSION_DENIED
- PERMISSION_DENIEDThe caller does not have permission to execute the specified operation.
PERMISSION_DENIED
must not be used for rejections caused by exhausting some resource (useRESOURCE_EXHAUSTED
instead for those errors).PERMISSION_DENIED
must not be used if the caller can not be identified (useUNAUTHENTICATED
instead for those errors). This error code does not imply the request is valid or the requested entity exists or satisfies other pre-conditions. HTTP Mapping: 403 Forbidden - UNAUTHENTICATED
- UNAUTHENTICATEDThe request does not have valid authentication credentials for the operation. HTTP Mapping: 401 Unauthorized
- RESOURCE_EXHAUSTED
- RESOURCE_EXHAUSTEDSome resource has been exhausted, perhaps a per-user quota, or perhaps the entire file system is out of space. HTTP Mapping: 429 Too Many Requests
- FAILED_PRECONDITION
- FAILED_PRECONDITIONThe operation was rejected because the system is not in a state required for the operation's execution. For example, the directory to be deleted is non-empty, an rmdir operation is applied to a non-directory, etc. Service implementors can use the following guidelines to decide between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
: (a) UseUNAVAILABLE
if the client can retry just the failing call. (b) UseABORTED
if the client should retry at a higher level. For example, when a client-specified test-and-set fails, indicating the client should restart a read-modify-write sequence. (c) UseFAILED_PRECONDITION
if the client should not retry until the system state has been explicitly fixed. For example, if an "rmdir" fails because the directory is non-empty,FAILED_PRECONDITION
should be returned since the client should not retry unless the files are deleted from the directory. HTTP Mapping: 400 Bad Request - ABORTED
- ABORTEDThe operation was aborted, typically due to a concurrency issue such as a sequencer check failure or transaction abort. See the guidelines above for deciding between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
. HTTP Mapping: 409 Conflict - OUT_OF_RANGE
- OUT_OF_RANGEThe operation was attempted past the valid range. E.g., seeking or reading past end-of-file. Unlike
INVALID_ARGUMENT
, this error indicates a problem that may be fixed if the system state changes. For example, a 32-bit file system will generateINVALID_ARGUMENT
if asked to read at an offset that is not in the range [0,2^32-1], but it will generateOUT_OF_RANGE
if asked to read from an offset past the current file size. There is a fair bit of overlap betweenFAILED_PRECONDITION
andOUT_OF_RANGE
. We recommend usingOUT_OF_RANGE
(the more specific error) when it applies so that callers who are iterating through a space can easily look for anOUT_OF_RANGE
error to detect when they are done. HTTP Mapping: 400 Bad Request - UNIMPLEMENTED
- UNIMPLEMENTEDThe operation is not implemented or is not supported/enabled in this service. HTTP Mapping: 501 Not Implemented
- INTERNAL
- INTERNALInternal errors. This means that some invariants expected by the underlying system have been broken. This error code is reserved for serious errors. HTTP Mapping: 500 Internal Server Error
- UNAVAILABLE
- UNAVAILABLEThe service is currently unavailable. This is most likely a transient condition, which can be corrected by retrying with a backoff. Note that it is not always safe to retry non-idempotent operations. See the guidelines above for deciding between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
. HTTP Mapping: 503 Service Unavailable - DATA_LOSS
- DATA_LOSSUnrecoverable data loss or corruption. HTTP Mapping: 500 Internal Server Error
- "OK"
- OKNot an error; returned on success. HTTP Mapping: 200 OK
- "CANCELLED"
- CANCELLEDThe operation was cancelled, typically by the caller. HTTP Mapping: 499 Client Closed Request
- "UNKNOWN"
- UNKNOWNUnknown error. For example, this error may be returned when a
Status
value received from another address space belongs to an error space that is not known in this address space. Also errors raised by APIs that do not return enough error information may be converted to this error. HTTP Mapping: 500 Internal Server Error - "INVALID_ARGUMENT"
- INVALID_ARGUMENTThe client specified an invalid argument. Note that this differs from
FAILED_PRECONDITION
.INVALID_ARGUMENT
indicates arguments that are problematic regardless of the state of the system (e.g., a malformed file name). HTTP Mapping: 400 Bad Request - "DEADLINE_EXCEEDED"
- DEADLINE_EXCEEDEDThe deadline expired before the operation could complete. For operations that change the state of the system, this error may be returned even if the operation has completed successfully. For example, a successful response from a server could have been delayed long enough for the deadline to expire. HTTP Mapping: 504 Gateway Timeout
- "NOT_FOUND"
- NOT_FOUNDSome requested entity (e.g., file or directory) was not found. Note to server developers: if a request is denied for an entire class of users, such as gradual feature rollout or undocumented allowlist,
NOT_FOUND
may be used. If a request is denied for some users within a class of users, such as user-based access control,PERMISSION_DENIED
must be used. HTTP Mapping: 404 Not Found - "ALREADY_EXISTS"
- ALREADY_EXISTSThe entity that a client attempted to create (e.g., file or directory) already exists. HTTP Mapping: 409 Conflict
- "PERMISSION_DENIED"
- PERMISSION_DENIEDThe caller does not have permission to execute the specified operation.
PERMISSION_DENIED
must not be used for rejections caused by exhausting some resource (useRESOURCE_EXHAUSTED
instead for those errors).PERMISSION_DENIED
must not be used if the caller can not be identified (useUNAUTHENTICATED
instead for those errors). This error code does not imply the request is valid or the requested entity exists or satisfies other pre-conditions. HTTP Mapping: 403 Forbidden - "UNAUTHENTICATED"
- UNAUTHENTICATEDThe request does not have valid authentication credentials for the operation. HTTP Mapping: 401 Unauthorized
- "RESOURCE_EXHAUSTED"
- RESOURCE_EXHAUSTEDSome resource has been exhausted, perhaps a per-user quota, or perhaps the entire file system is out of space. HTTP Mapping: 429 Too Many Requests
- "FAILED_PRECONDITION"
- FAILED_PRECONDITIONThe operation was rejected because the system is not in a state required for the operation's execution. For example, the directory to be deleted is non-empty, an rmdir operation is applied to a non-directory, etc. Service implementors can use the following guidelines to decide between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
: (a) UseUNAVAILABLE
if the client can retry just the failing call. (b) UseABORTED
if the client should retry at a higher level. For example, when a client-specified test-and-set fails, indicating the client should restart a read-modify-write sequence. (c) UseFAILED_PRECONDITION
if the client should not retry until the system state has been explicitly fixed. For example, if an "rmdir" fails because the directory is non-empty,FAILED_PRECONDITION
should be returned since the client should not retry unless the files are deleted from the directory. HTTP Mapping: 400 Bad Request - "ABORTED"
- ABORTEDThe operation was aborted, typically due to a concurrency issue such as a sequencer check failure or transaction abort. See the guidelines above for deciding between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
. HTTP Mapping: 409 Conflict - "OUT_OF_RANGE"
- OUT_OF_RANGEThe operation was attempted past the valid range. E.g., seeking or reading past end-of-file. Unlike
INVALID_ARGUMENT
, this error indicates a problem that may be fixed if the system state changes. For example, a 32-bit file system will generateINVALID_ARGUMENT
if asked to read at an offset that is not in the range [0,2^32-1], but it will generateOUT_OF_RANGE
if asked to read from an offset past the current file size. There is a fair bit of overlap betweenFAILED_PRECONDITION
andOUT_OF_RANGE
. We recommend usingOUT_OF_RANGE
(the more specific error) when it applies so that callers who are iterating through a space can easily look for anOUT_OF_RANGE
error to detect when they are done. HTTP Mapping: 400 Bad Request - "UNIMPLEMENTED"
- UNIMPLEMENTEDThe operation is not implemented or is not supported/enabled in this service. HTTP Mapping: 501 Not Implemented
- "INTERNAL"
- INTERNALInternal errors. This means that some invariants expected by the underlying system have been broken. This error code is reserved for serious errors. HTTP Mapping: 500 Internal Server Error
- "UNAVAILABLE"
- UNAVAILABLEThe service is currently unavailable. This is most likely a transient condition, which can be corrected by retrying with a backoff. Note that it is not always safe to retry non-idempotent operations. See the guidelines above for deciding between
FAILED_PRECONDITION
,ABORTED
, andUNAVAILABLE
. HTTP Mapping: 503 Service Unavailable - "DATA_LOSS"
- DATA_LOSSUnrecoverable data loss or corruption. HTTP Mapping: 500 Internal Server Error
StatusConditionCode, StatusConditionCodeArgs
- Unknown
- UNKNOWNUNKNOWN indicates a generic condition.
- Gce
Stockout - GCE_STOCKOUTGCE_STOCKOUT indicates that Google Compute Engine resources are temporarily unavailable.
- Gke
Service Account Deleted - GKE_SERVICE_ACCOUNT_DELETEDGKE_SERVICE_ACCOUNT_DELETED indicates that the user deleted their robot service account.
- Gce
Quota Exceeded - GCE_QUOTA_EXCEEDEDGoogle Compute Engine quota was exceeded.
- Set
By Operator - SET_BY_OPERATORCluster state was manually changed by an SRE due to a system logic error.
- Cloud
Kms Key Error - CLOUD_KMS_KEY_ERRORUnable to perform an encrypt operation against the CloudKMS key used for etcd level encryption.
- Ca
Expiring - CA_EXPIRINGCluster CA is expiring soon.
- Status
Condition Code Unknown - UNKNOWNUNKNOWN indicates a generic condition.
- Status
Condition Code Gce Stockout - GCE_STOCKOUTGCE_STOCKOUT indicates that Google Compute Engine resources are temporarily unavailable.
- Status
Condition Code Gke Service Account Deleted - GKE_SERVICE_ACCOUNT_DELETEDGKE_SERVICE_ACCOUNT_DELETED indicates that the user deleted their robot service account.
- Status
Condition Code Gce Quota Exceeded - GCE_QUOTA_EXCEEDEDGoogle Compute Engine quota was exceeded.
- Status
Condition Code Set By Operator - SET_BY_OPERATORCluster state was manually changed by an SRE due to a system logic error.
- Status
Condition Code Cloud Kms Key Error - CLOUD_KMS_KEY_ERRORUnable to perform an encrypt operation against the CloudKMS key used for etcd level encryption.
- Status
Condition Code Ca Expiring - CA_EXPIRINGCluster CA is expiring soon.
- Unknown
- UNKNOWNUNKNOWN indicates a generic condition.
- Gce
Stockout - GCE_STOCKOUTGCE_STOCKOUT indicates that Google Compute Engine resources are temporarily unavailable.
- Gke
Service Account Deleted - GKE_SERVICE_ACCOUNT_DELETEDGKE_SERVICE_ACCOUNT_DELETED indicates that the user deleted their robot service account.
- Gce
Quota Exceeded - GCE_QUOTA_EXCEEDEDGoogle Compute Engine quota was exceeded.
- Set
By Operator - SET_BY_OPERATORCluster state was manually changed by an SRE due to a system logic error.
- Cloud
Kms Key Error - CLOUD_KMS_KEY_ERRORUnable to perform an encrypt operation against the CloudKMS key used for etcd level encryption.
- Ca
Expiring - CA_EXPIRINGCluster CA is expiring soon.
- Unknown
- UNKNOWNUNKNOWN indicates a generic condition.
- Gce
Stockout - GCE_STOCKOUTGCE_STOCKOUT indicates that Google Compute Engine resources are temporarily unavailable.
- Gke
Service Account Deleted - GKE_SERVICE_ACCOUNT_DELETEDGKE_SERVICE_ACCOUNT_DELETED indicates that the user deleted their robot service account.
- Gce
Quota Exceeded - GCE_QUOTA_EXCEEDEDGoogle Compute Engine quota was exceeded.
- Set
By Operator - SET_BY_OPERATORCluster state was manually changed by an SRE due to a system logic error.
- Cloud
Kms Key Error - CLOUD_KMS_KEY_ERRORUnable to perform an encrypt operation against the CloudKMS key used for etcd level encryption.
- Ca
Expiring - CA_EXPIRINGCluster CA is expiring soon.
- UNKNOWN
- UNKNOWNUNKNOWN indicates a generic condition.
- GCE_STOCKOUT
- GCE_STOCKOUTGCE_STOCKOUT indicates that Google Compute Engine resources are temporarily unavailable.
- GKE_SERVICE_ACCOUNT_DELETED
- GKE_SERVICE_ACCOUNT_DELETEDGKE_SERVICE_ACCOUNT_DELETED indicates that the user deleted their robot service account.
- GCE_QUOTA_EXCEEDED
- GCE_QUOTA_EXCEEDEDGoogle Compute Engine quota was exceeded.
- SET_BY_OPERATOR
- SET_BY_OPERATORCluster state was manually changed by an SRE due to a system logic error.
- CLOUD_KMS_KEY_ERROR
- CLOUD_KMS_KEY_ERRORUnable to perform an encrypt operation against the CloudKMS key used for etcd level encryption.
- CA_EXPIRING
- CA_EXPIRINGCluster CA is expiring soon.
- "UNKNOWN"
- UNKNOWNUNKNOWN indicates a generic condition.
- "GCE_STOCKOUT"
- GCE_STOCKOUTGCE_STOCKOUT indicates that Google Compute Engine resources are temporarily unavailable.
- "GKE_SERVICE_ACCOUNT_DELETED"
- GKE_SERVICE_ACCOUNT_DELETEDGKE_SERVICE_ACCOUNT_DELETED indicates that the user deleted their robot service account.
- "GCE_QUOTA_EXCEEDED"
- GCE_QUOTA_EXCEEDEDGoogle Compute Engine quota was exceeded.
- "SET_BY_OPERATOR"
- SET_BY_OPERATORCluster state was manually changed by an SRE due to a system logic error.
- "CLOUD_KMS_KEY_ERROR"
- CLOUD_KMS_KEY_ERRORUnable to perform an encrypt operation against the CloudKMS key used for etcd level encryption.
- "CA_EXPIRING"
- CA_EXPIRINGCluster CA is expiring soon.
StatusConditionResponse, StatusConditionResponseArgs
- Canonical
Code string - Canonical code of the condition.
- Code string
- Machine-friendly representation of the condition Deprecated. Use canonical_code instead.
- Message string
- Human-friendly representation of the condition
- Canonical
Code string - Canonical code of the condition.
- Code string
- Machine-friendly representation of the condition Deprecated. Use canonical_code instead.
- Message string
- Human-friendly representation of the condition
- canonical
Code String - Canonical code of the condition.
- code String
- Machine-friendly representation of the condition Deprecated. Use canonical_code instead.
- message String
- Human-friendly representation of the condition
- canonical
Code string - Canonical code of the condition.
- code string
- Machine-friendly representation of the condition Deprecated. Use canonical_code instead.
- message string
- Human-friendly representation of the condition
- canonical_
code str - Canonical code of the condition.
- code str
- Machine-friendly representation of the condition Deprecated. Use canonical_code instead.
- message str
- Human-friendly representation of the condition
- canonical
Code String - Canonical code of the condition.
- code String
- Machine-friendly representation of the condition Deprecated. Use canonical_code instead.
- message String
- Human-friendly representation of the condition
TimeWindow, TimeWindowArgs
- End
Time string - The time that the window ends. The end time should take place after the start time.
- Maintenance
Exclusion Pulumi.Options Google Native. Container. V1. Inputs. Maintenance Exclusion Options - MaintenanceExclusionOptions provides maintenance exclusion related options.
- Start
Time string - The time that the window first starts.
- End
Time string - The time that the window ends. The end time should take place after the start time.
- Maintenance
Exclusion MaintenanceOptions Exclusion Options - MaintenanceExclusionOptions provides maintenance exclusion related options.
- Start
Time string - The time that the window first starts.
- end
Time String - The time that the window ends. The end time should take place after the start time.
- maintenance
Exclusion MaintenanceOptions Exclusion Options - MaintenanceExclusionOptions provides maintenance exclusion related options.
- start
Time String - The time that the window first starts.
- end
Time string - The time that the window ends. The end time should take place after the start time.
- maintenance
Exclusion MaintenanceOptions Exclusion Options - MaintenanceExclusionOptions provides maintenance exclusion related options.
- start
Time string - The time that the window first starts.
- end_
time str - The time that the window ends. The end time should take place after the start time.
- maintenance_
exclusion_ Maintenanceoptions Exclusion Options - MaintenanceExclusionOptions provides maintenance exclusion related options.
- start_
time str - The time that the window first starts.
- end
Time String - The time that the window ends. The end time should take place after the start time.
- maintenance
Exclusion Property MapOptions - MaintenanceExclusionOptions provides maintenance exclusion related options.
- start
Time String - The time that the window first starts.
TimeWindowResponse, TimeWindowResponseArgs
- End
Time string - The time that the window ends. The end time should take place after the start time.
- Maintenance
Exclusion Pulumi.Options Google Native. Container. V1. Inputs. Maintenance Exclusion Options Response - MaintenanceExclusionOptions provides maintenance exclusion related options.
- Start
Time string - The time that the window first starts.
- End
Time string - The time that the window ends. The end time should take place after the start time.
- Maintenance
Exclusion MaintenanceOptions Exclusion Options Response - MaintenanceExclusionOptions provides maintenance exclusion related options.
- Start
Time string - The time that the window first starts.
- end
Time String - The time that the window ends. The end time should take place after the start time.
- maintenance
Exclusion MaintenanceOptions Exclusion Options Response - MaintenanceExclusionOptions provides maintenance exclusion related options.
- start
Time String - The time that the window first starts.
- end
Time string - The time that the window ends. The end time should take place after the start time.
- maintenance
Exclusion MaintenanceOptions Exclusion Options Response - MaintenanceExclusionOptions provides maintenance exclusion related options.
- start
Time string - The time that the window first starts.
- end_
time str - The time that the window ends. The end time should take place after the start time.
- maintenance_
exclusion_ Maintenanceoptions Exclusion Options Response - MaintenanceExclusionOptions provides maintenance exclusion related options.
- start_
time str - The time that the window first starts.
- end
Time String - The time that the window ends. The end time should take place after the start time.
- maintenance
Exclusion Property MapOptions - MaintenanceExclusionOptions provides maintenance exclusion related options.
- start
Time String - The time that the window first starts.
UpdateInfoResponse, UpdateInfoResponseArgs
- Blue
Green Pulumi.Info Google Native. Container. V1. Inputs. Blue Green Info Response - Information of a blue-green upgrade.
- Blue
Green BlueInfo Green Info Response - Information of a blue-green upgrade.
- blue
Green BlueInfo Green Info Response - Information of a blue-green upgrade.
- blue
Green BlueInfo Green Info Response - Information of a blue-green upgrade.
- blue_
green_ Blueinfo Green Info Response - Information of a blue-green upgrade.
- blue
Green Property MapInfo - Information of a blue-green upgrade.
UpgradeSettings, UpgradeSettingsArgs
- Blue
Green Pulumi.Settings Google Native. Container. V1. Inputs. Blue Green Settings - Settings for blue-green upgrade strategy.
- Max
Surge int - The maximum number of nodes that can be created beyond the current size of the node pool during the upgrade process.
- int
- The maximum number of nodes that can be simultaneously unavailable during the upgrade process. A node is considered available if its status is Ready.
- Strategy
Pulumi.
Google Native. Container. V1. Upgrade Settings Strategy - Update strategy of the node pool.
- Blue
Green BlueSettings Green Settings - Settings for blue-green upgrade strategy.
- Max
Surge int - The maximum number of nodes that can be created beyond the current size of the node pool during the upgrade process.
- int
- The maximum number of nodes that can be simultaneously unavailable during the upgrade process. A node is considered available if its status is Ready.
- Strategy
Upgrade
Settings Strategy - Update strategy of the node pool.
- blue
Green BlueSettings Green Settings - Settings for blue-green upgrade strategy.
- max
Surge Integer - The maximum number of nodes that can be created beyond the current size of the node pool during the upgrade process.
- Integer
- The maximum number of nodes that can be simultaneously unavailable during the upgrade process. A node is considered available if its status is Ready.
- strategy
Upgrade
Settings Strategy - Update strategy of the node pool.
- blue
Green BlueSettings Green Settings - Settings for blue-green upgrade strategy.
- max
Surge number - The maximum number of nodes that can be created beyond the current size of the node pool during the upgrade process.
- number
- The maximum number of nodes that can be simultaneously unavailable during the upgrade process. A node is considered available if its status is Ready.
- strategy
Upgrade
Settings Strategy - Update strategy of the node pool.
- blue_
green_ Bluesettings Green Settings - Settings for blue-green upgrade strategy.
- max_
surge int - The maximum number of nodes that can be created beyond the current size of the node pool during the upgrade process.
- int
- The maximum number of nodes that can be simultaneously unavailable during the upgrade process. A node is considered available if its status is Ready.
- strategy
Upgrade
Settings Strategy - Update strategy of the node pool.
- blue
Green Property MapSettings - Settings for blue-green upgrade strategy.
- max
Surge Number - The maximum number of nodes that can be created beyond the current size of the node pool during the upgrade process.
- Number
- The maximum number of nodes that can be simultaneously unavailable during the upgrade process. A node is considered available if its status is Ready.
- strategy "NODE_POOL_UPDATE_STRATEGY_UNSPECIFIED" | "BLUE_GREEN" | "SURGE"
- Update strategy of the node pool.
UpgradeSettingsResponse, UpgradeSettingsResponseArgs
- Blue
Green Pulumi.Settings Google Native. Container. V1. Inputs. Blue Green Settings Response - Settings for blue-green upgrade strategy.
- Max
Surge int - The maximum number of nodes that can be created beyond the current size of the node pool during the upgrade process.
- int
- The maximum number of nodes that can be simultaneously unavailable during the upgrade process. A node is considered available if its status is Ready.
- Strategy string
- Update strategy of the node pool.
- Blue
Green BlueSettings Green Settings Response - Settings for blue-green upgrade strategy.
- Max
Surge int - The maximum number of nodes that can be created beyond the current size of the node pool during the upgrade process.
- int
- The maximum number of nodes that can be simultaneously unavailable during the upgrade process. A node is considered available if its status is Ready.
- Strategy string
- Update strategy of the node pool.
- blue
Green BlueSettings Green Settings Response - Settings for blue-green upgrade strategy.
- max
Surge Integer - The maximum number of nodes that can be created beyond the current size of the node pool during the upgrade process.
- Integer
- The maximum number of nodes that can be simultaneously unavailable during the upgrade process. A node is considered available if its status is Ready.
- strategy String
- Update strategy of the node pool.
- blue
Green BlueSettings Green Settings Response - Settings for blue-green upgrade strategy.
- max
Surge number - The maximum number of nodes that can be created beyond the current size of the node pool during the upgrade process.
- number
- The maximum number of nodes that can be simultaneously unavailable during the upgrade process. A node is considered available if its status is Ready.
- strategy string
- Update strategy of the node pool.
- blue_
green_ Bluesettings Green Settings Response - Settings for blue-green upgrade strategy.
- max_
surge int - The maximum number of nodes that can be created beyond the current size of the node pool during the upgrade process.
- int
- The maximum number of nodes that can be simultaneously unavailable during the upgrade process. A node is considered available if its status is Ready.
- strategy str
- Update strategy of the node pool.
- blue
Green Property MapSettings - Settings for blue-green upgrade strategy.
- max
Surge Number - The maximum number of nodes that can be created beyond the current size of the node pool during the upgrade process.
- Number
- The maximum number of nodes that can be simultaneously unavailable during the upgrade process. A node is considered available if its status is Ready.
- strategy String
- Update strategy of the node pool.
UpgradeSettingsStrategy, UpgradeSettingsStrategyArgs
- Node
Pool Update Strategy Unspecified - NODE_POOL_UPDATE_STRATEGY_UNSPECIFIEDDefault value if unset. GKE internally defaults the update strategy to SURGE for unspecified strategies.
- Blue
Green - BLUE_GREENblue-green upgrade.
- Surge
- SURGESURGE is the traditional way of upgrade a node pool. max_surge and max_unavailable determines the level of upgrade parallelism.
- Upgrade
Settings Strategy Node Pool Update Strategy Unspecified - NODE_POOL_UPDATE_STRATEGY_UNSPECIFIEDDefault value if unset. GKE internally defaults the update strategy to SURGE for unspecified strategies.
- Upgrade
Settings Strategy Blue Green - BLUE_GREENblue-green upgrade.
- Upgrade
Settings Strategy Surge - SURGESURGE is the traditional way of upgrade a node pool. max_surge and max_unavailable determines the level of upgrade parallelism.
- Node
Pool Update Strategy Unspecified - NODE_POOL_UPDATE_STRATEGY_UNSPECIFIEDDefault value if unset. GKE internally defaults the update strategy to SURGE for unspecified strategies.
- Blue
Green - BLUE_GREENblue-green upgrade.
- Surge
- SURGESURGE is the traditional way of upgrade a node pool. max_surge and max_unavailable determines the level of upgrade parallelism.
- Node
Pool Update Strategy Unspecified - NODE_POOL_UPDATE_STRATEGY_UNSPECIFIEDDefault value if unset. GKE internally defaults the update strategy to SURGE for unspecified strategies.
- Blue
Green - BLUE_GREENblue-green upgrade.
- Surge
- SURGESURGE is the traditional way of upgrade a node pool. max_surge and max_unavailable determines the level of upgrade parallelism.
- NODE_POOL_UPDATE_STRATEGY_UNSPECIFIED
- NODE_POOL_UPDATE_STRATEGY_UNSPECIFIEDDefault value if unset. GKE internally defaults the update strategy to SURGE for unspecified strategies.
- BLUE_GREEN
- BLUE_GREENblue-green upgrade.
- SURGE
- SURGESURGE is the traditional way of upgrade a node pool. max_surge and max_unavailable determines the level of upgrade parallelism.
- "NODE_POOL_UPDATE_STRATEGY_UNSPECIFIED"
- NODE_POOL_UPDATE_STRATEGY_UNSPECIFIEDDefault value if unset. GKE internally defaults the update strategy to SURGE for unspecified strategies.
- "BLUE_GREEN"
- BLUE_GREENblue-green upgrade.
- "SURGE"
- SURGESURGE is the traditional way of upgrade a node pool. max_surge and max_unavailable determines the level of upgrade parallelism.
VerticalPodAutoscaling, VerticalPodAutoscalingArgs
- Enabled bool
- Enables vertical pod autoscaling.
- Enabled bool
- Enables vertical pod autoscaling.
- enabled Boolean
- Enables vertical pod autoscaling.
- enabled boolean
- Enables vertical pod autoscaling.
- enabled bool
- Enables vertical pod autoscaling.
- enabled Boolean
- Enables vertical pod autoscaling.
VerticalPodAutoscalingResponse, VerticalPodAutoscalingResponseArgs
- Enabled bool
- Enables vertical pod autoscaling.
- Enabled bool
- Enables vertical pod autoscaling.
- enabled Boolean
- Enables vertical pod autoscaling.
- enabled boolean
- Enables vertical pod autoscaling.
- enabled bool
- Enables vertical pod autoscaling.
- enabled Boolean
- Enables vertical pod autoscaling.
VirtualNIC, VirtualNICArgs
- Enabled bool
- Whether gVNIC features are enabled in the node pool.
- Enabled bool
- Whether gVNIC features are enabled in the node pool.
- enabled Boolean
- Whether gVNIC features are enabled in the node pool.
- enabled boolean
- Whether gVNIC features are enabled in the node pool.
- enabled bool
- Whether gVNIC features are enabled in the node pool.
- enabled Boolean
- Whether gVNIC features are enabled in the node pool.
VirtualNICResponse, VirtualNICResponseArgs
- Enabled bool
- Whether gVNIC features are enabled in the node pool.
- Enabled bool
- Whether gVNIC features are enabled in the node pool.
- enabled Boolean
- Whether gVNIC features are enabled in the node pool.
- enabled boolean
- Whether gVNIC features are enabled in the node pool.
- enabled bool
- Whether gVNIC features are enabled in the node pool.
- enabled Boolean
- Whether gVNIC features are enabled in the node pool.
WindowsNodeConfig, WindowsNodeConfigArgs
- Os
Version Pulumi.Google Native. Container. V1. Windows Node Config Os Version - OSVersion specifies the Windows node config to be used on the node
- Os
Version WindowsNode Config Os Version - OSVersion specifies the Windows node config to be used on the node
- os
Version WindowsNode Config Os Version - OSVersion specifies the Windows node config to be used on the node
- os
Version WindowsNode Config Os Version - OSVersion specifies the Windows node config to be used on the node
- os_
version WindowsNode Config Os Version - OSVersion specifies the Windows node config to be used on the node
- os
Version "OS_VERSION_UNSPECIFIED" | "OS_VERSION_LTSC2019" | "OS_VERSION_LTSC2022" - OSVersion specifies the Windows node config to be used on the node
WindowsNodeConfigOsVersion, WindowsNodeConfigOsVersionArgs
- Os
Version Unspecified - OS_VERSION_UNSPECIFIEDWhen OSVersion is not specified
- Os
Version Ltsc2019 - OS_VERSION_LTSC2019LTSC2019 specifies to use LTSC2019 as the Windows Servercore Base Image
- Os
Version Ltsc2022 - OS_VERSION_LTSC2022LTSC2022 specifies to use LTSC2022 as the Windows Servercore Base Image
- Windows
Node Config Os Version Os Version Unspecified - OS_VERSION_UNSPECIFIEDWhen OSVersion is not specified
- Windows
Node Config Os Version Os Version Ltsc2019 - OS_VERSION_LTSC2019LTSC2019 specifies to use LTSC2019 as the Windows Servercore Base Image
- Windows
Node Config Os Version Os Version Ltsc2022 - OS_VERSION_LTSC2022LTSC2022 specifies to use LTSC2022 as the Windows Servercore Base Image
- Os
Version Unspecified - OS_VERSION_UNSPECIFIEDWhen OSVersion is not specified
- Os
Version Ltsc2019 - OS_VERSION_LTSC2019LTSC2019 specifies to use LTSC2019 as the Windows Servercore Base Image
- Os
Version Ltsc2022 - OS_VERSION_LTSC2022LTSC2022 specifies to use LTSC2022 as the Windows Servercore Base Image
- Os
Version Unspecified - OS_VERSION_UNSPECIFIEDWhen OSVersion is not specified
- Os
Version Ltsc2019 - OS_VERSION_LTSC2019LTSC2019 specifies to use LTSC2019 as the Windows Servercore Base Image
- Os
Version Ltsc2022 - OS_VERSION_LTSC2022LTSC2022 specifies to use LTSC2022 as the Windows Servercore Base Image
- OS_VERSION_UNSPECIFIED
- OS_VERSION_UNSPECIFIEDWhen OSVersion is not specified
- OS_VERSION_LTSC2019
- OS_VERSION_LTSC2019LTSC2019 specifies to use LTSC2019 as the Windows Servercore Base Image
- OS_VERSION_LTSC2022
- OS_VERSION_LTSC2022LTSC2022 specifies to use LTSC2022 as the Windows Servercore Base Image
- "OS_VERSION_UNSPECIFIED"
- OS_VERSION_UNSPECIFIEDWhen OSVersion is not specified
- "OS_VERSION_LTSC2019"
- OS_VERSION_LTSC2019LTSC2019 specifies to use LTSC2019 as the Windows Servercore Base Image
- "OS_VERSION_LTSC2022"
- OS_VERSION_LTSC2022LTSC2022 specifies to use LTSC2022 as the Windows Servercore Base Image
WindowsNodeConfigResponse, WindowsNodeConfigResponseArgs
- Os
Version string - OSVersion specifies the Windows node config to be used on the node
- Os
Version string - OSVersion specifies the Windows node config to be used on the node
- os
Version String - OSVersion specifies the Windows node config to be used on the node
- os
Version string - OSVersion specifies the Windows node config to be used on the node
- os_
version str - OSVersion specifies the Windows node config to be used on the node
- os
Version String - OSVersion specifies the Windows node config to be used on the node
WorkloadIdentityConfig, WorkloadIdentityConfigArgs
- Workload
Pool string - The workload pool to attach all Kubernetes service accounts to.
- Workload
Pool string - The workload pool to attach all Kubernetes service accounts to.
- workload
Pool String - The workload pool to attach all Kubernetes service accounts to.
- workload
Pool string - The workload pool to attach all Kubernetes service accounts to.
- workload_
pool str - The workload pool to attach all Kubernetes service accounts to.
- workload
Pool String - The workload pool to attach all Kubernetes service accounts to.
WorkloadIdentityConfigResponse, WorkloadIdentityConfigResponseArgs
- Workload
Pool string - The workload pool to attach all Kubernetes service accounts to.
- Workload
Pool string - The workload pool to attach all Kubernetes service accounts to.
- workload
Pool String - The workload pool to attach all Kubernetes service accounts to.
- workload
Pool string - The workload pool to attach all Kubernetes service accounts to.
- workload_
pool str - The workload pool to attach all Kubernetes service accounts to.
- workload
Pool String - The workload pool to attach all Kubernetes service accounts to.
WorkloadMetadataConfig, WorkloadMetadataConfigArgs
- Mode
Pulumi.
Google Native. Container. V1. Workload Metadata Config Mode - Mode is the configuration for how to expose metadata to workloads running on the node pool.
- Mode
Workload
Metadata Config Mode - Mode is the configuration for how to expose metadata to workloads running on the node pool.
- mode
Workload
Metadata Config Mode - Mode is the configuration for how to expose metadata to workloads running on the node pool.
- mode
Workload
Metadata Config Mode - Mode is the configuration for how to expose metadata to workloads running on the node pool.
- mode
Workload
Metadata Config Mode - Mode is the configuration for how to expose metadata to workloads running on the node pool.
- mode "MODE_UNSPECIFIED" | "GCE_METADATA" | "GKE_METADATA"
- Mode is the configuration for how to expose metadata to workloads running on the node pool.
WorkloadMetadataConfigMode, WorkloadMetadataConfigModeArgs
- Mode
Unspecified - MODE_UNSPECIFIEDNot set.
- Gce
Metadata - GCE_METADATAExpose all Compute Engine metadata to pods.
- Gke
Metadata - GKE_METADATARun the GKE Metadata Server on this node. The GKE Metadata Server exposes a metadata API to workloads that is compatible with the V1 Compute Metadata APIs exposed by the Compute Engine and App Engine Metadata Servers. This feature can only be enabled if Workload Identity is enabled at the cluster level.
- Workload
Metadata Config Mode Mode Unspecified - MODE_UNSPECIFIEDNot set.
- Workload
Metadata Config Mode Gce Metadata - GCE_METADATAExpose all Compute Engine metadata to pods.
- Workload
Metadata Config Mode Gke Metadata - GKE_METADATARun the GKE Metadata Server on this node. The GKE Metadata Server exposes a metadata API to workloads that is compatible with the V1 Compute Metadata APIs exposed by the Compute Engine and App Engine Metadata Servers. This feature can only be enabled if Workload Identity is enabled at the cluster level.
- Mode
Unspecified - MODE_UNSPECIFIEDNot set.
- Gce
Metadata - GCE_METADATAExpose all Compute Engine metadata to pods.
- Gke
Metadata - GKE_METADATARun the GKE Metadata Server on this node. The GKE Metadata Server exposes a metadata API to workloads that is compatible with the V1 Compute Metadata APIs exposed by the Compute Engine and App Engine Metadata Servers. This feature can only be enabled if Workload Identity is enabled at the cluster level.
- Mode
Unspecified - MODE_UNSPECIFIEDNot set.
- Gce
Metadata - GCE_METADATAExpose all Compute Engine metadata to pods.
- Gke
Metadata - GKE_METADATARun the GKE Metadata Server on this node. The GKE Metadata Server exposes a metadata API to workloads that is compatible with the V1 Compute Metadata APIs exposed by the Compute Engine and App Engine Metadata Servers. This feature can only be enabled if Workload Identity is enabled at the cluster level.
- MODE_UNSPECIFIED
- MODE_UNSPECIFIEDNot set.
- GCE_METADATA
- GCE_METADATAExpose all Compute Engine metadata to pods.
- GKE_METADATA
- GKE_METADATARun the GKE Metadata Server on this node. The GKE Metadata Server exposes a metadata API to workloads that is compatible with the V1 Compute Metadata APIs exposed by the Compute Engine and App Engine Metadata Servers. This feature can only be enabled if Workload Identity is enabled at the cluster level.
- "MODE_UNSPECIFIED"
- MODE_UNSPECIFIEDNot set.
- "GCE_METADATA"
- GCE_METADATAExpose all Compute Engine metadata to pods.
- "GKE_METADATA"
- GKE_METADATARun the GKE Metadata Server on this node. The GKE Metadata Server exposes a metadata API to workloads that is compatible with the V1 Compute Metadata APIs exposed by the Compute Engine and App Engine Metadata Servers. This feature can only be enabled if Workload Identity is enabled at the cluster level.
WorkloadMetadataConfigResponse, WorkloadMetadataConfigResponseArgs
- Mode string
- Mode is the configuration for how to expose metadata to workloads running on the node pool.
- Mode string
- Mode is the configuration for how to expose metadata to workloads running on the node pool.
- mode String
- Mode is the configuration for how to expose metadata to workloads running on the node pool.
- mode string
- Mode is the configuration for how to expose metadata to workloads running on the node pool.
- mode str
- Mode is the configuration for how to expose metadata to workloads running on the node pool.
- mode String
- Mode is the configuration for how to expose metadata to workloads running on the node pool.
WorkloadPolicyConfig, WorkloadPolicyConfigArgs
- Allow
Net boolAdmin - If true, workloads can use NET_ADMIN capability.
- Allow
Net boolAdmin - If true, workloads can use NET_ADMIN capability.
- allow
Net BooleanAdmin - If true, workloads can use NET_ADMIN capability.
- allow
Net booleanAdmin - If true, workloads can use NET_ADMIN capability.
- allow_
net_ booladmin - If true, workloads can use NET_ADMIN capability.
- allow
Net BooleanAdmin - If true, workloads can use NET_ADMIN capability.
WorkloadPolicyConfigResponse, WorkloadPolicyConfigResponseArgs
- Allow
Net boolAdmin - If true, workloads can use NET_ADMIN capability.
- Allow
Net boolAdmin - If true, workloads can use NET_ADMIN capability.
- allow
Net BooleanAdmin - If true, workloads can use NET_ADMIN capability.
- allow
Net booleanAdmin - If true, workloads can use NET_ADMIN capability.
- allow_
net_ booladmin - If true, workloads can use NET_ADMIN capability.
- allow
Net BooleanAdmin - If true, workloads can use NET_ADMIN capability.
Package Details
- Repository
- Google Cloud Native pulumi/pulumi-google-native
- License
- Apache-2.0
Google Cloud Native is in preview. Google Cloud Classic is fully supported.