Google Cloud Native is in preview. Google Cloud Classic is fully supported.
google-native.gkeonprem/v1.BareMetalCluster
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Google Cloud Native is in preview. Google Cloud Classic is fully supported.
Creates a new bare metal cluster in a given project and location.
Create BareMetalCluster Resource
Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.
Constructor syntax
new BareMetalCluster(name: string, args: BareMetalClusterArgs, opts?: CustomResourceOptions);
@overload
def BareMetalCluster(resource_name: str,
args: BareMetalClusterArgs,
opts: Optional[ResourceOptions] = None)
@overload
def BareMetalCluster(resource_name: str,
opts: Optional[ResourceOptions] = None,
load_balancer: Optional[BareMetalLoadBalancerConfigArgs] = None,
storage: Optional[BareMetalStorageConfigArgs] = None,
bare_metal_cluster_id: Optional[str] = None,
bare_metal_version: Optional[str] = None,
network_config: Optional[BareMetalNetworkConfigArgs] = None,
admin_cluster_membership: Optional[str] = None,
control_plane: Optional[BareMetalControlPlaneConfigArgs] = None,
maintenance_config: Optional[BareMetalMaintenanceConfigArgs] = None,
node_config: Optional[BareMetalWorkloadNodeConfigArgs] = None,
location: Optional[str] = None,
cluster_operations: Optional[BareMetalClusterOperationsConfigArgs] = None,
name: Optional[str] = None,
binary_authorization: Optional[BinaryAuthorizationArgs] = None,
node_access_config: Optional[BareMetalNodeAccessConfigArgs] = None,
description: Optional[str] = None,
os_environment_config: Optional[BareMetalOsEnvironmentConfigArgs] = None,
project: Optional[str] = None,
proxy: Optional[BareMetalProxyConfigArgs] = None,
security_config: Optional[BareMetalSecurityConfigArgs] = None,
annotations: Optional[Mapping[str, str]] = None,
upgrade_policy: Optional[BareMetalClusterUpgradePolicyArgs] = None)
func NewBareMetalCluster(ctx *Context, name string, args BareMetalClusterArgs, opts ...ResourceOption) (*BareMetalCluster, error)
public BareMetalCluster(string name, BareMetalClusterArgs args, CustomResourceOptions? opts = null)
public BareMetalCluster(String name, BareMetalClusterArgs args)
public BareMetalCluster(String name, BareMetalClusterArgs args, CustomResourceOptions options)
type: google-native:gkeonprem/v1:BareMetalCluster
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 BareMetalClusterArgs
- 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 BareMetalClusterArgs
- 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 BareMetalClusterArgs
- The arguments to resource properties.
- opts ResourceOption
- Bag of options to control resource's behavior.
- name string
- The unique name of the resource.
- args BareMetalClusterArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- name String
- The unique name of the resource.
- args BareMetalClusterArgs
- 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 bareMetalClusterResource = new GoogleNative.Gkeonprem.V1.BareMetalCluster("bareMetalClusterResource", new()
{
LoadBalancer = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalLoadBalancerConfigArgs
{
BgpLbConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalBgpLbConfigArgs
{
AddressPools = new[]
{
new GoogleNative.Gkeonprem.V1.Inputs.BareMetalLoadBalancerAddressPoolArgs
{
Addresses = new[]
{
"string",
},
Pool = "string",
AvoidBuggyIps = false,
ManualAssign = false,
},
},
Asn = "string",
BgpPeerConfigs = new[]
{
new GoogleNative.Gkeonprem.V1.Inputs.BareMetalBgpPeerConfigArgs
{
Asn = "string",
IpAddress = "string",
ControlPlaneNodes = new[]
{
"string",
},
},
},
LoadBalancerNodePoolConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalLoadBalancerNodePoolConfigArgs
{
NodePoolConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalNodePoolConfigArgs
{
NodeConfigs = new[]
{
new GoogleNative.Gkeonprem.V1.Inputs.BareMetalNodeConfigArgs
{
Labels =
{
{ "string", "string" },
},
NodeIp = "string",
},
},
KubeletConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalKubeletConfigArgs
{
RegistryBurst = 0,
RegistryPullQps = 0,
SerializeImagePullsDisabled = false,
},
Labels =
{
{ "string", "string" },
},
OperatingSystem = GoogleNative.Gkeonprem.V1.BareMetalNodePoolConfigOperatingSystem.OperatingSystemUnspecified,
Taints = new[]
{
new GoogleNative.Gkeonprem.V1.Inputs.NodeTaintArgs
{
Effect = GoogleNative.Gkeonprem.V1.NodeTaintEffect.EffectUnspecified,
Key = "string",
Value = "string",
},
},
},
},
},
ManualLbConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalManualLbConfigArgs
{
Enabled = false,
},
MetalLbConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalMetalLbConfigArgs
{
AddressPools = new[]
{
new GoogleNative.Gkeonprem.V1.Inputs.BareMetalLoadBalancerAddressPoolArgs
{
Addresses = new[]
{
"string",
},
Pool = "string",
AvoidBuggyIps = false,
ManualAssign = false,
},
},
LoadBalancerNodePoolConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalLoadBalancerNodePoolConfigArgs
{
NodePoolConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalNodePoolConfigArgs
{
NodeConfigs = new[]
{
new GoogleNative.Gkeonprem.V1.Inputs.BareMetalNodeConfigArgs
{
Labels =
{
{ "string", "string" },
},
NodeIp = "string",
},
},
KubeletConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalKubeletConfigArgs
{
RegistryBurst = 0,
RegistryPullQps = 0,
SerializeImagePullsDisabled = false,
},
Labels =
{
{ "string", "string" },
},
OperatingSystem = GoogleNative.Gkeonprem.V1.BareMetalNodePoolConfigOperatingSystem.OperatingSystemUnspecified,
Taints = new[]
{
new GoogleNative.Gkeonprem.V1.Inputs.NodeTaintArgs
{
Effect = GoogleNative.Gkeonprem.V1.NodeTaintEffect.EffectUnspecified,
Key = "string",
Value = "string",
},
},
},
},
},
PortConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalPortConfigArgs
{
ControlPlaneLoadBalancerPort = 0,
},
VipConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalVipConfigArgs
{
ControlPlaneVip = "string",
IngressVip = "string",
},
},
Storage = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalStorageConfigArgs
{
LvpNodeMountsConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalLvpConfigArgs
{
Path = "string",
StorageClass = "string",
},
LvpShareConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalLvpShareConfigArgs
{
LvpConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalLvpConfigArgs
{
Path = "string",
StorageClass = "string",
},
SharedPathPvCount = 0,
},
},
BareMetalClusterId = "string",
BareMetalVersion = "string",
NetworkConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalNetworkConfigArgs
{
AdvancedNetworking = false,
IslandModeCidr = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalIslandModeCidrConfigArgs
{
PodAddressCidrBlocks = new[]
{
"string",
},
ServiceAddressCidrBlocks = new[]
{
"string",
},
},
MultipleNetworkInterfacesConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalMultipleNetworkInterfacesConfigArgs
{
Enabled = false,
},
SrIovConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalSrIovConfigArgs
{
Enabled = false,
},
},
AdminClusterMembership = "string",
ControlPlane = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalControlPlaneConfigArgs
{
ControlPlaneNodePoolConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalControlPlaneNodePoolConfigArgs
{
NodePoolConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalNodePoolConfigArgs
{
NodeConfigs = new[]
{
new GoogleNative.Gkeonprem.V1.Inputs.BareMetalNodeConfigArgs
{
Labels =
{
{ "string", "string" },
},
NodeIp = "string",
},
},
KubeletConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalKubeletConfigArgs
{
RegistryBurst = 0,
RegistryPullQps = 0,
SerializeImagePullsDisabled = false,
},
Labels =
{
{ "string", "string" },
},
OperatingSystem = GoogleNative.Gkeonprem.V1.BareMetalNodePoolConfigOperatingSystem.OperatingSystemUnspecified,
Taints = new[]
{
new GoogleNative.Gkeonprem.V1.Inputs.NodeTaintArgs
{
Effect = GoogleNative.Gkeonprem.V1.NodeTaintEffect.EffectUnspecified,
Key = "string",
Value = "string",
},
},
},
},
ApiServerArgs = new[]
{
new GoogleNative.Gkeonprem.V1.Inputs.BareMetalApiServerArgumentArgs
{
Argument = "string",
Value = "string",
},
},
},
MaintenanceConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalMaintenanceConfigArgs
{
MaintenanceAddressCidrBlocks = new[]
{
"string",
},
},
NodeConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalWorkloadNodeConfigArgs
{
ContainerRuntime = GoogleNative.Gkeonprem.V1.BareMetalWorkloadNodeConfigContainerRuntime.ContainerRuntimeUnspecified,
MaxPodsPerNode = "string",
},
Location = "string",
ClusterOperations = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalClusterOperationsConfigArgs
{
EnableApplicationLogs = false,
},
Name = "string",
BinaryAuthorization = new GoogleNative.Gkeonprem.V1.Inputs.BinaryAuthorizationArgs
{
EvaluationMode = GoogleNative.Gkeonprem.V1.BinaryAuthorizationEvaluationMode.EvaluationModeUnspecified,
},
NodeAccessConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalNodeAccessConfigArgs
{
LoginUser = "string",
},
Description = "string",
OsEnvironmentConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalOsEnvironmentConfigArgs
{
PackageRepoExcluded = false,
},
Project = "string",
Proxy = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalProxyConfigArgs
{
Uri = "string",
NoProxy = new[]
{
"string",
},
},
SecurityConfig = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalSecurityConfigArgs
{
Authorization = new GoogleNative.Gkeonprem.V1.Inputs.AuthorizationArgs
{
AdminUsers = new[]
{
new GoogleNative.Gkeonprem.V1.Inputs.ClusterUserArgs
{
Username = "string",
},
},
},
},
Annotations =
{
{ "string", "string" },
},
UpgradePolicy = new GoogleNative.Gkeonprem.V1.Inputs.BareMetalClusterUpgradePolicyArgs
{
Policy = GoogleNative.Gkeonprem.V1.BareMetalClusterUpgradePolicyPolicy.NodePoolPolicyUnspecified,
},
});
example, err := gkeonprem.NewBareMetalCluster(ctx, "bareMetalClusterResource", &gkeonprem.BareMetalClusterArgs{
LoadBalancer: &gkeonprem.BareMetalLoadBalancerConfigArgs{
BgpLbConfig: &gkeonprem.BareMetalBgpLbConfigArgs{
AddressPools: gkeonprem.BareMetalLoadBalancerAddressPoolArray{
&gkeonprem.BareMetalLoadBalancerAddressPoolArgs{
Addresses: pulumi.StringArray{
pulumi.String("string"),
},
Pool: pulumi.String("string"),
AvoidBuggyIps: pulumi.Bool(false),
ManualAssign: pulumi.Bool(false),
},
},
Asn: pulumi.String("string"),
BgpPeerConfigs: gkeonprem.BareMetalBgpPeerConfigArray{
&gkeonprem.BareMetalBgpPeerConfigArgs{
Asn: pulumi.String("string"),
IpAddress: pulumi.String("string"),
ControlPlaneNodes: pulumi.StringArray{
pulumi.String("string"),
},
},
},
LoadBalancerNodePoolConfig: &gkeonprem.BareMetalLoadBalancerNodePoolConfigArgs{
NodePoolConfig: &gkeonprem.BareMetalNodePoolConfigArgs{
NodeConfigs: gkeonprem.BareMetalNodeConfigArray{
&gkeonprem.BareMetalNodeConfigArgs{
Labels: pulumi.StringMap{
"string": pulumi.String("string"),
},
NodeIp: pulumi.String("string"),
},
},
KubeletConfig: &gkeonprem.BareMetalKubeletConfigArgs{
RegistryBurst: pulumi.Int(0),
RegistryPullQps: pulumi.Int(0),
SerializeImagePullsDisabled: pulumi.Bool(false),
},
Labels: pulumi.StringMap{
"string": pulumi.String("string"),
},
OperatingSystem: gkeonprem.BareMetalNodePoolConfigOperatingSystemOperatingSystemUnspecified,
Taints: gkeonprem.NodeTaintArray{
&gkeonprem.NodeTaintArgs{
Effect: gkeonprem.NodeTaintEffectEffectUnspecified,
Key: pulumi.String("string"),
Value: pulumi.String("string"),
},
},
},
},
},
ManualLbConfig: &gkeonprem.BareMetalManualLbConfigArgs{
Enabled: pulumi.Bool(false),
},
MetalLbConfig: &gkeonprem.BareMetalMetalLbConfigArgs{
AddressPools: gkeonprem.BareMetalLoadBalancerAddressPoolArray{
&gkeonprem.BareMetalLoadBalancerAddressPoolArgs{
Addresses: pulumi.StringArray{
pulumi.String("string"),
},
Pool: pulumi.String("string"),
AvoidBuggyIps: pulumi.Bool(false),
ManualAssign: pulumi.Bool(false),
},
},
LoadBalancerNodePoolConfig: &gkeonprem.BareMetalLoadBalancerNodePoolConfigArgs{
NodePoolConfig: &gkeonprem.BareMetalNodePoolConfigArgs{
NodeConfigs: gkeonprem.BareMetalNodeConfigArray{
&gkeonprem.BareMetalNodeConfigArgs{
Labels: pulumi.StringMap{
"string": pulumi.String("string"),
},
NodeIp: pulumi.String("string"),
},
},
KubeletConfig: &gkeonprem.BareMetalKubeletConfigArgs{
RegistryBurst: pulumi.Int(0),
RegistryPullQps: pulumi.Int(0),
SerializeImagePullsDisabled: pulumi.Bool(false),
},
Labels: pulumi.StringMap{
"string": pulumi.String("string"),
},
OperatingSystem: gkeonprem.BareMetalNodePoolConfigOperatingSystemOperatingSystemUnspecified,
Taints: gkeonprem.NodeTaintArray{
&gkeonprem.NodeTaintArgs{
Effect: gkeonprem.NodeTaintEffectEffectUnspecified,
Key: pulumi.String("string"),
Value: pulumi.String("string"),
},
},
},
},
},
PortConfig: &gkeonprem.BareMetalPortConfigArgs{
ControlPlaneLoadBalancerPort: pulumi.Int(0),
},
VipConfig: &gkeonprem.BareMetalVipConfigArgs{
ControlPlaneVip: pulumi.String("string"),
IngressVip: pulumi.String("string"),
},
},
Storage: &gkeonprem.BareMetalStorageConfigArgs{
LvpNodeMountsConfig: &gkeonprem.BareMetalLvpConfigArgs{
Path: pulumi.String("string"),
StorageClass: pulumi.String("string"),
},
LvpShareConfig: &gkeonprem.BareMetalLvpShareConfigArgs{
LvpConfig: &gkeonprem.BareMetalLvpConfigArgs{
Path: pulumi.String("string"),
StorageClass: pulumi.String("string"),
},
SharedPathPvCount: pulumi.Int(0),
},
},
BareMetalClusterId: pulumi.String("string"),
BareMetalVersion: pulumi.String("string"),
NetworkConfig: &gkeonprem.BareMetalNetworkConfigArgs{
AdvancedNetworking: pulumi.Bool(false),
IslandModeCidr: &gkeonprem.BareMetalIslandModeCidrConfigArgs{
PodAddressCidrBlocks: pulumi.StringArray{
pulumi.String("string"),
},
ServiceAddressCidrBlocks: pulumi.StringArray{
pulumi.String("string"),
},
},
MultipleNetworkInterfacesConfig: &gkeonprem.BareMetalMultipleNetworkInterfacesConfigArgs{
Enabled: pulumi.Bool(false),
},
SrIovConfig: &gkeonprem.BareMetalSrIovConfigArgs{
Enabled: pulumi.Bool(false),
},
},
AdminClusterMembership: pulumi.String("string"),
ControlPlane: &gkeonprem.BareMetalControlPlaneConfigArgs{
ControlPlaneNodePoolConfig: &gkeonprem.BareMetalControlPlaneNodePoolConfigArgs{
NodePoolConfig: &gkeonprem.BareMetalNodePoolConfigArgs{
NodeConfigs: gkeonprem.BareMetalNodeConfigArray{
&gkeonprem.BareMetalNodeConfigArgs{
Labels: pulumi.StringMap{
"string": pulumi.String("string"),
},
NodeIp: pulumi.String("string"),
},
},
KubeletConfig: &gkeonprem.BareMetalKubeletConfigArgs{
RegistryBurst: pulumi.Int(0),
RegistryPullQps: pulumi.Int(0),
SerializeImagePullsDisabled: pulumi.Bool(false),
},
Labels: pulumi.StringMap{
"string": pulumi.String("string"),
},
OperatingSystem: gkeonprem.BareMetalNodePoolConfigOperatingSystemOperatingSystemUnspecified,
Taints: gkeonprem.NodeTaintArray{
&gkeonprem.NodeTaintArgs{
Effect: gkeonprem.NodeTaintEffectEffectUnspecified,
Key: pulumi.String("string"),
Value: pulumi.String("string"),
},
},
},
},
ApiServerArgs: gkeonprem.BareMetalApiServerArgumentArray{
&gkeonprem.BareMetalApiServerArgumentArgs{
Argument: pulumi.String("string"),
Value: pulumi.String("string"),
},
},
},
MaintenanceConfig: &gkeonprem.BareMetalMaintenanceConfigArgs{
MaintenanceAddressCidrBlocks: pulumi.StringArray{
pulumi.String("string"),
},
},
NodeConfig: &gkeonprem.BareMetalWorkloadNodeConfigArgs{
ContainerRuntime: gkeonprem.BareMetalWorkloadNodeConfigContainerRuntimeContainerRuntimeUnspecified,
MaxPodsPerNode: pulumi.String("string"),
},
Location: pulumi.String("string"),
ClusterOperations: &gkeonprem.BareMetalClusterOperationsConfigArgs{
EnableApplicationLogs: pulumi.Bool(false),
},
Name: pulumi.String("string"),
BinaryAuthorization: &gkeonprem.BinaryAuthorizationArgs{
EvaluationMode: gkeonprem.BinaryAuthorizationEvaluationModeEvaluationModeUnspecified,
},
NodeAccessConfig: &gkeonprem.BareMetalNodeAccessConfigArgs{
LoginUser: pulumi.String("string"),
},
Description: pulumi.String("string"),
OsEnvironmentConfig: &gkeonprem.BareMetalOsEnvironmentConfigArgs{
PackageRepoExcluded: pulumi.Bool(false),
},
Project: pulumi.String("string"),
Proxy: &gkeonprem.BareMetalProxyConfigArgs{
Uri: pulumi.String("string"),
NoProxy: pulumi.StringArray{
pulumi.String("string"),
},
},
SecurityConfig: &gkeonprem.BareMetalSecurityConfigArgs{
Authorization: &gkeonprem.AuthorizationArgs{
AdminUsers: gkeonprem.ClusterUserArray{
&gkeonprem.ClusterUserArgs{
Username: pulumi.String("string"),
},
},
},
},
Annotations: pulumi.StringMap{
"string": pulumi.String("string"),
},
UpgradePolicy: &gkeonprem.BareMetalClusterUpgradePolicyArgs{
Policy: gkeonprem.BareMetalClusterUpgradePolicyPolicyNodePoolPolicyUnspecified,
},
})
var bareMetalClusterResource = new BareMetalCluster("bareMetalClusterResource", BareMetalClusterArgs.builder()
.loadBalancer(BareMetalLoadBalancerConfigArgs.builder()
.bgpLbConfig(BareMetalBgpLbConfigArgs.builder()
.addressPools(BareMetalLoadBalancerAddressPoolArgs.builder()
.addresses("string")
.pool("string")
.avoidBuggyIps(false)
.manualAssign(false)
.build())
.asn("string")
.bgpPeerConfigs(BareMetalBgpPeerConfigArgs.builder()
.asn("string")
.ipAddress("string")
.controlPlaneNodes("string")
.build())
.loadBalancerNodePoolConfig(BareMetalLoadBalancerNodePoolConfigArgs.builder()
.nodePoolConfig(BareMetalNodePoolConfigArgs.builder()
.nodeConfigs(BareMetalNodeConfigArgs.builder()
.labels(Map.of("string", "string"))
.nodeIp("string")
.build())
.kubeletConfig(BareMetalKubeletConfigArgs.builder()
.registryBurst(0)
.registryPullQps(0)
.serializeImagePullsDisabled(false)
.build())
.labels(Map.of("string", "string"))
.operatingSystem("OPERATING_SYSTEM_UNSPECIFIED")
.taints(NodeTaintArgs.builder()
.effect("EFFECT_UNSPECIFIED")
.key("string")
.value("string")
.build())
.build())
.build())
.build())
.manualLbConfig(BareMetalManualLbConfigArgs.builder()
.enabled(false)
.build())
.metalLbConfig(BareMetalMetalLbConfigArgs.builder()
.addressPools(BareMetalLoadBalancerAddressPoolArgs.builder()
.addresses("string")
.pool("string")
.avoidBuggyIps(false)
.manualAssign(false)
.build())
.loadBalancerNodePoolConfig(BareMetalLoadBalancerNodePoolConfigArgs.builder()
.nodePoolConfig(BareMetalNodePoolConfigArgs.builder()
.nodeConfigs(BareMetalNodeConfigArgs.builder()
.labels(Map.of("string", "string"))
.nodeIp("string")
.build())
.kubeletConfig(BareMetalKubeletConfigArgs.builder()
.registryBurst(0)
.registryPullQps(0)
.serializeImagePullsDisabled(false)
.build())
.labels(Map.of("string", "string"))
.operatingSystem("OPERATING_SYSTEM_UNSPECIFIED")
.taints(NodeTaintArgs.builder()
.effect("EFFECT_UNSPECIFIED")
.key("string")
.value("string")
.build())
.build())
.build())
.build())
.portConfig(BareMetalPortConfigArgs.builder()
.controlPlaneLoadBalancerPort(0)
.build())
.vipConfig(BareMetalVipConfigArgs.builder()
.controlPlaneVip("string")
.ingressVip("string")
.build())
.build())
.storage(BareMetalStorageConfigArgs.builder()
.lvpNodeMountsConfig(BareMetalLvpConfigArgs.builder()
.path("string")
.storageClass("string")
.build())
.lvpShareConfig(BareMetalLvpShareConfigArgs.builder()
.lvpConfig(BareMetalLvpConfigArgs.builder()
.path("string")
.storageClass("string")
.build())
.sharedPathPvCount(0)
.build())
.build())
.bareMetalClusterId("string")
.bareMetalVersion("string")
.networkConfig(BareMetalNetworkConfigArgs.builder()
.advancedNetworking(false)
.islandModeCidr(BareMetalIslandModeCidrConfigArgs.builder()
.podAddressCidrBlocks("string")
.serviceAddressCidrBlocks("string")
.build())
.multipleNetworkInterfacesConfig(BareMetalMultipleNetworkInterfacesConfigArgs.builder()
.enabled(false)
.build())
.srIovConfig(BareMetalSrIovConfigArgs.builder()
.enabled(false)
.build())
.build())
.adminClusterMembership("string")
.controlPlane(BareMetalControlPlaneConfigArgs.builder()
.controlPlaneNodePoolConfig(BareMetalControlPlaneNodePoolConfigArgs.builder()
.nodePoolConfig(BareMetalNodePoolConfigArgs.builder()
.nodeConfigs(BareMetalNodeConfigArgs.builder()
.labels(Map.of("string", "string"))
.nodeIp("string")
.build())
.kubeletConfig(BareMetalKubeletConfigArgs.builder()
.registryBurst(0)
.registryPullQps(0)
.serializeImagePullsDisabled(false)
.build())
.labels(Map.of("string", "string"))
.operatingSystem("OPERATING_SYSTEM_UNSPECIFIED")
.taints(NodeTaintArgs.builder()
.effect("EFFECT_UNSPECIFIED")
.key("string")
.value("string")
.build())
.build())
.build())
.apiServerArgs(BareMetalApiServerArgumentArgs.builder()
.argument("string")
.value("string")
.build())
.build())
.maintenanceConfig(BareMetalMaintenanceConfigArgs.builder()
.maintenanceAddressCidrBlocks("string")
.build())
.nodeConfig(BareMetalWorkloadNodeConfigArgs.builder()
.containerRuntime("CONTAINER_RUNTIME_UNSPECIFIED")
.maxPodsPerNode("string")
.build())
.location("string")
.clusterOperations(BareMetalClusterOperationsConfigArgs.builder()
.enableApplicationLogs(false)
.build())
.name("string")
.binaryAuthorization(BinaryAuthorizationArgs.builder()
.evaluationMode("EVALUATION_MODE_UNSPECIFIED")
.build())
.nodeAccessConfig(BareMetalNodeAccessConfigArgs.builder()
.loginUser("string")
.build())
.description("string")
.osEnvironmentConfig(BareMetalOsEnvironmentConfigArgs.builder()
.packageRepoExcluded(false)
.build())
.project("string")
.proxy(BareMetalProxyConfigArgs.builder()
.uri("string")
.noProxy("string")
.build())
.securityConfig(BareMetalSecurityConfigArgs.builder()
.authorization(AuthorizationArgs.builder()
.adminUsers(ClusterUserArgs.builder()
.username("string")
.build())
.build())
.build())
.annotations(Map.of("string", "string"))
.upgradePolicy(BareMetalClusterUpgradePolicyArgs.builder()
.policy("NODE_POOL_POLICY_UNSPECIFIED")
.build())
.build());
bare_metal_cluster_resource = google_native.gkeonprem.v1.BareMetalCluster("bareMetalClusterResource",
load_balancer={
"bgp_lb_config": {
"address_pools": [{
"addresses": ["string"],
"pool": "string",
"avoid_buggy_ips": False,
"manual_assign": False,
}],
"asn": "string",
"bgp_peer_configs": [{
"asn": "string",
"ip_address": "string",
"control_plane_nodes": ["string"],
}],
"load_balancer_node_pool_config": {
"node_pool_config": {
"node_configs": [{
"labels": {
"string": "string",
},
"node_ip": "string",
}],
"kubelet_config": {
"registry_burst": 0,
"registry_pull_qps": 0,
"serialize_image_pulls_disabled": False,
},
"labels": {
"string": "string",
},
"operating_system": google_native.gkeonprem.v1.BareMetalNodePoolConfigOperatingSystem.OPERATING_SYSTEM_UNSPECIFIED,
"taints": [{
"effect": google_native.gkeonprem.v1.NodeTaintEffect.EFFECT_UNSPECIFIED,
"key": "string",
"value": "string",
}],
},
},
},
"manual_lb_config": {
"enabled": False,
},
"metal_lb_config": {
"address_pools": [{
"addresses": ["string"],
"pool": "string",
"avoid_buggy_ips": False,
"manual_assign": False,
}],
"load_balancer_node_pool_config": {
"node_pool_config": {
"node_configs": [{
"labels": {
"string": "string",
},
"node_ip": "string",
}],
"kubelet_config": {
"registry_burst": 0,
"registry_pull_qps": 0,
"serialize_image_pulls_disabled": False,
},
"labels": {
"string": "string",
},
"operating_system": google_native.gkeonprem.v1.BareMetalNodePoolConfigOperatingSystem.OPERATING_SYSTEM_UNSPECIFIED,
"taints": [{
"effect": google_native.gkeonprem.v1.NodeTaintEffect.EFFECT_UNSPECIFIED,
"key": "string",
"value": "string",
}],
},
},
},
"port_config": {
"control_plane_load_balancer_port": 0,
},
"vip_config": {
"control_plane_vip": "string",
"ingress_vip": "string",
},
},
storage={
"lvp_node_mounts_config": {
"path": "string",
"storage_class": "string",
},
"lvp_share_config": {
"lvp_config": {
"path": "string",
"storage_class": "string",
},
"shared_path_pv_count": 0,
},
},
bare_metal_cluster_id="string",
bare_metal_version="string",
network_config={
"advanced_networking": False,
"island_mode_cidr": {
"pod_address_cidr_blocks": ["string"],
"service_address_cidr_blocks": ["string"],
},
"multiple_network_interfaces_config": {
"enabled": False,
},
"sr_iov_config": {
"enabled": False,
},
},
admin_cluster_membership="string",
control_plane={
"control_plane_node_pool_config": {
"node_pool_config": {
"node_configs": [{
"labels": {
"string": "string",
},
"node_ip": "string",
}],
"kubelet_config": {
"registry_burst": 0,
"registry_pull_qps": 0,
"serialize_image_pulls_disabled": False,
},
"labels": {
"string": "string",
},
"operating_system": google_native.gkeonprem.v1.BareMetalNodePoolConfigOperatingSystem.OPERATING_SYSTEM_UNSPECIFIED,
"taints": [{
"effect": google_native.gkeonprem.v1.NodeTaintEffect.EFFECT_UNSPECIFIED,
"key": "string",
"value": "string",
}],
},
},
"api_server_args": [{
"argument": "string",
"value": "string",
}],
},
maintenance_config={
"maintenance_address_cidr_blocks": ["string"],
},
node_config={
"container_runtime": google_native.gkeonprem.v1.BareMetalWorkloadNodeConfigContainerRuntime.CONTAINER_RUNTIME_UNSPECIFIED,
"max_pods_per_node": "string",
},
location="string",
cluster_operations={
"enable_application_logs": False,
},
name="string",
binary_authorization={
"evaluation_mode": google_native.gkeonprem.v1.BinaryAuthorizationEvaluationMode.EVALUATION_MODE_UNSPECIFIED,
},
node_access_config={
"login_user": "string",
},
description="string",
os_environment_config={
"package_repo_excluded": False,
},
project="string",
proxy={
"uri": "string",
"no_proxy": ["string"],
},
security_config={
"authorization": {
"admin_users": [{
"username": "string",
}],
},
},
annotations={
"string": "string",
},
upgrade_policy={
"policy": google_native.gkeonprem.v1.BareMetalClusterUpgradePolicyPolicy.NODE_POOL_POLICY_UNSPECIFIED,
})
const bareMetalClusterResource = new google_native.gkeonprem.v1.BareMetalCluster("bareMetalClusterResource", {
loadBalancer: {
bgpLbConfig: {
addressPools: [{
addresses: ["string"],
pool: "string",
avoidBuggyIps: false,
manualAssign: false,
}],
asn: "string",
bgpPeerConfigs: [{
asn: "string",
ipAddress: "string",
controlPlaneNodes: ["string"],
}],
loadBalancerNodePoolConfig: {
nodePoolConfig: {
nodeConfigs: [{
labels: {
string: "string",
},
nodeIp: "string",
}],
kubeletConfig: {
registryBurst: 0,
registryPullQps: 0,
serializeImagePullsDisabled: false,
},
labels: {
string: "string",
},
operatingSystem: google_native.gkeonprem.v1.BareMetalNodePoolConfigOperatingSystem.OperatingSystemUnspecified,
taints: [{
effect: google_native.gkeonprem.v1.NodeTaintEffect.EffectUnspecified,
key: "string",
value: "string",
}],
},
},
},
manualLbConfig: {
enabled: false,
},
metalLbConfig: {
addressPools: [{
addresses: ["string"],
pool: "string",
avoidBuggyIps: false,
manualAssign: false,
}],
loadBalancerNodePoolConfig: {
nodePoolConfig: {
nodeConfigs: [{
labels: {
string: "string",
},
nodeIp: "string",
}],
kubeletConfig: {
registryBurst: 0,
registryPullQps: 0,
serializeImagePullsDisabled: false,
},
labels: {
string: "string",
},
operatingSystem: google_native.gkeonprem.v1.BareMetalNodePoolConfigOperatingSystem.OperatingSystemUnspecified,
taints: [{
effect: google_native.gkeonprem.v1.NodeTaintEffect.EffectUnspecified,
key: "string",
value: "string",
}],
},
},
},
portConfig: {
controlPlaneLoadBalancerPort: 0,
},
vipConfig: {
controlPlaneVip: "string",
ingressVip: "string",
},
},
storage: {
lvpNodeMountsConfig: {
path: "string",
storageClass: "string",
},
lvpShareConfig: {
lvpConfig: {
path: "string",
storageClass: "string",
},
sharedPathPvCount: 0,
},
},
bareMetalClusterId: "string",
bareMetalVersion: "string",
networkConfig: {
advancedNetworking: false,
islandModeCidr: {
podAddressCidrBlocks: ["string"],
serviceAddressCidrBlocks: ["string"],
},
multipleNetworkInterfacesConfig: {
enabled: false,
},
srIovConfig: {
enabled: false,
},
},
adminClusterMembership: "string",
controlPlane: {
controlPlaneNodePoolConfig: {
nodePoolConfig: {
nodeConfigs: [{
labels: {
string: "string",
},
nodeIp: "string",
}],
kubeletConfig: {
registryBurst: 0,
registryPullQps: 0,
serializeImagePullsDisabled: false,
},
labels: {
string: "string",
},
operatingSystem: google_native.gkeonprem.v1.BareMetalNodePoolConfigOperatingSystem.OperatingSystemUnspecified,
taints: [{
effect: google_native.gkeonprem.v1.NodeTaintEffect.EffectUnspecified,
key: "string",
value: "string",
}],
},
},
apiServerArgs: [{
argument: "string",
value: "string",
}],
},
maintenanceConfig: {
maintenanceAddressCidrBlocks: ["string"],
},
nodeConfig: {
containerRuntime: google_native.gkeonprem.v1.BareMetalWorkloadNodeConfigContainerRuntime.ContainerRuntimeUnspecified,
maxPodsPerNode: "string",
},
location: "string",
clusterOperations: {
enableApplicationLogs: false,
},
name: "string",
binaryAuthorization: {
evaluationMode: google_native.gkeonprem.v1.BinaryAuthorizationEvaluationMode.EvaluationModeUnspecified,
},
nodeAccessConfig: {
loginUser: "string",
},
description: "string",
osEnvironmentConfig: {
packageRepoExcluded: false,
},
project: "string",
proxy: {
uri: "string",
noProxy: ["string"],
},
securityConfig: {
authorization: {
adminUsers: [{
username: "string",
}],
},
},
annotations: {
string: "string",
},
upgradePolicy: {
policy: google_native.gkeonprem.v1.BareMetalClusterUpgradePolicyPolicy.NodePoolPolicyUnspecified,
},
});
type: google-native:gkeonprem/v1:BareMetalCluster
properties:
adminClusterMembership: string
annotations:
string: string
bareMetalClusterId: string
bareMetalVersion: string
binaryAuthorization:
evaluationMode: EVALUATION_MODE_UNSPECIFIED
clusterOperations:
enableApplicationLogs: false
controlPlane:
apiServerArgs:
- argument: string
value: string
controlPlaneNodePoolConfig:
nodePoolConfig:
kubeletConfig:
registryBurst: 0
registryPullQps: 0
serializeImagePullsDisabled: false
labels:
string: string
nodeConfigs:
- labels:
string: string
nodeIp: string
operatingSystem: OPERATING_SYSTEM_UNSPECIFIED
taints:
- effect: EFFECT_UNSPECIFIED
key: string
value: string
description: string
loadBalancer:
bgpLbConfig:
addressPools:
- addresses:
- string
avoidBuggyIps: false
manualAssign: false
pool: string
asn: string
bgpPeerConfigs:
- asn: string
controlPlaneNodes:
- string
ipAddress: string
loadBalancerNodePoolConfig:
nodePoolConfig:
kubeletConfig:
registryBurst: 0
registryPullQps: 0
serializeImagePullsDisabled: false
labels:
string: string
nodeConfigs:
- labels:
string: string
nodeIp: string
operatingSystem: OPERATING_SYSTEM_UNSPECIFIED
taints:
- effect: EFFECT_UNSPECIFIED
key: string
value: string
manualLbConfig:
enabled: false
metalLbConfig:
addressPools:
- addresses:
- string
avoidBuggyIps: false
manualAssign: false
pool: string
loadBalancerNodePoolConfig:
nodePoolConfig:
kubeletConfig:
registryBurst: 0
registryPullQps: 0
serializeImagePullsDisabled: false
labels:
string: string
nodeConfigs:
- labels:
string: string
nodeIp: string
operatingSystem: OPERATING_SYSTEM_UNSPECIFIED
taints:
- effect: EFFECT_UNSPECIFIED
key: string
value: string
portConfig:
controlPlaneLoadBalancerPort: 0
vipConfig:
controlPlaneVip: string
ingressVip: string
location: string
maintenanceConfig:
maintenanceAddressCidrBlocks:
- string
name: string
networkConfig:
advancedNetworking: false
islandModeCidr:
podAddressCidrBlocks:
- string
serviceAddressCidrBlocks:
- string
multipleNetworkInterfacesConfig:
enabled: false
srIovConfig:
enabled: false
nodeAccessConfig:
loginUser: string
nodeConfig:
containerRuntime: CONTAINER_RUNTIME_UNSPECIFIED
maxPodsPerNode: string
osEnvironmentConfig:
packageRepoExcluded: false
project: string
proxy:
noProxy:
- string
uri: string
securityConfig:
authorization:
adminUsers:
- username: string
storage:
lvpNodeMountsConfig:
path: string
storageClass: string
lvpShareConfig:
lvpConfig:
path: string
storageClass: string
sharedPathPvCount: 0
upgradePolicy:
policy: NODE_POOL_POLICY_UNSPECIFIED
BareMetalCluster 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 BareMetalCluster resource accepts the following input properties:
- Admin
Cluster stringMembership - The admin cluster this bare metal user cluster belongs to. This is the full resource name of the admin cluster's fleet membership.
- Bare
Metal stringCluster Id - Required. User provided identifier that is used as part of the resource name; must conform to RFC-1034 and additionally restrict to lower-cased letters. This comes out roughly to: /^a-z+[a-z0-9]$/
- Bare
Metal stringVersion - The Anthos clusters on bare metal version for your user cluster.
- Control
Plane Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Control Plane Config - Control plane configuration.
- Load
Balancer Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Load Balancer Config - Load balancer configuration.
- Network
Config Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Network Config - Network configuration.
- Storage
Pulumi.
Google Native. Gkeonprem. V1. Inputs. Bare Metal Storage Config - Storage configuration.
- Annotations Dictionary<string, string>
- Annotations on the bare metal user cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between.
- Pulumi.
Google Native. Gkeonprem. V1. Inputs. Binary Authorization - Binary Authorization related configurations.
- Cluster
Operations Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Cluster Operations Config - Cluster operations configuration.
- Description string
- A human readable description of this bare metal user cluster.
- Location string
- Maintenance
Config Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Maintenance Config - Maintenance configuration.
- Name string
- Immutable. The bare metal user cluster resource name.
- Node
Access Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Node Access Config - Node access related configurations.
- Node
Config Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Workload Node Config - Workload node configuration.
- Os
Environment Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Os Environment Config - OS environment related configurations.
- Project string
- Proxy
Pulumi.
Google Native. Gkeonprem. V1. Inputs. Bare Metal Proxy Config - Proxy configuration.
- Security
Config Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Security Config - Security related setting configuration.
- Upgrade
Policy Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Cluster Upgrade Policy - The cluster upgrade policy.
- Admin
Cluster stringMembership - The admin cluster this bare metal user cluster belongs to. This is the full resource name of the admin cluster's fleet membership.
- Bare
Metal stringCluster Id - Required. User provided identifier that is used as part of the resource name; must conform to RFC-1034 and additionally restrict to lower-cased letters. This comes out roughly to: /^a-z+[a-z0-9]$/
- Bare
Metal stringVersion - The Anthos clusters on bare metal version for your user cluster.
- Control
Plane BareMetal Control Plane Config Args - Control plane configuration.
- Load
Balancer BareMetal Load Balancer Config Args - Load balancer configuration.
- Network
Config BareMetal Network Config Args - Network configuration.
- Storage
Bare
Metal Storage Config Args - Storage configuration.
- Annotations map[string]string
- Annotations on the bare metal user cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between.
- Binary
Authorization Args - Binary Authorization related configurations.
- Cluster
Operations BareMetal Cluster Operations Config Args - Cluster operations configuration.
- Description string
- A human readable description of this bare metal user cluster.
- Location string
- Maintenance
Config BareMetal Maintenance Config Args - Maintenance configuration.
- Name string
- Immutable. The bare metal user cluster resource name.
- Node
Access BareConfig Metal Node Access Config Args - Node access related configurations.
- Node
Config BareMetal Workload Node Config Args - Workload node configuration.
- Os
Environment BareConfig Metal Os Environment Config Args - OS environment related configurations.
- Project string
- Proxy
Bare
Metal Proxy Config Args - Proxy configuration.
- Security
Config BareMetal Security Config Args - Security related setting configuration.
- Upgrade
Policy BareMetal Cluster Upgrade Policy Args - The cluster upgrade policy.
- admin
Cluster StringMembership - The admin cluster this bare metal user cluster belongs to. This is the full resource name of the admin cluster's fleet membership.
- bare
Metal StringCluster Id - Required. User provided identifier that is used as part of the resource name; must conform to RFC-1034 and additionally restrict to lower-cased letters. This comes out roughly to: /^a-z+[a-z0-9]$/
- bare
Metal StringVersion - The Anthos clusters on bare metal version for your user cluster.
- control
Plane BareMetal Control Plane Config - Control plane configuration.
- load
Balancer BareMetal Load Balancer Config - Load balancer configuration.
- network
Config BareMetal Network Config - Network configuration.
- storage
Bare
Metal Storage Config - Storage configuration.
- annotations Map<String,String>
- Annotations on the bare metal user cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between.
- Binary
Authorization - Binary Authorization related configurations.
- cluster
Operations BareMetal Cluster Operations Config - Cluster operations configuration.
- description String
- A human readable description of this bare metal user cluster.
- location String
- maintenance
Config BareMetal Maintenance Config - Maintenance configuration.
- name String
- Immutable. The bare metal user cluster resource name.
- node
Access BareConfig Metal Node Access Config - Node access related configurations.
- node
Config BareMetal Workload Node Config - Workload node configuration.
- os
Environment BareConfig Metal Os Environment Config - OS environment related configurations.
- project String
- proxy
Bare
Metal Proxy Config - Proxy configuration.
- security
Config BareMetal Security Config - Security related setting configuration.
- upgrade
Policy BareMetal Cluster Upgrade Policy - The cluster upgrade policy.
- admin
Cluster stringMembership - The admin cluster this bare metal user cluster belongs to. This is the full resource name of the admin cluster's fleet membership.
- bare
Metal stringCluster Id - Required. User provided identifier that is used as part of the resource name; must conform to RFC-1034 and additionally restrict to lower-cased letters. This comes out roughly to: /^a-z+[a-z0-9]$/
- bare
Metal stringVersion - The Anthos clusters on bare metal version for your user cluster.
- control
Plane BareMetal Control Plane Config - Control plane configuration.
- load
Balancer BareMetal Load Balancer Config - Load balancer configuration.
- network
Config BareMetal Network Config - Network configuration.
- storage
Bare
Metal Storage Config - Storage configuration.
- annotations {[key: string]: string}
- Annotations on the bare metal user cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between.
- Binary
Authorization - Binary Authorization related configurations.
- cluster
Operations BareMetal Cluster Operations Config - Cluster operations configuration.
- description string
- A human readable description of this bare metal user cluster.
- location string
- maintenance
Config BareMetal Maintenance Config - Maintenance configuration.
- name string
- Immutable. The bare metal user cluster resource name.
- node
Access BareConfig Metal Node Access Config - Node access related configurations.
- node
Config BareMetal Workload Node Config - Workload node configuration.
- os
Environment BareConfig Metal Os Environment Config - OS environment related configurations.
- project string
- proxy
Bare
Metal Proxy Config - Proxy configuration.
- security
Config BareMetal Security Config - Security related setting configuration.
- upgrade
Policy BareMetal Cluster Upgrade Policy - The cluster upgrade policy.
- admin_
cluster_ strmembership - The admin cluster this bare metal user cluster belongs to. This is the full resource name of the admin cluster's fleet membership.
- bare_
metal_ strcluster_ id - Required. User provided identifier that is used as part of the resource name; must conform to RFC-1034 and additionally restrict to lower-cased letters. This comes out roughly to: /^a-z+[a-z0-9]$/
- bare_
metal_ strversion - The Anthos clusters on bare metal version for your user cluster.
- control_
plane BareMetal Control Plane Config Args - Control plane configuration.
- load_
balancer BareMetal Load Balancer Config Args - Load balancer configuration.
- network_
config BareMetal Network Config Args - Network configuration.
- storage
Bare
Metal Storage Config Args - Storage configuration.
- annotations Mapping[str, str]
- Annotations on the bare metal user cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between.
- Binary
Authorization Args - Binary Authorization related configurations.
- cluster_
operations BareMetal Cluster Operations Config Args - Cluster operations configuration.
- description str
- A human readable description of this bare metal user cluster.
- location str
- maintenance_
config BareMetal Maintenance Config Args - Maintenance configuration.
- name str
- Immutable. The bare metal user cluster resource name.
- node_
access_ Bareconfig Metal Node Access Config Args - Node access related configurations.
- node_
config BareMetal Workload Node Config Args - Workload node configuration.
- os_
environment_ Bareconfig Metal Os Environment Config Args - OS environment related configurations.
- project str
- proxy
Bare
Metal Proxy Config Args - Proxy configuration.
- security_
config BareMetal Security Config Args - Security related setting configuration.
- upgrade_
policy BareMetal Cluster Upgrade Policy Args - The cluster upgrade policy.
- admin
Cluster StringMembership - The admin cluster this bare metal user cluster belongs to. This is the full resource name of the admin cluster's fleet membership.
- bare
Metal StringCluster Id - Required. User provided identifier that is used as part of the resource name; must conform to RFC-1034 and additionally restrict to lower-cased letters. This comes out roughly to: /^a-z+[a-z0-9]$/
- bare
Metal StringVersion - The Anthos clusters on bare metal version for your user cluster.
- control
Plane Property Map - Control plane configuration.
- load
Balancer Property Map - Load balancer configuration.
- network
Config Property Map - Network configuration.
- storage Property Map
- Storage configuration.
- annotations Map<String>
- Annotations on the bare metal user cluster. This field has the same restrictions as Kubernetes annotations. The total size of all keys and values combined is limited to 256k. Key can have 2 segments: prefix (optional) and name (required), separated by a slash (/). Prefix must be a DNS subdomain. Name must be 63 characters or less, begin and end with alphanumerics, with dashes (-), underscores (_), dots (.), and alphanumerics between.
- Property Map
- Binary Authorization related configurations.
- cluster
Operations Property Map - Cluster operations configuration.
- description String
- A human readable description of this bare metal user cluster.
- location String
- maintenance
Config Property Map - Maintenance configuration.
- name String
- Immutable. The bare metal user cluster resource name.
- node
Access Property MapConfig - Node access related configurations.
- node
Config Property Map - Workload node configuration.
- os
Environment Property MapConfig - OS environment related configurations.
- project String
- proxy Property Map
- Proxy configuration.
- security
Config Property Map - Security related setting configuration.
- upgrade
Policy Property Map - The cluster upgrade policy.
Outputs
All input properties are implicitly available as output properties. Additionally, the BareMetalCluster resource produces the following output properties:
- Admin
Cluster stringName - The resource name of the bare metal admin cluster managing this user cluster.
- Create
Time string - The time when the bare metal user cluster was created.
- Delete
Time string - The time when the bare metal user cluster was deleted. If the resource is not deleted, this must be empty
- Endpoint string
- The IP address of the bare metal user cluster's API server.
- Etag string
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- Fleet
Pulumi.
Google Native. Gkeonprem. V1. Outputs. Fleet Response - Fleet configuration for the cluster.
- Id string
- The provider-assigned unique ID for this managed resource.
- Local
Name string - The object name of the bare metal user cluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the name in the resource name. For new clusters, this field will match the user provided cluster name and be visible in the last component of the resource name. It is not modifiable. When the local name and cluster name differ, the local name is used in the admin cluster controller logs. You use the cluster name when accessing the cluster using bmctl and kubectl.
- Maintenance
Status Pulumi.Google Native. Gkeonprem. V1. Outputs. Bare Metal Maintenance Status Response - Status of on-going maintenance tasks.
- Reconciling bool
- If set, there are currently changes in flight to the bare metal user cluster.
- State string
- The current state of the bare metal user cluster.
- Status
Pulumi.
Google Native. Gkeonprem. V1. Outputs. Resource Status Response - Detailed cluster status.
- Uid string
- The unique identifier of the bare metal user cluster.
- Update
Time string - The time when the bare metal user cluster was last updated.
- Validation
Check Pulumi.Google Native. Gkeonprem. V1. Outputs. Validation Check Response - The result of the preflight check.
- Admin
Cluster stringName - The resource name of the bare metal admin cluster managing this user cluster.
- Create
Time string - The time when the bare metal user cluster was created.
- Delete
Time string - The time when the bare metal user cluster was deleted. If the resource is not deleted, this must be empty
- Endpoint string
- The IP address of the bare metal user cluster's API server.
- Etag string
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- Fleet
Fleet
Response - Fleet configuration for the cluster.
- Id string
- The provider-assigned unique ID for this managed resource.
- Local
Name string - The object name of the bare metal user cluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the name in the resource name. For new clusters, this field will match the user provided cluster name and be visible in the last component of the resource name. It is not modifiable. When the local name and cluster name differ, the local name is used in the admin cluster controller logs. You use the cluster name when accessing the cluster using bmctl and kubectl.
- Maintenance
Status BareMetal Maintenance Status Response - Status of on-going maintenance tasks.
- Reconciling bool
- If set, there are currently changes in flight to the bare metal user cluster.
- State string
- The current state of the bare metal user cluster.
- Status
Resource
Status Response - Detailed cluster status.
- Uid string
- The unique identifier of the bare metal user cluster.
- Update
Time string - The time when the bare metal user cluster was last updated.
- Validation
Check ValidationCheck Response - The result of the preflight check.
- admin
Cluster StringName - The resource name of the bare metal admin cluster managing this user cluster.
- create
Time String - The time when the bare metal user cluster was created.
- delete
Time String - The time when the bare metal user cluster was deleted. If the resource is not deleted, this must be empty
- endpoint String
- The IP address of the bare metal user cluster's API server.
- etag String
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- fleet
Fleet
Response - Fleet configuration for the cluster.
- id String
- The provider-assigned unique ID for this managed resource.
- local
Name String - The object name of the bare metal user cluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the name in the resource name. For new clusters, this field will match the user provided cluster name and be visible in the last component of the resource name. It is not modifiable. When the local name and cluster name differ, the local name is used in the admin cluster controller logs. You use the cluster name when accessing the cluster using bmctl and kubectl.
- maintenance
Status BareMetal Maintenance Status Response - Status of on-going maintenance tasks.
- reconciling Boolean
- If set, there are currently changes in flight to the bare metal user cluster.
- state String
- The current state of the bare metal user cluster.
- status
Resource
Status Response - Detailed cluster status.
- uid String
- The unique identifier of the bare metal user cluster.
- update
Time String - The time when the bare metal user cluster was last updated.
- validation
Check ValidationCheck Response - The result of the preflight check.
- admin
Cluster stringName - The resource name of the bare metal admin cluster managing this user cluster.
- create
Time string - The time when the bare metal user cluster was created.
- delete
Time string - The time when the bare metal user cluster was deleted. If the resource is not deleted, this must be empty
- endpoint string
- The IP address of the bare metal user cluster's API server.
- etag string
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- fleet
Fleet
Response - Fleet configuration for the cluster.
- id string
- The provider-assigned unique ID for this managed resource.
- local
Name string - The object name of the bare metal user cluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the name in the resource name. For new clusters, this field will match the user provided cluster name and be visible in the last component of the resource name. It is not modifiable. When the local name and cluster name differ, the local name is used in the admin cluster controller logs. You use the cluster name when accessing the cluster using bmctl and kubectl.
- maintenance
Status BareMetal Maintenance Status Response - Status of on-going maintenance tasks.
- reconciling boolean
- If set, there are currently changes in flight to the bare metal user cluster.
- state string
- The current state of the bare metal user cluster.
- status
Resource
Status Response - Detailed cluster status.
- uid string
- The unique identifier of the bare metal user cluster.
- update
Time string - The time when the bare metal user cluster was last updated.
- validation
Check ValidationCheck Response - The result of the preflight check.
- admin_
cluster_ strname - The resource name of the bare metal admin cluster managing this user cluster.
- create_
time str - The time when the bare metal user cluster was created.
- delete_
time str - The time when the bare metal user cluster was deleted. If the resource is not deleted, this must be empty
- endpoint str
- The IP address of the bare metal user cluster's API server.
- etag str
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- fleet
Fleet
Response - Fleet configuration for the cluster.
- id str
- The provider-assigned unique ID for this managed resource.
- local_
name str - The object name of the bare metal user cluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the name in the resource name. For new clusters, this field will match the user provided cluster name and be visible in the last component of the resource name. It is not modifiable. When the local name and cluster name differ, the local name is used in the admin cluster controller logs. You use the cluster name when accessing the cluster using bmctl and kubectl.
- maintenance_
status BareMetal Maintenance Status Response - Status of on-going maintenance tasks.
- reconciling bool
- If set, there are currently changes in flight to the bare metal user cluster.
- state str
- The current state of the bare metal user cluster.
- status
Resource
Status Response - Detailed cluster status.
- uid str
- The unique identifier of the bare metal user cluster.
- update_
time str - The time when the bare metal user cluster was last updated.
- validation_
check ValidationCheck Response - The result of the preflight check.
- admin
Cluster StringName - The resource name of the bare metal admin cluster managing this user cluster.
- create
Time String - The time when the bare metal user cluster was created.
- delete
Time String - The time when the bare metal user cluster was deleted. If the resource is not deleted, this must be empty
- endpoint String
- The IP address of the bare metal user cluster's API server.
- etag String
- This checksum is computed by the server based on the value of other fields, and may be sent on update and delete requests to ensure the client has an up-to-date value before proceeding. Allows clients to perform consistent read-modify-writes through optimistic concurrency control.
- fleet Property Map
- Fleet configuration for the cluster.
- id String
- The provider-assigned unique ID for this managed resource.
- local
Name String - The object name of the bare metal user cluster custom resource on the associated admin cluster. This field is used to support conflicting names when enrolling existing clusters to the API. When used as a part of cluster enrollment, this field will differ from the name in the resource name. For new clusters, this field will match the user provided cluster name and be visible in the last component of the resource name. It is not modifiable. When the local name and cluster name differ, the local name is used in the admin cluster controller logs. You use the cluster name when accessing the cluster using bmctl and kubectl.
- maintenance
Status Property Map - Status of on-going maintenance tasks.
- reconciling Boolean
- If set, there are currently changes in flight to the bare metal user cluster.
- state String
- The current state of the bare metal user cluster.
- status Property Map
- Detailed cluster status.
- uid String
- The unique identifier of the bare metal user cluster.
- update
Time String - The time when the bare metal user cluster was last updated.
- validation
Check Property Map - The result of the preflight check.
Supporting Types
Authorization, AuthorizationArgs
- Admin
Users List<Pulumi.Google Native. Gkeonprem. V1. Inputs. Cluster User> - For VMware and bare metal user clusters, users will be granted the cluster-admin role on the cluster, which provides full administrative access to the cluster. For bare metal admin clusters, users will be granted the cluster-view role, which limits users to read-only access.
- Admin
Users []ClusterUser - For VMware and bare metal user clusters, users will be granted the cluster-admin role on the cluster, which provides full administrative access to the cluster. For bare metal admin clusters, users will be granted the cluster-view role, which limits users to read-only access.
- admin
Users List<ClusterUser> - For VMware and bare metal user clusters, users will be granted the cluster-admin role on the cluster, which provides full administrative access to the cluster. For bare metal admin clusters, users will be granted the cluster-view role, which limits users to read-only access.
- admin
Users ClusterUser[] - For VMware and bare metal user clusters, users will be granted the cluster-admin role on the cluster, which provides full administrative access to the cluster. For bare metal admin clusters, users will be granted the cluster-view role, which limits users to read-only access.
- admin_
users Sequence[ClusterUser] - For VMware and bare metal user clusters, users will be granted the cluster-admin role on the cluster, which provides full administrative access to the cluster. For bare metal admin clusters, users will be granted the cluster-view role, which limits users to read-only access.
- admin
Users List<Property Map> - For VMware and bare metal user clusters, users will be granted the cluster-admin role on the cluster, which provides full administrative access to the cluster. For bare metal admin clusters, users will be granted the cluster-view role, which limits users to read-only access.
AuthorizationResponse, AuthorizationResponseArgs
- Admin
Users List<Pulumi.Google Native. Gkeonprem. V1. Inputs. Cluster User Response> - For VMware and bare metal user clusters, users will be granted the cluster-admin role on the cluster, which provides full administrative access to the cluster. For bare metal admin clusters, users will be granted the cluster-view role, which limits users to read-only access.
- Admin
Users []ClusterUser Response - For VMware and bare metal user clusters, users will be granted the cluster-admin role on the cluster, which provides full administrative access to the cluster. For bare metal admin clusters, users will be granted the cluster-view role, which limits users to read-only access.
- admin
Users List<ClusterUser Response> - For VMware and bare metal user clusters, users will be granted the cluster-admin role on the cluster, which provides full administrative access to the cluster. For bare metal admin clusters, users will be granted the cluster-view role, which limits users to read-only access.
- admin
Users ClusterUser Response[] - For VMware and bare metal user clusters, users will be granted the cluster-admin role on the cluster, which provides full administrative access to the cluster. For bare metal admin clusters, users will be granted the cluster-view role, which limits users to read-only access.
- admin_
users Sequence[ClusterUser Response] - For VMware and bare metal user clusters, users will be granted the cluster-admin role on the cluster, which provides full administrative access to the cluster. For bare metal admin clusters, users will be granted the cluster-view role, which limits users to read-only access.
- admin
Users List<Property Map> - For VMware and bare metal user clusters, users will be granted the cluster-admin role on the cluster, which provides full administrative access to the cluster. For bare metal admin clusters, users will be granted the cluster-view role, which limits users to read-only access.
BareMetalApiServerArgument, BareMetalApiServerArgumentArgs
BareMetalApiServerArgumentResponse, BareMetalApiServerArgumentResponseArgs
BareMetalBgpLbConfig, BareMetalBgpLbConfigArgs
- Address
Pools List<Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Load Balancer Address Pool> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- Asn string
- BGP autonomous system number (ASN) of the cluster. This field can be updated after cluster creation.
- Bgp
Peer List<Pulumi.Configs Google Native. Gkeonprem. V1. Inputs. Bare Metal Bgp Peer Config> - The list of BGP peers that the cluster will connect to. At least one peer must be configured for each control plane node. Control plane nodes will connect to these peers to advertise the control plane VIP. The Services load balancer also uses these peers by default. This field can be updated after cluster creation.
- Load
Balancer Pulumi.Node Pool Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Load Balancer Node Pool Config - Specifies the node pool running data plane load balancing. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used for data plane load balancing.
- Address
Pools []BareMetal Load Balancer Address Pool - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- Asn string
- BGP autonomous system number (ASN) of the cluster. This field can be updated after cluster creation.
- Bgp
Peer []BareConfigs Metal Bgp Peer Config - The list of BGP peers that the cluster will connect to. At least one peer must be configured for each control plane node. Control plane nodes will connect to these peers to advertise the control plane VIP. The Services load balancer also uses these peers by default. This field can be updated after cluster creation.
- Load
Balancer BareNode Pool Config Metal Load Balancer Node Pool Config - Specifies the node pool running data plane load balancing. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used for data plane load balancing.
- address
Pools List<BareMetal Load Balancer Address Pool> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- asn String
- BGP autonomous system number (ASN) of the cluster. This field can be updated after cluster creation.
- bgp
Peer List<BareConfigs Metal Bgp Peer Config> - The list of BGP peers that the cluster will connect to. At least one peer must be configured for each control plane node. Control plane nodes will connect to these peers to advertise the control plane VIP. The Services load balancer also uses these peers by default. This field can be updated after cluster creation.
- load
Balancer BareNode Pool Config Metal Load Balancer Node Pool Config - Specifies the node pool running data plane load balancing. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used for data plane load balancing.
- address
Pools BareMetal Load Balancer Address Pool[] - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- asn string
- BGP autonomous system number (ASN) of the cluster. This field can be updated after cluster creation.
- bgp
Peer BareConfigs Metal Bgp Peer Config[] - The list of BGP peers that the cluster will connect to. At least one peer must be configured for each control plane node. Control plane nodes will connect to these peers to advertise the control plane VIP. The Services load balancer also uses these peers by default. This field can be updated after cluster creation.
- load
Balancer BareNode Pool Config Metal Load Balancer Node Pool Config - Specifies the node pool running data plane load balancing. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used for data plane load balancing.
- address_
pools Sequence[BareMetal Load Balancer Address Pool] - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- asn str
- BGP autonomous system number (ASN) of the cluster. This field can be updated after cluster creation.
- bgp_
peer_ Sequence[Bareconfigs Metal Bgp Peer Config] - The list of BGP peers that the cluster will connect to. At least one peer must be configured for each control plane node. Control plane nodes will connect to these peers to advertise the control plane VIP. The Services load balancer also uses these peers by default. This field can be updated after cluster creation.
- load_
balancer_ Barenode_ pool_ config Metal Load Balancer Node Pool Config - Specifies the node pool running data plane load balancing. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used for data plane load balancing.
- address
Pools List<Property Map> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- asn String
- BGP autonomous system number (ASN) of the cluster. This field can be updated after cluster creation.
- bgp
Peer List<Property Map>Configs - The list of BGP peers that the cluster will connect to. At least one peer must be configured for each control plane node. Control plane nodes will connect to these peers to advertise the control plane VIP. The Services load balancer also uses these peers by default. This field can be updated after cluster creation.
- load
Balancer Property MapNode Pool Config - Specifies the node pool running data plane load balancing. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used for data plane load balancing.
BareMetalBgpLbConfigResponse, BareMetalBgpLbConfigResponseArgs
- Address
Pools List<Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Load Balancer Address Pool Response> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- Asn string
- BGP autonomous system number (ASN) of the cluster. This field can be updated after cluster creation.
- Bgp
Peer List<Pulumi.Configs Google Native. Gkeonprem. V1. Inputs. Bare Metal Bgp Peer Config Response> - The list of BGP peers that the cluster will connect to. At least one peer must be configured for each control plane node. Control plane nodes will connect to these peers to advertise the control plane VIP. The Services load balancer also uses these peers by default. This field can be updated after cluster creation.
- Load
Balancer Pulumi.Node Pool Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Load Balancer Node Pool Config Response - Specifies the node pool running data plane load balancing. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used for data plane load balancing.
- Address
Pools []BareMetal Load Balancer Address Pool Response - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- Asn string
- BGP autonomous system number (ASN) of the cluster. This field can be updated after cluster creation.
- Bgp
Peer []BareConfigs Metal Bgp Peer Config Response - The list of BGP peers that the cluster will connect to. At least one peer must be configured for each control plane node. Control plane nodes will connect to these peers to advertise the control plane VIP. The Services load balancer also uses these peers by default. This field can be updated after cluster creation.
- Load
Balancer BareNode Pool Config Metal Load Balancer Node Pool Config Response - Specifies the node pool running data plane load balancing. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used for data plane load balancing.
- address
Pools List<BareMetal Load Balancer Address Pool Response> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- asn String
- BGP autonomous system number (ASN) of the cluster. This field can be updated after cluster creation.
- bgp
Peer List<BareConfigs Metal Bgp Peer Config Response> - The list of BGP peers that the cluster will connect to. At least one peer must be configured for each control plane node. Control plane nodes will connect to these peers to advertise the control plane VIP. The Services load balancer also uses these peers by default. This field can be updated after cluster creation.
- load
Balancer BareNode Pool Config Metal Load Balancer Node Pool Config Response - Specifies the node pool running data plane load balancing. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used for data plane load balancing.
- address
Pools BareMetal Load Balancer Address Pool Response[] - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- asn string
- BGP autonomous system number (ASN) of the cluster. This field can be updated after cluster creation.
- bgp
Peer BareConfigs Metal Bgp Peer Config Response[] - The list of BGP peers that the cluster will connect to. At least one peer must be configured for each control plane node. Control plane nodes will connect to these peers to advertise the control plane VIP. The Services load balancer also uses these peers by default. This field can be updated after cluster creation.
- load
Balancer BareNode Pool Config Metal Load Balancer Node Pool Config Response - Specifies the node pool running data plane load balancing. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used for data plane load balancing.
- address_
pools Sequence[BareMetal Load Balancer Address Pool Response] - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- asn str
- BGP autonomous system number (ASN) of the cluster. This field can be updated after cluster creation.
- bgp_
peer_ Sequence[Bareconfigs Metal Bgp Peer Config Response] - The list of BGP peers that the cluster will connect to. At least one peer must be configured for each control plane node. Control plane nodes will connect to these peers to advertise the control plane VIP. The Services load balancer also uses these peers by default. This field can be updated after cluster creation.
- load_
balancer_ Barenode_ pool_ config Metal Load Balancer Node Pool Config Response - Specifies the node pool running data plane load balancing. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used for data plane load balancing.
- address
Pools List<Property Map> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- asn String
- BGP autonomous system number (ASN) of the cluster. This field can be updated after cluster creation.
- bgp
Peer List<Property Map>Configs - The list of BGP peers that the cluster will connect to. At least one peer must be configured for each control plane node. Control plane nodes will connect to these peers to advertise the control plane VIP. The Services load balancer also uses these peers by default. This field can be updated after cluster creation.
- load
Balancer Property MapNode Pool Config - Specifies the node pool running data plane load balancing. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used for data plane load balancing.
BareMetalBgpPeerConfig, BareMetalBgpPeerConfigArgs
- Asn string
- BGP autonomous system number (ASN) for the network that contains the external peer device.
- Ip
Address string - The IP address of the external peer device.
- Control
Plane List<string>Nodes - The IP address of the control plane node that connects to the external peer. If you don't specify any control plane nodes, all control plane nodes can connect to the external peer. If you specify one or more IP addresses, only the nodes specified participate in peering sessions.
- Asn string
- BGP autonomous system number (ASN) for the network that contains the external peer device.
- Ip
Address string - The IP address of the external peer device.
- Control
Plane []stringNodes - The IP address of the control plane node that connects to the external peer. If you don't specify any control plane nodes, all control plane nodes can connect to the external peer. If you specify one or more IP addresses, only the nodes specified participate in peering sessions.
- asn String
- BGP autonomous system number (ASN) for the network that contains the external peer device.
- ip
Address String - The IP address of the external peer device.
- control
Plane List<String>Nodes - The IP address of the control plane node that connects to the external peer. If you don't specify any control plane nodes, all control plane nodes can connect to the external peer. If you specify one or more IP addresses, only the nodes specified participate in peering sessions.
- asn string
- BGP autonomous system number (ASN) for the network that contains the external peer device.
- ip
Address string - The IP address of the external peer device.
- control
Plane string[]Nodes - The IP address of the control plane node that connects to the external peer. If you don't specify any control plane nodes, all control plane nodes can connect to the external peer. If you specify one or more IP addresses, only the nodes specified participate in peering sessions.
- asn str
- BGP autonomous system number (ASN) for the network that contains the external peer device.
- ip_
address str - The IP address of the external peer device.
- control_
plane_ Sequence[str]nodes - The IP address of the control plane node that connects to the external peer. If you don't specify any control plane nodes, all control plane nodes can connect to the external peer. If you specify one or more IP addresses, only the nodes specified participate in peering sessions.
- asn String
- BGP autonomous system number (ASN) for the network that contains the external peer device.
- ip
Address String - The IP address of the external peer device.
- control
Plane List<String>Nodes - The IP address of the control plane node that connects to the external peer. If you don't specify any control plane nodes, all control plane nodes can connect to the external peer. If you specify one or more IP addresses, only the nodes specified participate in peering sessions.
BareMetalBgpPeerConfigResponse, BareMetalBgpPeerConfigResponseArgs
- Asn string
- BGP autonomous system number (ASN) for the network that contains the external peer device.
- Control
Plane List<string>Nodes - The IP address of the control plane node that connects to the external peer. If you don't specify any control plane nodes, all control plane nodes can connect to the external peer. If you specify one or more IP addresses, only the nodes specified participate in peering sessions.
- Ip
Address string - The IP address of the external peer device.
- Asn string
- BGP autonomous system number (ASN) for the network that contains the external peer device.
- Control
Plane []stringNodes - The IP address of the control plane node that connects to the external peer. If you don't specify any control plane nodes, all control plane nodes can connect to the external peer. If you specify one or more IP addresses, only the nodes specified participate in peering sessions.
- Ip
Address string - The IP address of the external peer device.
- asn String
- BGP autonomous system number (ASN) for the network that contains the external peer device.
- control
Plane List<String>Nodes - The IP address of the control plane node that connects to the external peer. If you don't specify any control plane nodes, all control plane nodes can connect to the external peer. If you specify one or more IP addresses, only the nodes specified participate in peering sessions.
- ip
Address String - The IP address of the external peer device.
- asn string
- BGP autonomous system number (ASN) for the network that contains the external peer device.
- control
Plane string[]Nodes - The IP address of the control plane node that connects to the external peer. If you don't specify any control plane nodes, all control plane nodes can connect to the external peer. If you specify one or more IP addresses, only the nodes specified participate in peering sessions.
- ip
Address string - The IP address of the external peer device.
- asn str
- BGP autonomous system number (ASN) for the network that contains the external peer device.
- control_
plane_ Sequence[str]nodes - The IP address of the control plane node that connects to the external peer. If you don't specify any control plane nodes, all control plane nodes can connect to the external peer. If you specify one or more IP addresses, only the nodes specified participate in peering sessions.
- ip_
address str - The IP address of the external peer device.
- asn String
- BGP autonomous system number (ASN) for the network that contains the external peer device.
- control
Plane List<String>Nodes - The IP address of the control plane node that connects to the external peer. If you don't specify any control plane nodes, all control plane nodes can connect to the external peer. If you specify one or more IP addresses, only the nodes specified participate in peering sessions.
- ip
Address String - The IP address of the external peer device.
BareMetalClusterOperationsConfig, BareMetalClusterOperationsConfigArgs
- Enable
Application boolLogs - Whether collection of application logs/metrics should be enabled (in addition to system logs/metrics).
- Enable
Application boolLogs - Whether collection of application logs/metrics should be enabled (in addition to system logs/metrics).
- enable
Application BooleanLogs - Whether collection of application logs/metrics should be enabled (in addition to system logs/metrics).
- enable
Application booleanLogs - Whether collection of application logs/metrics should be enabled (in addition to system logs/metrics).
- enable_
application_ boollogs - Whether collection of application logs/metrics should be enabled (in addition to system logs/metrics).
- enable
Application BooleanLogs - Whether collection of application logs/metrics should be enabled (in addition to system logs/metrics).
BareMetalClusterOperationsConfigResponse, BareMetalClusterOperationsConfigResponseArgs
- Enable
Application boolLogs - Whether collection of application logs/metrics should be enabled (in addition to system logs/metrics).
- Enable
Application boolLogs - Whether collection of application logs/metrics should be enabled (in addition to system logs/metrics).
- enable
Application BooleanLogs - Whether collection of application logs/metrics should be enabled (in addition to system logs/metrics).
- enable
Application booleanLogs - Whether collection of application logs/metrics should be enabled (in addition to system logs/metrics).
- enable_
application_ boollogs - Whether collection of application logs/metrics should be enabled (in addition to system logs/metrics).
- enable
Application BooleanLogs - Whether collection of application logs/metrics should be enabled (in addition to system logs/metrics).
BareMetalClusterUpgradePolicy, BareMetalClusterUpgradePolicyArgs
- Policy
Pulumi.
Google Native. Gkeonprem. V1. Bare Metal Cluster Upgrade Policy Policy - Specifies which upgrade policy to use.
- Policy
Bare
Metal Cluster Upgrade Policy Policy - Specifies which upgrade policy to use.
- policy
Bare
Metal Cluster Upgrade Policy Policy - Specifies which upgrade policy to use.
- policy
Bare
Metal Cluster Upgrade Policy Policy - Specifies which upgrade policy to use.
- policy
Bare
Metal Cluster Upgrade Policy Policy - Specifies which upgrade policy to use.
- policy "NODE_POOL_POLICY_UNSPECIFIED" | "SERIAL" | "CONCURRENT"
- Specifies which upgrade policy to use.
BareMetalClusterUpgradePolicyPolicy, BareMetalClusterUpgradePolicyPolicyArgs
- Node
Pool Policy Unspecified - NODE_POOL_POLICY_UNSPECIFIEDNo upgrade policy selected.
- Serial
- SERIALUpgrade worker node pools sequentially.
- Concurrent
- CONCURRENTUpgrade all worker node pools in parallel.
- Bare
Metal Cluster Upgrade Policy Policy Node Pool Policy Unspecified - NODE_POOL_POLICY_UNSPECIFIEDNo upgrade policy selected.
- Bare
Metal Cluster Upgrade Policy Policy Serial - SERIALUpgrade worker node pools sequentially.
- Bare
Metal Cluster Upgrade Policy Policy Concurrent - CONCURRENTUpgrade all worker node pools in parallel.
- Node
Pool Policy Unspecified - NODE_POOL_POLICY_UNSPECIFIEDNo upgrade policy selected.
- Serial
- SERIALUpgrade worker node pools sequentially.
- Concurrent
- CONCURRENTUpgrade all worker node pools in parallel.
- Node
Pool Policy Unspecified - NODE_POOL_POLICY_UNSPECIFIEDNo upgrade policy selected.
- Serial
- SERIALUpgrade worker node pools sequentially.
- Concurrent
- CONCURRENTUpgrade all worker node pools in parallel.
- NODE_POOL_POLICY_UNSPECIFIED
- NODE_POOL_POLICY_UNSPECIFIEDNo upgrade policy selected.
- SERIAL
- SERIALUpgrade worker node pools sequentially.
- CONCURRENT
- CONCURRENTUpgrade all worker node pools in parallel.
- "NODE_POOL_POLICY_UNSPECIFIED"
- NODE_POOL_POLICY_UNSPECIFIEDNo upgrade policy selected.
- "SERIAL"
- SERIALUpgrade worker node pools sequentially.
- "CONCURRENT"
- CONCURRENTUpgrade all worker node pools in parallel.
BareMetalClusterUpgradePolicyResponse, BareMetalClusterUpgradePolicyResponseArgs
- Policy string
- Specifies which upgrade policy to use.
- Policy string
- Specifies which upgrade policy to use.
- policy String
- Specifies which upgrade policy to use.
- policy string
- Specifies which upgrade policy to use.
- policy str
- Specifies which upgrade policy to use.
- policy String
- Specifies which upgrade policy to use.
BareMetalControlPlaneConfig, BareMetalControlPlaneConfigArgs
- Control
Plane Pulumi.Node Pool Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Control Plane Node Pool Config - Configures the node pool running the control plane.
- Api
Server List<Pulumi.Args Google Native. Gkeonprem. V1. Inputs. Bare Metal Api Server Argument> - Customizes the default API server args. Only a subset of customized flags are supported. For the exact format, refer to the API server documentation.
- Control
Plane BareNode Pool Config Metal Control Plane Node Pool Config - Configures the node pool running the control plane.
- Api
Server []BareArgs Metal Api Server Argument - Customizes the default API server args. Only a subset of customized flags are supported. For the exact format, refer to the API server documentation.
- control
Plane BareNode Pool Config Metal Control Plane Node Pool Config - Configures the node pool running the control plane.
- api
Server List<BareArgs Metal Api Server Argument> - Customizes the default API server args. Only a subset of customized flags are supported. For the exact format, refer to the API server documentation.
- control
Plane BareNode Pool Config Metal Control Plane Node Pool Config - Configures the node pool running the control plane.
- api
Server BareArgs Metal Api Server Argument[] - Customizes the default API server args. Only a subset of customized flags are supported. For the exact format, refer to the API server documentation.
- control_
plane_ Barenode_ pool_ config Metal Control Plane Node Pool Config - Configures the node pool running the control plane.
- api_
server_ Sequence[Bareargs Metal Api Server Argument] - Customizes the default API server args. Only a subset of customized flags are supported. For the exact format, refer to the API server documentation.
- control
Plane Property MapNode Pool Config - Configures the node pool running the control plane.
- api
Server List<Property Map>Args - Customizes the default API server args. Only a subset of customized flags are supported. For the exact format, refer to the API server documentation.
BareMetalControlPlaneConfigResponse, BareMetalControlPlaneConfigResponseArgs
- Api
Server List<Pulumi.Args Google Native. Gkeonprem. V1. Inputs. Bare Metal Api Server Argument Response> - Customizes the default API server args. Only a subset of customized flags are supported. For the exact format, refer to the API server documentation.
- Control
Plane Pulumi.Node Pool Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Control Plane Node Pool Config Response - Configures the node pool running the control plane.
- Api
Server []BareArgs Metal Api Server Argument Response - Customizes the default API server args. Only a subset of customized flags are supported. For the exact format, refer to the API server documentation.
- Control
Plane BareNode Pool Config Metal Control Plane Node Pool Config Response - Configures the node pool running the control plane.
- api
Server List<BareArgs Metal Api Server Argument Response> - Customizes the default API server args. Only a subset of customized flags are supported. For the exact format, refer to the API server documentation.
- control
Plane BareNode Pool Config Metal Control Plane Node Pool Config Response - Configures the node pool running the control plane.
- api
Server BareArgs Metal Api Server Argument Response[] - Customizes the default API server args. Only a subset of customized flags are supported. For the exact format, refer to the API server documentation.
- control
Plane BareNode Pool Config Metal Control Plane Node Pool Config Response - Configures the node pool running the control plane.
- api_
server_ Sequence[Bareargs Metal Api Server Argument Response] - Customizes the default API server args. Only a subset of customized flags are supported. For the exact format, refer to the API server documentation.
- control_
plane_ Barenode_ pool_ config Metal Control Plane Node Pool Config Response - Configures the node pool running the control plane.
- api
Server List<Property Map>Args - Customizes the default API server args. Only a subset of customized flags are supported. For the exact format, refer to the API server documentation.
- control
Plane Property MapNode Pool Config - Configures the node pool running the control plane.
BareMetalControlPlaneNodePoolConfig, BareMetalControlPlaneNodePoolConfigArgs
- Node
Pool Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Node Pool Config - The generic configuration for a node pool running the control plane.
- Node
Pool BareConfig Metal Node Pool Config - The generic configuration for a node pool running the control plane.
- node
Pool BareConfig Metal Node Pool Config - The generic configuration for a node pool running the control plane.
- node
Pool BareConfig Metal Node Pool Config - The generic configuration for a node pool running the control plane.
- node_
pool_ Bareconfig Metal Node Pool Config - The generic configuration for a node pool running the control plane.
- node
Pool Property MapConfig - The generic configuration for a node pool running the control plane.
BareMetalControlPlaneNodePoolConfigResponse, BareMetalControlPlaneNodePoolConfigResponseArgs
- Node
Pool Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Node Pool Config Response - The generic configuration for a node pool running the control plane.
- Node
Pool BareConfig Metal Node Pool Config Response - The generic configuration for a node pool running the control plane.
- node
Pool BareConfig Metal Node Pool Config Response - The generic configuration for a node pool running the control plane.
- node
Pool BareConfig Metal Node Pool Config Response - The generic configuration for a node pool running the control plane.
- node_
pool_ Bareconfig Metal Node Pool Config Response - The generic configuration for a node pool running the control plane.
- node
Pool Property MapConfig - The generic configuration for a node pool running the control plane.
BareMetalDrainedMachineResponse, BareMetalDrainedMachineResponseArgs
- Node
Ip string - Drained machine IP address.
- Node
Ip string - Drained machine IP address.
- node
Ip String - Drained machine IP address.
- node
Ip string - Drained machine IP address.
- node_
ip str - Drained machine IP address.
- node
Ip String - Drained machine IP address.
BareMetalDrainingMachineResponse, BareMetalDrainingMachineResponseArgs
BareMetalIslandModeCidrConfig, BareMetalIslandModeCidrConfigArgs
- Pod
Address List<string>Cidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field cannot be changed after creation.
- Service
Address List<string>Cidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field is mutable after creation starting with version 1.15.
- Pod
Address []stringCidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field cannot be changed after creation.
- Service
Address []stringCidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field is mutable after creation starting with version 1.15.
- pod
Address List<String>Cidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field cannot be changed after creation.
- service
Address List<String>Cidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field is mutable after creation starting with version 1.15.
- pod
Address string[]Cidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field cannot be changed after creation.
- service
Address string[]Cidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field is mutable after creation starting with version 1.15.
- pod_
address_ Sequence[str]cidr_ blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field cannot be changed after creation.
- service_
address_ Sequence[str]cidr_ blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field is mutable after creation starting with version 1.15.
- pod
Address List<String>Cidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field cannot be changed after creation.
- service
Address List<String>Cidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field is mutable after creation starting with version 1.15.
BareMetalIslandModeCidrConfigResponse, BareMetalIslandModeCidrConfigResponseArgs
- Pod
Address List<string>Cidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field cannot be changed after creation.
- Service
Address List<string>Cidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field is mutable after creation starting with version 1.15.
- Pod
Address []stringCidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field cannot be changed after creation.
- Service
Address []stringCidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field is mutable after creation starting with version 1.15.
- pod
Address List<String>Cidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field cannot be changed after creation.
- service
Address List<String>Cidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field is mutable after creation starting with version 1.15.
- pod
Address string[]Cidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field cannot be changed after creation.
- service
Address string[]Cidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field is mutable after creation starting with version 1.15.
- pod_
address_ Sequence[str]cidr_ blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field cannot be changed after creation.
- service_
address_ Sequence[str]cidr_ blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field is mutable after creation starting with version 1.15.
- pod
Address List<String>Cidr Blocks - All pods in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field cannot be changed after creation.
- service
Address List<String>Cidr Blocks - All services in the cluster are assigned an RFC1918 IPv4 address from these ranges. This field is mutable after creation starting with version 1.15.
BareMetalKubeletConfig, BareMetalKubeletConfigArgs
- Registry
Burst int - The maximum size of bursty pulls, temporarily allows pulls to burst to this number, while still not exceeding registry_pull_qps. The value must not be a negative number. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 10.
- Registry
Pull intQps - The limit of registry pulls per second. Setting this value to 0 means no limit. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 5.
- Serialize
Image boolPulls Disabled - Prevents the Kubelet from pulling multiple images at a time. We recommend not changing the default value on nodes that run docker daemon with version < 1.9 or an Another Union File System (Aufs) storage backend. Issue https://github.com/kubernetes/kubernetes/issues/10959 has more details.
- Registry
Burst int - The maximum size of bursty pulls, temporarily allows pulls to burst to this number, while still not exceeding registry_pull_qps. The value must not be a negative number. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 10.
- Registry
Pull intQps - The limit of registry pulls per second. Setting this value to 0 means no limit. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 5.
- Serialize
Image boolPulls Disabled - Prevents the Kubelet from pulling multiple images at a time. We recommend not changing the default value on nodes that run docker daemon with version < 1.9 or an Another Union File System (Aufs) storage backend. Issue https://github.com/kubernetes/kubernetes/issues/10959 has more details.
- registry
Burst Integer - The maximum size of bursty pulls, temporarily allows pulls to burst to this number, while still not exceeding registry_pull_qps. The value must not be a negative number. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 10.
- registry
Pull IntegerQps - The limit of registry pulls per second. Setting this value to 0 means no limit. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 5.
- serialize
Image BooleanPulls Disabled - Prevents the Kubelet from pulling multiple images at a time. We recommend not changing the default value on nodes that run docker daemon with version < 1.9 or an Another Union File System (Aufs) storage backend. Issue https://github.com/kubernetes/kubernetes/issues/10959 has more details.
- registry
Burst number - The maximum size of bursty pulls, temporarily allows pulls to burst to this number, while still not exceeding registry_pull_qps. The value must not be a negative number. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 10.
- registry
Pull numberQps - The limit of registry pulls per second. Setting this value to 0 means no limit. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 5.
- serialize
Image booleanPulls Disabled - Prevents the Kubelet from pulling multiple images at a time. We recommend not changing the default value on nodes that run docker daemon with version < 1.9 or an Another Union File System (Aufs) storage backend. Issue https://github.com/kubernetes/kubernetes/issues/10959 has more details.
- registry_
burst int - The maximum size of bursty pulls, temporarily allows pulls to burst to this number, while still not exceeding registry_pull_qps. The value must not be a negative number. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 10.
- registry_
pull_ intqps - The limit of registry pulls per second. Setting this value to 0 means no limit. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 5.
- serialize_
image_ boolpulls_ disabled - Prevents the Kubelet from pulling multiple images at a time. We recommend not changing the default value on nodes that run docker daemon with version < 1.9 or an Another Union File System (Aufs) storage backend. Issue https://github.com/kubernetes/kubernetes/issues/10959 has more details.
- registry
Burst Number - The maximum size of bursty pulls, temporarily allows pulls to burst to this number, while still not exceeding registry_pull_qps. The value must not be a negative number. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 10.
- registry
Pull NumberQps - The limit of registry pulls per second. Setting this value to 0 means no limit. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 5.
- serialize
Image BooleanPulls Disabled - Prevents the Kubelet from pulling multiple images at a time. We recommend not changing the default value on nodes that run docker daemon with version < 1.9 or an Another Union File System (Aufs) storage backend. Issue https://github.com/kubernetes/kubernetes/issues/10959 has more details.
BareMetalKubeletConfigResponse, BareMetalKubeletConfigResponseArgs
- Registry
Burst int - The maximum size of bursty pulls, temporarily allows pulls to burst to this number, while still not exceeding registry_pull_qps. The value must not be a negative number. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 10.
- Registry
Pull intQps - The limit of registry pulls per second. Setting this value to 0 means no limit. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 5.
- Serialize
Image boolPulls Disabled - Prevents the Kubelet from pulling multiple images at a time. We recommend not changing the default value on nodes that run docker daemon with version < 1.9 or an Another Union File System (Aufs) storage backend. Issue https://github.com/kubernetes/kubernetes/issues/10959 has more details.
- Registry
Burst int - The maximum size of bursty pulls, temporarily allows pulls to burst to this number, while still not exceeding registry_pull_qps. The value must not be a negative number. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 10.
- Registry
Pull intQps - The limit of registry pulls per second. Setting this value to 0 means no limit. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 5.
- Serialize
Image boolPulls Disabled - Prevents the Kubelet from pulling multiple images at a time. We recommend not changing the default value on nodes that run docker daemon with version < 1.9 or an Another Union File System (Aufs) storage backend. Issue https://github.com/kubernetes/kubernetes/issues/10959 has more details.
- registry
Burst Integer - The maximum size of bursty pulls, temporarily allows pulls to burst to this number, while still not exceeding registry_pull_qps. The value must not be a negative number. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 10.
- registry
Pull IntegerQps - The limit of registry pulls per second. Setting this value to 0 means no limit. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 5.
- serialize
Image BooleanPulls Disabled - Prevents the Kubelet from pulling multiple images at a time. We recommend not changing the default value on nodes that run docker daemon with version < 1.9 or an Another Union File System (Aufs) storage backend. Issue https://github.com/kubernetes/kubernetes/issues/10959 has more details.
- registry
Burst number - The maximum size of bursty pulls, temporarily allows pulls to burst to this number, while still not exceeding registry_pull_qps. The value must not be a negative number. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 10.
- registry
Pull numberQps - The limit of registry pulls per second. Setting this value to 0 means no limit. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 5.
- serialize
Image booleanPulls Disabled - Prevents the Kubelet from pulling multiple images at a time. We recommend not changing the default value on nodes that run docker daemon with version < 1.9 or an Another Union File System (Aufs) storage backend. Issue https://github.com/kubernetes/kubernetes/issues/10959 has more details.
- registry_
burst int - The maximum size of bursty pulls, temporarily allows pulls to burst to this number, while still not exceeding registry_pull_qps. The value must not be a negative number. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 10.
- registry_
pull_ intqps - The limit of registry pulls per second. Setting this value to 0 means no limit. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 5.
- serialize_
image_ boolpulls_ disabled - Prevents the Kubelet from pulling multiple images at a time. We recommend not changing the default value on nodes that run docker daemon with version < 1.9 or an Another Union File System (Aufs) storage backend. Issue https://github.com/kubernetes/kubernetes/issues/10959 has more details.
- registry
Burst Number - The maximum size of bursty pulls, temporarily allows pulls to burst to this number, while still not exceeding registry_pull_qps. The value must not be a negative number. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 10.
- registry
Pull NumberQps - The limit of registry pulls per second. Setting this value to 0 means no limit. Updating this field may impact scalability by changing the amount of traffic produced by image pulls. Defaults to 5.
- serialize
Image BooleanPulls Disabled - Prevents the Kubelet from pulling multiple images at a time. We recommend not changing the default value on nodes that run docker daemon with version < 1.9 or an Another Union File System (Aufs) storage backend. Issue https://github.com/kubernetes/kubernetes/issues/10959 has more details.
BareMetalLoadBalancerAddressPool, BareMetalLoadBalancerAddressPoolArgs
- Addresses List<string>
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- Pool string
- The name of the address pool.
- Avoid
Buggy boolIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- Manual
Assign bool - If true, prevent IP addresses from being automatically assigned.
- Addresses []string
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- Pool string
- The name of the address pool.
- Avoid
Buggy boolIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- Manual
Assign bool - If true, prevent IP addresses from being automatically assigned.
- addresses List<String>
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- pool String
- The name of the address pool.
- avoid
Buggy BooleanIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- manual
Assign Boolean - If true, prevent IP addresses from being automatically assigned.
- addresses string[]
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- pool string
- The name of the address pool.
- avoid
Buggy booleanIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- manual
Assign boolean - If true, prevent IP addresses from being automatically assigned.
- addresses Sequence[str]
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- pool str
- The name of the address pool.
- avoid_
buggy_ boolips - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- manual_
assign bool - If true, prevent IP addresses from being automatically assigned.
- addresses List<String>
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- pool String
- The name of the address pool.
- avoid
Buggy BooleanIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- manual
Assign Boolean - If true, prevent IP addresses from being automatically assigned.
BareMetalLoadBalancerAddressPoolResponse, BareMetalLoadBalancerAddressPoolResponseArgs
- Addresses List<string>
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- Avoid
Buggy boolIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- Manual
Assign bool - If true, prevent IP addresses from being automatically assigned.
- Pool string
- The name of the address pool.
- Addresses []string
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- Avoid
Buggy boolIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- Manual
Assign bool - If true, prevent IP addresses from being automatically assigned.
- Pool string
- The name of the address pool.
- addresses List<String>
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- avoid
Buggy BooleanIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- manual
Assign Boolean - If true, prevent IP addresses from being automatically assigned.
- pool String
- The name of the address pool.
- addresses string[]
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- avoid
Buggy booleanIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- manual
Assign boolean - If true, prevent IP addresses from being automatically assigned.
- pool string
- The name of the address pool.
- addresses Sequence[str]
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- avoid_
buggy_ boolips - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- manual_
assign bool - If true, prevent IP addresses from being automatically assigned.
- pool str
- The name of the address pool.
- addresses List<String>
- The addresses that are part of this pool. Each address must be either in the CIDR form (1.2.3.0/24) or range form (1.2.3.1-1.2.3.5).
- avoid
Buggy BooleanIps - If true, avoid using IPs ending in .0 or .255. This avoids buggy consumer devices mistakenly dropping IPv4 traffic for those special IP addresses.
- manual
Assign Boolean - If true, prevent IP addresses from being automatically assigned.
- pool String
- The name of the address pool.
BareMetalLoadBalancerConfig, BareMetalLoadBalancerConfigArgs
- Bgp
Lb Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Bgp Lb Config - Configuration for BGP typed load balancers. When set network_config.advanced_networking is automatically set to true.
- Manual
Lb Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Manual Lb Config - Manually configured load balancers.
- Metal
Lb Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Metal Lb Config - Configuration for MetalLB load balancers.
- Port
Config Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Port Config - Configures the ports that the load balancer will listen on.
- Vip
Config Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Vip Config - The VIPs used by the load balancer.
- Bgp
Lb BareConfig Metal Bgp Lb Config - Configuration for BGP typed load balancers. When set network_config.advanced_networking is automatically set to true.
- Manual
Lb BareConfig Metal Manual Lb Config - Manually configured load balancers.
- Metal
Lb BareConfig Metal Metal Lb Config - Configuration for MetalLB load balancers.
- Port
Config BareMetal Port Config - Configures the ports that the load balancer will listen on.
- Vip
Config BareMetal Vip Config - The VIPs used by the load balancer.
- bgp
Lb BareConfig Metal Bgp Lb Config - Configuration for BGP typed load balancers. When set network_config.advanced_networking is automatically set to true.
- manual
Lb BareConfig Metal Manual Lb Config - Manually configured load balancers.
- metal
Lb BareConfig Metal Metal Lb Config - Configuration for MetalLB load balancers.
- port
Config BareMetal Port Config - Configures the ports that the load balancer will listen on.
- vip
Config BareMetal Vip Config - The VIPs used by the load balancer.
- bgp
Lb BareConfig Metal Bgp Lb Config - Configuration for BGP typed load balancers. When set network_config.advanced_networking is automatically set to true.
- manual
Lb BareConfig Metal Manual Lb Config - Manually configured load balancers.
- metal
Lb BareConfig Metal Metal Lb Config - Configuration for MetalLB load balancers.
- port
Config BareMetal Port Config - Configures the ports that the load balancer will listen on.
- vip
Config BareMetal Vip Config - The VIPs used by the load balancer.
- bgp_
lb_ Bareconfig Metal Bgp Lb Config - Configuration for BGP typed load balancers. When set network_config.advanced_networking is automatically set to true.
- manual_
lb_ Bareconfig Metal Manual Lb Config - Manually configured load balancers.
- metal_
lb_ Bareconfig Metal Metal Lb Config - Configuration for MetalLB load balancers.
- port_
config BareMetal Port Config - Configures the ports that the load balancer will listen on.
- vip_
config BareMetal Vip Config - The VIPs used by the load balancer.
- bgp
Lb Property MapConfig - Configuration for BGP typed load balancers. When set network_config.advanced_networking is automatically set to true.
- manual
Lb Property MapConfig - Manually configured load balancers.
- metal
Lb Property MapConfig - Configuration for MetalLB load balancers.
- port
Config Property Map - Configures the ports that the load balancer will listen on.
- vip
Config Property Map - The VIPs used by the load balancer.
BareMetalLoadBalancerConfigResponse, BareMetalLoadBalancerConfigResponseArgs
- Bgp
Lb Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Bgp Lb Config Response - Configuration for BGP typed load balancers. When set network_config.advanced_networking is automatically set to true.
- Manual
Lb Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Manual Lb Config Response - Manually configured load balancers.
- Metal
Lb Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Metal Lb Config Response - Configuration for MetalLB load balancers.
- Port
Config Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Port Config Response - Configures the ports that the load balancer will listen on.
- Vip
Config Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Vip Config Response - The VIPs used by the load balancer.
- Bgp
Lb BareConfig Metal Bgp Lb Config Response - Configuration for BGP typed load balancers. When set network_config.advanced_networking is automatically set to true.
- Manual
Lb BareConfig Metal Manual Lb Config Response - Manually configured load balancers.
- Metal
Lb BareConfig Metal Metal Lb Config Response - Configuration for MetalLB load balancers.
- Port
Config BareMetal Port Config Response - Configures the ports that the load balancer will listen on.
- Vip
Config BareMetal Vip Config Response - The VIPs used by the load balancer.
- bgp
Lb BareConfig Metal Bgp Lb Config Response - Configuration for BGP typed load balancers. When set network_config.advanced_networking is automatically set to true.
- manual
Lb BareConfig Metal Manual Lb Config Response - Manually configured load balancers.
- metal
Lb BareConfig Metal Metal Lb Config Response - Configuration for MetalLB load balancers.
- port
Config BareMetal Port Config Response - Configures the ports that the load balancer will listen on.
- vip
Config BareMetal Vip Config Response - The VIPs used by the load balancer.
- bgp
Lb BareConfig Metal Bgp Lb Config Response - Configuration for BGP typed load balancers. When set network_config.advanced_networking is automatically set to true.
- manual
Lb BareConfig Metal Manual Lb Config Response - Manually configured load balancers.
- metal
Lb BareConfig Metal Metal Lb Config Response - Configuration for MetalLB load balancers.
- port
Config BareMetal Port Config Response - Configures the ports that the load balancer will listen on.
- vip
Config BareMetal Vip Config Response - The VIPs used by the load balancer.
- bgp_
lb_ Bareconfig Metal Bgp Lb Config Response - Configuration for BGP typed load balancers. When set network_config.advanced_networking is automatically set to true.
- manual_
lb_ Bareconfig Metal Manual Lb Config Response - Manually configured load balancers.
- metal_
lb_ Bareconfig Metal Metal Lb Config Response - Configuration for MetalLB load balancers.
- port_
config BareMetal Port Config Response - Configures the ports that the load balancer will listen on.
- vip_
config BareMetal Vip Config Response - The VIPs used by the load balancer.
- bgp
Lb Property MapConfig - Configuration for BGP typed load balancers. When set network_config.advanced_networking is automatically set to true.
- manual
Lb Property MapConfig - Manually configured load balancers.
- metal
Lb Property MapConfig - Configuration for MetalLB load balancers.
- port
Config Property Map - Configures the ports that the load balancer will listen on.
- vip
Config Property Map - The VIPs used by the load balancer.
BareMetalLoadBalancerNodePoolConfig, BareMetalLoadBalancerNodePoolConfigArgs
- Node
Pool Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Node Pool Config - The generic configuration for a node pool running a load balancer.
- Node
Pool BareConfig Metal Node Pool Config - The generic configuration for a node pool running a load balancer.
- node
Pool BareConfig Metal Node Pool Config - The generic configuration for a node pool running a load balancer.
- node
Pool BareConfig Metal Node Pool Config - The generic configuration for a node pool running a load balancer.
- node_
pool_ Bareconfig Metal Node Pool Config - The generic configuration for a node pool running a load balancer.
- node
Pool Property MapConfig - The generic configuration for a node pool running a load balancer.
BareMetalLoadBalancerNodePoolConfigResponse, BareMetalLoadBalancerNodePoolConfigResponseArgs
- Node
Pool Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Node Pool Config Response - The generic configuration for a node pool running a load balancer.
- Node
Pool BareConfig Metal Node Pool Config Response - The generic configuration for a node pool running a load balancer.
- node
Pool BareConfig Metal Node Pool Config Response - The generic configuration for a node pool running a load balancer.
- node
Pool BareConfig Metal Node Pool Config Response - The generic configuration for a node pool running a load balancer.
- node_
pool_ Bareconfig Metal Node Pool Config Response - The generic configuration for a node pool running a load balancer.
- node
Pool Property MapConfig - The generic configuration for a node pool running a load balancer.
BareMetalLvpConfig, BareMetalLvpConfigArgs
- Path string
- The host machine path.
- Storage
Class string - The StorageClass name that PVs will be created with.
- Path string
- The host machine path.
- Storage
Class string - The StorageClass name that PVs will be created with.
- path String
- The host machine path.
- storage
Class String - The StorageClass name that PVs will be created with.
- path string
- The host machine path.
- storage
Class string - The StorageClass name that PVs will be created with.
- path str
- The host machine path.
- storage_
class str - The StorageClass name that PVs will be created with.
- path String
- The host machine path.
- storage
Class String - The StorageClass name that PVs will be created with.
BareMetalLvpConfigResponse, BareMetalLvpConfigResponseArgs
- Path string
- The host machine path.
- Storage
Class string - The StorageClass name that PVs will be created with.
- Path string
- The host machine path.
- Storage
Class string - The StorageClass name that PVs will be created with.
- path String
- The host machine path.
- storage
Class String - The StorageClass name that PVs will be created with.
- path string
- The host machine path.
- storage
Class string - The StorageClass name that PVs will be created with.
- path str
- The host machine path.
- storage_
class str - The StorageClass name that PVs will be created with.
- path String
- The host machine path.
- storage
Class String - The StorageClass name that PVs will be created with.
BareMetalLvpShareConfig, BareMetalLvpShareConfigArgs
- Lvp
Config Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Lvp Config - Defines the machine path and storage class for the LVP Share.
- int
- The number of subdirectories to create under path.
- Lvp
Config BareMetal Lvp Config - Defines the machine path and storage class for the LVP Share.
- int
- The number of subdirectories to create under path.
- lvp
Config BareMetal Lvp Config - Defines the machine path and storage class for the LVP Share.
- Integer
- The number of subdirectories to create under path.
- lvp
Config BareMetal Lvp Config - Defines the machine path and storage class for the LVP Share.
- number
- The number of subdirectories to create under path.
- lvp_
config BareMetal Lvp Config - Defines the machine path and storage class for the LVP Share.
- int
- The number of subdirectories to create under path.
- lvp
Config Property Map - Defines the machine path and storage class for the LVP Share.
- Number
- The number of subdirectories to create under path.
BareMetalLvpShareConfigResponse, BareMetalLvpShareConfigResponseArgs
- Lvp
Config Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Lvp Config Response - Defines the machine path and storage class for the LVP Share.
- int
- The number of subdirectories to create under path.
- Lvp
Config BareMetal Lvp Config Response - Defines the machine path and storage class for the LVP Share.
- int
- The number of subdirectories to create under path.
- lvp
Config BareMetal Lvp Config Response - Defines the machine path and storage class for the LVP Share.
- Integer
- The number of subdirectories to create under path.
- lvp
Config BareMetal Lvp Config Response - Defines the machine path and storage class for the LVP Share.
- number
- The number of subdirectories to create under path.
- lvp_
config BareMetal Lvp Config Response - Defines the machine path and storage class for the LVP Share.
- int
- The number of subdirectories to create under path.
- lvp
Config Property Map - Defines the machine path and storage class for the LVP Share.
- Number
- The number of subdirectories to create under path.
BareMetalMachineDrainStatusResponse, BareMetalMachineDrainStatusResponseArgs
- Drained
Machines List<Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Drained Machine Response> - The list of drained machines.
- Draining
Machines List<Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Draining Machine Response> - The list of draning machines.
- Drained
Machines []BareMetal Drained Machine Response - The list of drained machines.
- Draining
Machines []BareMetal Draining Machine Response - The list of draning machines.
- drained
Machines List<BareMetal Drained Machine Response> - The list of drained machines.
- draining
Machines List<BareMetal Draining Machine Response> - The list of draning machines.
- drained
Machines BareMetal Drained Machine Response[] - The list of drained machines.
- draining
Machines BareMetal Draining Machine Response[] - The list of draning machines.
- drained_
machines Sequence[BareMetal Drained Machine Response] - The list of drained machines.
- draining_
machines Sequence[BareMetal Draining Machine Response] - The list of draning machines.
- drained
Machines List<Property Map> - The list of drained machines.
- draining
Machines List<Property Map> - The list of draning machines.
BareMetalMaintenanceConfig, BareMetalMaintenanceConfigArgs
- Maintenance
Address List<string>Cidr Blocks - All IPv4 address from these ranges will be placed into maintenance mode. Nodes in maintenance mode will be cordoned and drained. When both of these are true, the "baremetal.cluster.gke.io/maintenance" annotation will be set on the node resource.
- Maintenance
Address []stringCidr Blocks - All IPv4 address from these ranges will be placed into maintenance mode. Nodes in maintenance mode will be cordoned and drained. When both of these are true, the "baremetal.cluster.gke.io/maintenance" annotation will be set on the node resource.
- maintenance
Address List<String>Cidr Blocks - All IPv4 address from these ranges will be placed into maintenance mode. Nodes in maintenance mode will be cordoned and drained. When both of these are true, the "baremetal.cluster.gke.io/maintenance" annotation will be set on the node resource.
- maintenance
Address string[]Cidr Blocks - All IPv4 address from these ranges will be placed into maintenance mode. Nodes in maintenance mode will be cordoned and drained. When both of these are true, the "baremetal.cluster.gke.io/maintenance" annotation will be set on the node resource.
- maintenance_
address_ Sequence[str]cidr_ blocks - All IPv4 address from these ranges will be placed into maintenance mode. Nodes in maintenance mode will be cordoned and drained. When both of these are true, the "baremetal.cluster.gke.io/maintenance" annotation will be set on the node resource.
- maintenance
Address List<String>Cidr Blocks - All IPv4 address from these ranges will be placed into maintenance mode. Nodes in maintenance mode will be cordoned and drained. When both of these are true, the "baremetal.cluster.gke.io/maintenance" annotation will be set on the node resource.
BareMetalMaintenanceConfigResponse, BareMetalMaintenanceConfigResponseArgs
- Maintenance
Address List<string>Cidr Blocks - All IPv4 address from these ranges will be placed into maintenance mode. Nodes in maintenance mode will be cordoned and drained. When both of these are true, the "baremetal.cluster.gke.io/maintenance" annotation will be set on the node resource.
- Maintenance
Address []stringCidr Blocks - All IPv4 address from these ranges will be placed into maintenance mode. Nodes in maintenance mode will be cordoned and drained. When both of these are true, the "baremetal.cluster.gke.io/maintenance" annotation will be set on the node resource.
- maintenance
Address List<String>Cidr Blocks - All IPv4 address from these ranges will be placed into maintenance mode. Nodes in maintenance mode will be cordoned and drained. When both of these are true, the "baremetal.cluster.gke.io/maintenance" annotation will be set on the node resource.
- maintenance
Address string[]Cidr Blocks - All IPv4 address from these ranges will be placed into maintenance mode. Nodes in maintenance mode will be cordoned and drained. When both of these are true, the "baremetal.cluster.gke.io/maintenance" annotation will be set on the node resource.
- maintenance_
address_ Sequence[str]cidr_ blocks - All IPv4 address from these ranges will be placed into maintenance mode. Nodes in maintenance mode will be cordoned and drained. When both of these are true, the "baremetal.cluster.gke.io/maintenance" annotation will be set on the node resource.
- maintenance
Address List<String>Cidr Blocks - All IPv4 address from these ranges will be placed into maintenance mode. Nodes in maintenance mode will be cordoned and drained. When both of these are true, the "baremetal.cluster.gke.io/maintenance" annotation will be set on the node resource.
BareMetalMaintenanceStatusResponse, BareMetalMaintenanceStatusResponseArgs
- Machine
Drain Pulumi.Status Google Native. Gkeonprem. V1. Inputs. Bare Metal Machine Drain Status Response - The maintenance status of node machines.
- Machine
Drain BareStatus Metal Machine Drain Status Response - The maintenance status of node machines.
- machine
Drain BareStatus Metal Machine Drain Status Response - The maintenance status of node machines.
- machine
Drain BareStatus Metal Machine Drain Status Response - The maintenance status of node machines.
- machine_
drain_ Barestatus Metal Machine Drain Status Response - The maintenance status of node machines.
- machine
Drain Property MapStatus - The maintenance status of node machines.
BareMetalManualLbConfig, BareMetalManualLbConfigArgs
- Enabled bool
- Whether manual load balancing is enabled.
- Enabled bool
- Whether manual load balancing is enabled.
- enabled Boolean
- Whether manual load balancing is enabled.
- enabled boolean
- Whether manual load balancing is enabled.
- enabled bool
- Whether manual load balancing is enabled.
- enabled Boolean
- Whether manual load balancing is enabled.
BareMetalManualLbConfigResponse, BareMetalManualLbConfigResponseArgs
- Enabled bool
- Whether manual load balancing is enabled.
- Enabled bool
- Whether manual load balancing is enabled.
- enabled Boolean
- Whether manual load balancing is enabled.
- enabled boolean
- Whether manual load balancing is enabled.
- enabled bool
- Whether manual load balancing is enabled.
- enabled Boolean
- Whether manual load balancing is enabled.
BareMetalMetalLbConfig, BareMetalMetalLbConfigArgs
- Address
Pools List<Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Load Balancer Address Pool> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- Load
Balancer Pulumi.Node Pool Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Load Balancer Node Pool Config - Specifies the node pool running the load balancer. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used as the load balancer pool.
- Address
Pools []BareMetal Load Balancer Address Pool - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- Load
Balancer BareNode Pool Config Metal Load Balancer Node Pool Config - Specifies the node pool running the load balancer. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used as the load balancer pool.
- address
Pools List<BareMetal Load Balancer Address Pool> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- load
Balancer BareNode Pool Config Metal Load Balancer Node Pool Config - Specifies the node pool running the load balancer. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used as the load balancer pool.
- address
Pools BareMetal Load Balancer Address Pool[] - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- load
Balancer BareNode Pool Config Metal Load Balancer Node Pool Config - Specifies the node pool running the load balancer. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used as the load balancer pool.
- address_
pools Sequence[BareMetal Load Balancer Address Pool] - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- load_
balancer_ Barenode_ pool_ config Metal Load Balancer Node Pool Config - Specifies the node pool running the load balancer. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used as the load balancer pool.
- address
Pools List<Property Map> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- load
Balancer Property MapNode Pool Config - Specifies the node pool running the load balancer. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used as the load balancer pool.
BareMetalMetalLbConfigResponse, BareMetalMetalLbConfigResponseArgs
- Address
Pools List<Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Load Balancer Address Pool Response> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- Load
Balancer Pulumi.Node Pool Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Load Balancer Node Pool Config Response - Specifies the node pool running the load balancer. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used as the load balancer pool.
- Address
Pools []BareMetal Load Balancer Address Pool Response - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- Load
Balancer BareNode Pool Config Metal Load Balancer Node Pool Config Response - Specifies the node pool running the load balancer. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used as the load balancer pool.
- address
Pools List<BareMetal Load Balancer Address Pool Response> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- load
Balancer BareNode Pool Config Metal Load Balancer Node Pool Config Response - Specifies the node pool running the load balancer. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used as the load balancer pool.
- address
Pools BareMetal Load Balancer Address Pool Response[] - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- load
Balancer BareNode Pool Config Metal Load Balancer Node Pool Config Response - Specifies the node pool running the load balancer. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used as the load balancer pool.
- address_
pools Sequence[BareMetal Load Balancer Address Pool Response] - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- load_
balancer_ Barenode_ pool_ config Metal Load Balancer Node Pool Config Response - Specifies the node pool running the load balancer. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used as the load balancer pool.
- address
Pools List<Property Map> - AddressPools is a list of non-overlapping IP pools used by load balancer typed services. All addresses must be routable to load balancer nodes. IngressVIP must be included in the pools.
- load
Balancer Property MapNode Pool Config - Specifies the node pool running the load balancer. L2 connectivity is required among nodes in this pool. If missing, the control plane node pool is used as the load balancer pool.
BareMetalMultipleNetworkInterfacesConfig, BareMetalMultipleNetworkInterfacesConfigArgs
- Enabled bool
- Whether to enable multiple network interfaces for your pods. When set network_config.advanced_networking is automatically set to true.
- Enabled bool
- Whether to enable multiple network interfaces for your pods. When set network_config.advanced_networking is automatically set to true.
- enabled Boolean
- Whether to enable multiple network interfaces for your pods. When set network_config.advanced_networking is automatically set to true.
- enabled boolean
- Whether to enable multiple network interfaces for your pods. When set network_config.advanced_networking is automatically set to true.
- enabled bool
- Whether to enable multiple network interfaces for your pods. When set network_config.advanced_networking is automatically set to true.
- enabled Boolean
- Whether to enable multiple network interfaces for your pods. When set network_config.advanced_networking is automatically set to true.
BareMetalMultipleNetworkInterfacesConfigResponse, BareMetalMultipleNetworkInterfacesConfigResponseArgs
- Enabled bool
- Whether to enable multiple network interfaces for your pods. When set network_config.advanced_networking is automatically set to true.
- Enabled bool
- Whether to enable multiple network interfaces for your pods. When set network_config.advanced_networking is automatically set to true.
- enabled Boolean
- Whether to enable multiple network interfaces for your pods. When set network_config.advanced_networking is automatically set to true.
- enabled boolean
- Whether to enable multiple network interfaces for your pods. When set network_config.advanced_networking is automatically set to true.
- enabled bool
- Whether to enable multiple network interfaces for your pods. When set network_config.advanced_networking is automatically set to true.
- enabled Boolean
- Whether to enable multiple network interfaces for your pods. When set network_config.advanced_networking is automatically set to true.
BareMetalNetworkConfig, BareMetalNetworkConfigArgs
- Advanced
Networking bool - Enables the use of advanced Anthos networking features, such as Bundled Load Balancing with BGP or the egress NAT gateway. Setting configuration for advanced networking features will automatically set this flag.
- Island
Mode Pulumi.Cidr Google Native. Gkeonprem. V1. Inputs. Bare Metal Island Mode Cidr Config - Configuration for island mode CIDR. In an island-mode network, nodes have unique IP addresses, but pods don't have unique addresses across clusters. This doesn't cause problems because pods in one cluster never directly communicate with pods in another cluster. Instead, there are gateways that mediate between a pod in one cluster and a pod in another cluster.
- Multiple
Network Pulumi.Interfaces Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Multiple Network Interfaces Config - Configuration for multiple network interfaces.
- Sr
Iov Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Sr Iov Config - Configuration for SR-IOV.
- Advanced
Networking bool - Enables the use of advanced Anthos networking features, such as Bundled Load Balancing with BGP or the egress NAT gateway. Setting configuration for advanced networking features will automatically set this flag.
- Island
Mode BareCidr Metal Island Mode Cidr Config - Configuration for island mode CIDR. In an island-mode network, nodes have unique IP addresses, but pods don't have unique addresses across clusters. This doesn't cause problems because pods in one cluster never directly communicate with pods in another cluster. Instead, there are gateways that mediate between a pod in one cluster and a pod in another cluster.
- Multiple
Network BareInterfaces Config Metal Multiple Network Interfaces Config - Configuration for multiple network interfaces.
- Sr
Iov BareConfig Metal Sr Iov Config - Configuration for SR-IOV.
- advanced
Networking Boolean - Enables the use of advanced Anthos networking features, such as Bundled Load Balancing with BGP or the egress NAT gateway. Setting configuration for advanced networking features will automatically set this flag.
- island
Mode BareCidr Metal Island Mode Cidr Config - Configuration for island mode CIDR. In an island-mode network, nodes have unique IP addresses, but pods don't have unique addresses across clusters. This doesn't cause problems because pods in one cluster never directly communicate with pods in another cluster. Instead, there are gateways that mediate between a pod in one cluster and a pod in another cluster.
- multiple
Network BareInterfaces Config Metal Multiple Network Interfaces Config - Configuration for multiple network interfaces.
- sr
Iov BareConfig Metal Sr Iov Config - Configuration for SR-IOV.
- advanced
Networking boolean - Enables the use of advanced Anthos networking features, such as Bundled Load Balancing with BGP or the egress NAT gateway. Setting configuration for advanced networking features will automatically set this flag.
- island
Mode BareCidr Metal Island Mode Cidr Config - Configuration for island mode CIDR. In an island-mode network, nodes have unique IP addresses, but pods don't have unique addresses across clusters. This doesn't cause problems because pods in one cluster never directly communicate with pods in another cluster. Instead, there are gateways that mediate between a pod in one cluster and a pod in another cluster.
- multiple
Network BareInterfaces Config Metal Multiple Network Interfaces Config - Configuration for multiple network interfaces.
- sr
Iov BareConfig Metal Sr Iov Config - Configuration for SR-IOV.
- advanced_
networking bool - Enables the use of advanced Anthos networking features, such as Bundled Load Balancing with BGP or the egress NAT gateway. Setting configuration for advanced networking features will automatically set this flag.
- island_
mode_ Barecidr Metal Island Mode Cidr Config - Configuration for island mode CIDR. In an island-mode network, nodes have unique IP addresses, but pods don't have unique addresses across clusters. This doesn't cause problems because pods in one cluster never directly communicate with pods in another cluster. Instead, there are gateways that mediate between a pod in one cluster and a pod in another cluster.
- multiple_
network_ Bareinterfaces_ config Metal Multiple Network Interfaces Config - Configuration for multiple network interfaces.
- sr_
iov_ Bareconfig Metal Sr Iov Config - Configuration for SR-IOV.
- advanced
Networking Boolean - Enables the use of advanced Anthos networking features, such as Bundled Load Balancing with BGP or the egress NAT gateway. Setting configuration for advanced networking features will automatically set this flag.
- island
Mode Property MapCidr - Configuration for island mode CIDR. In an island-mode network, nodes have unique IP addresses, but pods don't have unique addresses across clusters. This doesn't cause problems because pods in one cluster never directly communicate with pods in another cluster. Instead, there are gateways that mediate between a pod in one cluster and a pod in another cluster.
- multiple
Network Property MapInterfaces Config - Configuration for multiple network interfaces.
- sr
Iov Property MapConfig - Configuration for SR-IOV.
BareMetalNetworkConfigResponse, BareMetalNetworkConfigResponseArgs
- Advanced
Networking bool - Enables the use of advanced Anthos networking features, such as Bundled Load Balancing with BGP or the egress NAT gateway. Setting configuration for advanced networking features will automatically set this flag.
- Island
Mode Pulumi.Cidr Google Native. Gkeonprem. V1. Inputs. Bare Metal Island Mode Cidr Config Response - Configuration for island mode CIDR. In an island-mode network, nodes have unique IP addresses, but pods don't have unique addresses across clusters. This doesn't cause problems because pods in one cluster never directly communicate with pods in another cluster. Instead, there are gateways that mediate between a pod in one cluster and a pod in another cluster.
- Multiple
Network Pulumi.Interfaces Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Multiple Network Interfaces Config Response - Configuration for multiple network interfaces.
- Sr
Iov Pulumi.Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Sr Iov Config Response - Configuration for SR-IOV.
- Advanced
Networking bool - Enables the use of advanced Anthos networking features, such as Bundled Load Balancing with BGP or the egress NAT gateway. Setting configuration for advanced networking features will automatically set this flag.
- Island
Mode BareCidr Metal Island Mode Cidr Config Response - Configuration for island mode CIDR. In an island-mode network, nodes have unique IP addresses, but pods don't have unique addresses across clusters. This doesn't cause problems because pods in one cluster never directly communicate with pods in another cluster. Instead, there are gateways that mediate between a pod in one cluster and a pod in another cluster.
- Multiple
Network BareInterfaces Config Metal Multiple Network Interfaces Config Response - Configuration for multiple network interfaces.
- Sr
Iov BareConfig Metal Sr Iov Config Response - Configuration for SR-IOV.
- advanced
Networking Boolean - Enables the use of advanced Anthos networking features, such as Bundled Load Balancing with BGP or the egress NAT gateway. Setting configuration for advanced networking features will automatically set this flag.
- island
Mode BareCidr Metal Island Mode Cidr Config Response - Configuration for island mode CIDR. In an island-mode network, nodes have unique IP addresses, but pods don't have unique addresses across clusters. This doesn't cause problems because pods in one cluster never directly communicate with pods in another cluster. Instead, there are gateways that mediate between a pod in one cluster and a pod in another cluster.
- multiple
Network BareInterfaces Config Metal Multiple Network Interfaces Config Response - Configuration for multiple network interfaces.
- sr
Iov BareConfig Metal Sr Iov Config Response - Configuration for SR-IOV.
- advanced
Networking boolean - Enables the use of advanced Anthos networking features, such as Bundled Load Balancing with BGP or the egress NAT gateway. Setting configuration for advanced networking features will automatically set this flag.
- island
Mode BareCidr Metal Island Mode Cidr Config Response - Configuration for island mode CIDR. In an island-mode network, nodes have unique IP addresses, but pods don't have unique addresses across clusters. This doesn't cause problems because pods in one cluster never directly communicate with pods in another cluster. Instead, there are gateways that mediate between a pod in one cluster and a pod in another cluster.
- multiple
Network BareInterfaces Config Metal Multiple Network Interfaces Config Response - Configuration for multiple network interfaces.
- sr
Iov BareConfig Metal Sr Iov Config Response - Configuration for SR-IOV.
- advanced_
networking bool - Enables the use of advanced Anthos networking features, such as Bundled Load Balancing with BGP or the egress NAT gateway. Setting configuration for advanced networking features will automatically set this flag.
- island_
mode_ Barecidr Metal Island Mode Cidr Config Response - Configuration for island mode CIDR. In an island-mode network, nodes have unique IP addresses, but pods don't have unique addresses across clusters. This doesn't cause problems because pods in one cluster never directly communicate with pods in another cluster. Instead, there are gateways that mediate between a pod in one cluster and a pod in another cluster.
- multiple_
network_ Bareinterfaces_ config Metal Multiple Network Interfaces Config Response - Configuration for multiple network interfaces.
- sr_
iov_ Bareconfig Metal Sr Iov Config Response - Configuration for SR-IOV.
- advanced
Networking Boolean - Enables the use of advanced Anthos networking features, such as Bundled Load Balancing with BGP or the egress NAT gateway. Setting configuration for advanced networking features will automatically set this flag.
- island
Mode Property MapCidr - Configuration for island mode CIDR. In an island-mode network, nodes have unique IP addresses, but pods don't have unique addresses across clusters. This doesn't cause problems because pods in one cluster never directly communicate with pods in another cluster. Instead, there are gateways that mediate between a pod in one cluster and a pod in another cluster.
- multiple
Network Property MapInterfaces Config - Configuration for multiple network interfaces.
- sr
Iov Property MapConfig - Configuration for SR-IOV.
BareMetalNodeAccessConfig, BareMetalNodeAccessConfigArgs
- Login
User string - LoginUser is the user name used to access node machines. It defaults to "root" if not set.
- Login
User string - LoginUser is the user name used to access node machines. It defaults to "root" if not set.
- login
User String - LoginUser is the user name used to access node machines. It defaults to "root" if not set.
- login
User string - LoginUser is the user name used to access node machines. It defaults to "root" if not set.
- login_
user str - LoginUser is the user name used to access node machines. It defaults to "root" if not set.
- login
User String - LoginUser is the user name used to access node machines. It defaults to "root" if not set.
BareMetalNodeAccessConfigResponse, BareMetalNodeAccessConfigResponseArgs
- Login
User string - LoginUser is the user name used to access node machines. It defaults to "root" if not set.
- Login
User string - LoginUser is the user name used to access node machines. It defaults to "root" if not set.
- login
User String - LoginUser is the user name used to access node machines. It defaults to "root" if not set.
- login
User string - LoginUser is the user name used to access node machines. It defaults to "root" if not set.
- login_
user str - LoginUser is the user name used to access node machines. It defaults to "root" if not set.
- login
User String - LoginUser is the user name used to access node machines. It defaults to "root" if not set.
BareMetalNodeConfig, BareMetalNodeConfigArgs
- Labels Dictionary<string, string>
- The labels assigned to this node. An object containing a list of key/value pairs. The labels here, unioned with the labels set on BareMetalNodePoolConfig are the set of labels that will be applied to the node. If there are any conflicts, the BareMetalNodeConfig labels take precedence. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- Node
Ip string - The default IPv4 address for SSH access and Kubernetes node. Example: 192.168.0.1
- Labels map[string]string
- The labels assigned to this node. An object containing a list of key/value pairs. The labels here, unioned with the labels set on BareMetalNodePoolConfig are the set of labels that will be applied to the node. If there are any conflicts, the BareMetalNodeConfig labels take precedence. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- Node
Ip string - The default IPv4 address for SSH access and Kubernetes node. Example: 192.168.0.1
- labels Map<String,String>
- The labels assigned to this node. An object containing a list of key/value pairs. The labels here, unioned with the labels set on BareMetalNodePoolConfig are the set of labels that will be applied to the node. If there are any conflicts, the BareMetalNodeConfig labels take precedence. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- node
Ip String - The default IPv4 address for SSH access and Kubernetes node. Example: 192.168.0.1
- labels {[key: string]: string}
- The labels assigned to this node. An object containing a list of key/value pairs. The labels here, unioned with the labels set on BareMetalNodePoolConfig are the set of labels that will be applied to the node. If there are any conflicts, the BareMetalNodeConfig labels take precedence. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- node
Ip string - The default IPv4 address for SSH access and Kubernetes node. Example: 192.168.0.1
- labels Mapping[str, str]
- The labels assigned to this node. An object containing a list of key/value pairs. The labels here, unioned with the labels set on BareMetalNodePoolConfig are the set of labels that will be applied to the node. If there are any conflicts, the BareMetalNodeConfig labels take precedence. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- node_
ip str - The default IPv4 address for SSH access and Kubernetes node. Example: 192.168.0.1
- labels Map<String>
- The labels assigned to this node. An object containing a list of key/value pairs. The labels here, unioned with the labels set on BareMetalNodePoolConfig are the set of labels that will be applied to the node. If there are any conflicts, the BareMetalNodeConfig labels take precedence. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- node
Ip String - The default IPv4 address for SSH access and Kubernetes node. Example: 192.168.0.1
BareMetalNodeConfigResponse, BareMetalNodeConfigResponseArgs
- Labels Dictionary<string, string>
- The labels assigned to this node. An object containing a list of key/value pairs. The labels here, unioned with the labels set on BareMetalNodePoolConfig are the set of labels that will be applied to the node. If there are any conflicts, the BareMetalNodeConfig labels take precedence. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- Node
Ip string - The default IPv4 address for SSH access and Kubernetes node. Example: 192.168.0.1
- Labels map[string]string
- The labels assigned to this node. An object containing a list of key/value pairs. The labels here, unioned with the labels set on BareMetalNodePoolConfig are the set of labels that will be applied to the node. If there are any conflicts, the BareMetalNodeConfig labels take precedence. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- Node
Ip string - The default IPv4 address for SSH access and Kubernetes node. Example: 192.168.0.1
- labels Map<String,String>
- The labels assigned to this node. An object containing a list of key/value pairs. The labels here, unioned with the labels set on BareMetalNodePoolConfig are the set of labels that will be applied to the node. If there are any conflicts, the BareMetalNodeConfig labels take precedence. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- node
Ip String - The default IPv4 address for SSH access and Kubernetes node. Example: 192.168.0.1
- labels {[key: string]: string}
- The labels assigned to this node. An object containing a list of key/value pairs. The labels here, unioned with the labels set on BareMetalNodePoolConfig are the set of labels that will be applied to the node. If there are any conflicts, the BareMetalNodeConfig labels take precedence. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- node
Ip string - The default IPv4 address for SSH access and Kubernetes node. Example: 192.168.0.1
- labels Mapping[str, str]
- The labels assigned to this node. An object containing a list of key/value pairs. The labels here, unioned with the labels set on BareMetalNodePoolConfig are the set of labels that will be applied to the node. If there are any conflicts, the BareMetalNodeConfig labels take precedence. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- node_
ip str - The default IPv4 address for SSH access and Kubernetes node. Example: 192.168.0.1
- labels Map<String>
- The labels assigned to this node. An object containing a list of key/value pairs. The labels here, unioned with the labels set on BareMetalNodePoolConfig are the set of labels that will be applied to the node. If there are any conflicts, the BareMetalNodeConfig labels take precedence. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- node
Ip String - The default IPv4 address for SSH access and Kubernetes node. Example: 192.168.0.1
BareMetalNodePoolConfig, BareMetalNodePoolConfigArgs
- Node
Configs List<Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Node Config> - The list of machine addresses in the bare metal node pool.
- Kubelet
Config Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Kubelet Config - The modifiable kubelet configurations for the bare metal machines.
- Labels Dictionary<string, string>
- The labels assigned to nodes of this node pool. An object containing a list of key/value pairs. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- Operating
System Pulumi.Google Native. Gkeonprem. V1. Bare Metal Node Pool Config Operating System - Specifies the nodes operating system (default: LINUX).
- Taints
List<Pulumi.
Google Native. Gkeonprem. V1. Inputs. Node Taint> - The initial taints assigned to nodes of this node pool.
- Node
Configs []BareMetal Node Config - The list of machine addresses in the bare metal node pool.
- Kubelet
Config BareMetal Kubelet Config - The modifiable kubelet configurations for the bare metal machines.
- Labels map[string]string
- The labels assigned to nodes of this node pool. An object containing a list of key/value pairs. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- Operating
System BareMetal Node Pool Config Operating System - Specifies the nodes operating system (default: LINUX).
- Taints
[]Node
Taint - The initial taints assigned to nodes of this node pool.
- node
Configs List<BareMetal Node Config> - The list of machine addresses in the bare metal node pool.
- kubelet
Config BareMetal Kubelet Config - The modifiable kubelet configurations for the bare metal machines.
- labels Map<String,String>
- The labels assigned to nodes of this node pool. An object containing a list of key/value pairs. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- operating
System BareMetal Node Pool Config Operating System - Specifies the nodes operating system (default: LINUX).
- taints
List<Node
Taint> - The initial taints assigned to nodes of this node pool.
- node
Configs BareMetal Node Config[] - The list of machine addresses in the bare metal node pool.
- kubelet
Config BareMetal Kubelet Config - The modifiable kubelet configurations for the bare metal machines.
- labels {[key: string]: string}
- The labels assigned to nodes of this node pool. An object containing a list of key/value pairs. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- operating
System BareMetal Node Pool Config Operating System - Specifies the nodes operating system (default: LINUX).
- taints
Node
Taint[] - The initial taints assigned to nodes of this node pool.
- node_
configs Sequence[BareMetal Node Config] - The list of machine addresses in the bare metal node pool.
- kubelet_
config BareMetal Kubelet Config - The modifiable kubelet configurations for the bare metal machines.
- labels Mapping[str, str]
- The labels assigned to nodes of this node pool. An object containing a list of key/value pairs. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- operating_
system BareMetal Node Pool Config Operating System - Specifies the nodes operating system (default: LINUX).
- taints
Sequence[Node
Taint] - The initial taints assigned to nodes of this node pool.
- node
Configs List<Property Map> - The list of machine addresses in the bare metal node pool.
- kubelet
Config Property Map - The modifiable kubelet configurations for the bare metal machines.
- labels Map<String>
- The labels assigned to nodes of this node pool. An object containing a list of key/value pairs. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- operating
System "OPERATING_SYSTEM_UNSPECIFIED" | "LINUX" - Specifies the nodes operating system (default: LINUX).
- taints List<Property Map>
- The initial taints assigned to nodes of this node pool.
BareMetalNodePoolConfigOperatingSystem, BareMetalNodePoolConfigOperatingSystemArgs
- Operating
System Unspecified - OPERATING_SYSTEM_UNSPECIFIEDNo operating system runtime selected.
- Linux
- LINUXLinux operating system.
- Bare
Metal Node Pool Config Operating System Operating System Unspecified - OPERATING_SYSTEM_UNSPECIFIEDNo operating system runtime selected.
- Bare
Metal Node Pool Config Operating System Linux - LINUXLinux operating system.
- Operating
System Unspecified - OPERATING_SYSTEM_UNSPECIFIEDNo operating system runtime selected.
- Linux
- LINUXLinux operating system.
- Operating
System Unspecified - OPERATING_SYSTEM_UNSPECIFIEDNo operating system runtime selected.
- Linux
- LINUXLinux operating system.
- OPERATING_SYSTEM_UNSPECIFIED
- OPERATING_SYSTEM_UNSPECIFIEDNo operating system runtime selected.
- LINUX
- LINUXLinux operating system.
- "OPERATING_SYSTEM_UNSPECIFIED"
- OPERATING_SYSTEM_UNSPECIFIEDNo operating system runtime selected.
- "LINUX"
- LINUXLinux operating system.
BareMetalNodePoolConfigResponse, BareMetalNodePoolConfigResponseArgs
- Kubelet
Config Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Kubelet Config Response - The modifiable kubelet configurations for the bare metal machines.
- Labels Dictionary<string, string>
- The labels assigned to nodes of this node pool. An object containing a list of key/value pairs. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- Node
Configs List<Pulumi.Google Native. Gkeonprem. V1. Inputs. Bare Metal Node Config Response> - The list of machine addresses in the bare metal node pool.
- Operating
System string - Specifies the nodes operating system (default: LINUX).
- Taints
List<Pulumi.
Google Native. Gkeonprem. V1. Inputs. Node Taint Response> - The initial taints assigned to nodes of this node pool.
- Kubelet
Config BareMetal Kubelet Config Response - The modifiable kubelet configurations for the bare metal machines.
- Labels map[string]string
- The labels assigned to nodes of this node pool. An object containing a list of key/value pairs. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- Node
Configs []BareMetal Node Config Response - The list of machine addresses in the bare metal node pool.
- Operating
System string - Specifies the nodes operating system (default: LINUX).
- Taints
[]Node
Taint Response - The initial taints assigned to nodes of this node pool.
- kubelet
Config BareMetal Kubelet Config Response - The modifiable kubelet configurations for the bare metal machines.
- labels Map<String,String>
- The labels assigned to nodes of this node pool. An object containing a list of key/value pairs. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- node
Configs List<BareMetal Node Config Response> - The list of machine addresses in the bare metal node pool.
- operating
System String - Specifies the nodes operating system (default: LINUX).
- taints
List<Node
Taint Response> - The initial taints assigned to nodes of this node pool.
- kubelet
Config BareMetal Kubelet Config Response - The modifiable kubelet configurations for the bare metal machines.
- labels {[key: string]: string}
- The labels assigned to nodes of this node pool. An object containing a list of key/value pairs. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- node
Configs BareMetal Node Config Response[] - The list of machine addresses in the bare metal node pool.
- operating
System string - Specifies the nodes operating system (default: LINUX).
- taints
Node
Taint Response[] - The initial taints assigned to nodes of this node pool.
- kubelet_
config BareMetal Kubelet Config Response - The modifiable kubelet configurations for the bare metal machines.
- labels Mapping[str, str]
- The labels assigned to nodes of this node pool. An object containing a list of key/value pairs. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- node_
configs Sequence[BareMetal Node Config Response] - The list of machine addresses in the bare metal node pool.
- operating_
system str - Specifies the nodes operating system (default: LINUX).
- taints
Sequence[Node
Taint Response] - The initial taints assigned to nodes of this node pool.
- kubelet
Config Property Map - The modifiable kubelet configurations for the bare metal machines.
- labels Map<String>
- The labels assigned to nodes of this node pool. An object containing a list of key/value pairs. Example: { "name": "wrench", "mass": "1.3kg", "count": "3" }.
- node
Configs List<Property Map> - The list of machine addresses in the bare metal node pool.
- operating
System String - Specifies the nodes operating system (default: LINUX).
- taints List<Property Map>
- The initial taints assigned to nodes of this node pool.
BareMetalOsEnvironmentConfig, BareMetalOsEnvironmentConfigArgs
- Package
Repo boolExcluded - Whether the package repo should not be included when initializing bare metal machines.
- Package
Repo boolExcluded - Whether the package repo should not be included when initializing bare metal machines.
- package
Repo BooleanExcluded - Whether the package repo should not be included when initializing bare metal machines.
- package
Repo booleanExcluded - Whether the package repo should not be included when initializing bare metal machines.
- package_
repo_ boolexcluded - Whether the package repo should not be included when initializing bare metal machines.
- package
Repo BooleanExcluded - Whether the package repo should not be included when initializing bare metal machines.
BareMetalOsEnvironmentConfigResponse, BareMetalOsEnvironmentConfigResponseArgs
- Package
Repo boolExcluded - Whether the package repo should not be included when initializing bare metal machines.
- Package
Repo boolExcluded - Whether the package repo should not be included when initializing bare metal machines.
- package
Repo BooleanExcluded - Whether the package repo should not be included when initializing bare metal machines.
- package
Repo booleanExcluded - Whether the package repo should not be included when initializing bare metal machines.
- package_
repo_ boolexcluded - Whether the package repo should not be included when initializing bare metal machines.
- package
Repo BooleanExcluded - Whether the package repo should not be included when initializing bare metal machines.
BareMetalPortConfig, BareMetalPortConfigArgs
- Control
Plane intLoad Balancer Port - The port that control plane hosted load balancers will listen on.
- Control
Plane intLoad Balancer Port - The port that control plane hosted load balancers will listen on.
- control
Plane IntegerLoad Balancer Port - The port that control plane hosted load balancers will listen on.
- control
Plane numberLoad Balancer Port - The port that control plane hosted load balancers will listen on.
- control_
plane_ intload_ balancer_ port - The port that control plane hosted load balancers will listen on.
- control
Plane NumberLoad Balancer Port - The port that control plane hosted load balancers will listen on.
BareMetalPortConfigResponse, BareMetalPortConfigResponseArgs
- Control
Plane intLoad Balancer Port - The port that control plane hosted load balancers will listen on.
- Control
Plane intLoad Balancer Port - The port that control plane hosted load balancers will listen on.
- control
Plane IntegerLoad Balancer Port - The port that control plane hosted load balancers will listen on.
- control
Plane numberLoad Balancer Port - The port that control plane hosted load balancers will listen on.
- control_
plane_ intload_ balancer_ port - The port that control plane hosted load balancers will listen on.
- control
Plane NumberLoad Balancer Port - The port that control plane hosted load balancers will listen on.
BareMetalProxyConfig, BareMetalProxyConfigArgs
- Uri string
- Specifies the address of your proxy server. Examples:
http://domain
Do not provide credentials in the formathttp://(username:password@)domain
these will be rejected by the server. - No
Proxy List<string> - A list of IPs, hostnames, and domains that should skip the proxy. Examples: ["127.0.0.1", "example.com", ".corp", "localhost"].
- Uri string
- Specifies the address of your proxy server. Examples:
http://domain
Do not provide credentials in the formathttp://(username:password@)domain
these will be rejected by the server. - No
Proxy []string - A list of IPs, hostnames, and domains that should skip the proxy. Examples: ["127.0.0.1", "example.com", ".corp", "localhost"].
- uri String
- Specifies the address of your proxy server. Examples:
http://domain
Do not provide credentials in the formathttp://(username:password@)domain
these will be rejected by the server. - no
Proxy List<String> - A list of IPs, hostnames, and domains that should skip the proxy. Examples: ["127.0.0.1", "example.com", ".corp", "localhost"].
- uri string
- Specifies the address of your proxy server. Examples:
http://domain
Do not provide credentials in the formathttp://(username:password@)domain
these will be rejected by the server. - no
Proxy string[] - A list of IPs, hostnames, and domains that should skip the proxy. Examples: ["127.0.0.1", "example.com", ".corp", "localhost"].
- uri str
- Specifies the address of your proxy server. Examples:
http://domain
Do not provide credentials in the formathttp://(username:password@)domain
these will be rejected by the server. - no_
proxy Sequence[str] - A list of IPs, hostnames, and domains that should skip the proxy. Examples: ["127.0.0.1", "example.com", ".corp", "localhost"].
- uri String
- Specifies the address of your proxy server. Examples:
http://domain
Do not provide credentials in the formathttp://(username:password@)domain
these will be rejected by the server. - no
Proxy List<String> - A list of IPs, hostnames, and domains that should skip the proxy. Examples: ["127.0.0.1", "example.com", ".corp", "localhost"].
BareMetalProxyConfigResponse, BareMetalProxyConfigResponseArgs
- No
Proxy List<string> - A list of IPs, hostnames, and domains that should skip the proxy. Examples: ["127.0.0.1", "example.com", ".corp", "localhost"].
- Uri string
- Specifies the address of your proxy server. Examples:
http://domain
Do not provide credentials in the formathttp://(username:password@)domain
these will be rejected by the server.
- No
Proxy []string - A list of IPs, hostnames, and domains that should skip the proxy. Examples: ["127.0.0.1", "example.com", ".corp", "localhost"].
- Uri string
- Specifies the address of your proxy server. Examples:
http://domain
Do not provide credentials in the formathttp://(username:password@)domain
these will be rejected by the server.
- no
Proxy List<String> - A list of IPs, hostnames, and domains that should skip the proxy. Examples: ["127.0.0.1", "example.com", ".corp", "localhost"].
- uri String
- Specifies the address of your proxy server. Examples:
http://domain
Do not provide credentials in the formathttp://(username:password@)domain
these will be rejected by the server.
- no
Proxy string[] - A list of IPs, hostnames, and domains that should skip the proxy. Examples: ["127.0.0.1", "example.com", ".corp", "localhost"].
- uri string
- Specifies the address of your proxy server. Examples:
http://domain
Do not provide credentials in the formathttp://(username:password@)domain
these will be rejected by the server.
- no_
proxy Sequence[str] - A list of IPs, hostnames, and domains that should skip the proxy. Examples: ["127.0.0.1", "example.com", ".corp", "localhost"].
- uri str
- Specifies the address of your proxy server. Examples:
http://domain
Do not provide credentials in the formathttp://(username:password@)domain
these will be rejected by the server.
- no
Proxy List<String> - A list of IPs, hostnames, and domains that should skip the proxy. Examples: ["127.0.0.1", "example.com", ".corp", "localhost"].
- uri String
- Specifies the address of your proxy server. Examples:
http://domain
Do not provide credentials in the formathttp://(username:password@)domain
these will be rejected by the server.
BareMetalSecurityConfig, BareMetalSecurityConfigArgs
- Pulumi.
Google Native. Gkeonprem. V1. Inputs. Authorization - Configures user access to the user cluster.
- Authorization
- Configures user access to the user cluster.
- Authorization
- Configures user access to the user cluster.
- Authorization
- Configures user access to the user cluster.
- Authorization
- Configures user access to the user cluster.
- Property Map
- Configures user access to the user cluster.
BareMetalSecurityConfigResponse, BareMetalSecurityConfigResponseArgs
- Pulumi.
Google Native. Gkeonprem. V1. Inputs. Authorization Response - Configures user access to the user cluster.
- Authorization
Response - Configures user access to the user cluster.
- Authorization
Response - Configures user access to the user cluster.
- Authorization
Response - Configures user access to the user cluster.
- Authorization
Response - Configures user access to the user cluster.
- Property Map
- Configures user access to the user cluster.
BareMetalSrIovConfig, BareMetalSrIovConfigArgs
- Enabled bool
- Whether to install the SR-IOV operator.
- Enabled bool
- Whether to install the SR-IOV operator.
- enabled Boolean
- Whether to install the SR-IOV operator.
- enabled boolean
- Whether to install the SR-IOV operator.
- enabled bool
- Whether to install the SR-IOV operator.
- enabled Boolean
- Whether to install the SR-IOV operator.
BareMetalSrIovConfigResponse, BareMetalSrIovConfigResponseArgs
- Enabled bool
- Whether to install the SR-IOV operator.
- Enabled bool
- Whether to install the SR-IOV operator.
- enabled Boolean
- Whether to install the SR-IOV operator.
- enabled boolean
- Whether to install the SR-IOV operator.
- enabled bool
- Whether to install the SR-IOV operator.
- enabled Boolean
- Whether to install the SR-IOV operator.
BareMetalStorageConfig, BareMetalStorageConfigArgs
- Lvp
Node Pulumi.Mounts Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Lvp Config - Specifies the config for local PersistentVolumes backed by mounted node disks. These disks need to be formatted and mounted by the user, which can be done before or after cluster creation.
- Pulumi.
Google Native. Gkeonprem. V1. Inputs. Bare Metal Lvp Share Config - Specifies the config for local PersistentVolumes backed by subdirectories in a shared filesystem. These subdirectores are automatically created during cluster creation.
- Lvp
Node BareMounts Config Metal Lvp Config - Specifies the config for local PersistentVolumes backed by mounted node disks. These disks need to be formatted and mounted by the user, which can be done before or after cluster creation.
- Bare
Metal Lvp Share Config - Specifies the config for local PersistentVolumes backed by subdirectories in a shared filesystem. These subdirectores are automatically created during cluster creation.
- lvp
Node BareMounts Config Metal Lvp Config - Specifies the config for local PersistentVolumes backed by mounted node disks. These disks need to be formatted and mounted by the user, which can be done before or after cluster creation.
- Bare
Metal Lvp Share Config - Specifies the config for local PersistentVolumes backed by subdirectories in a shared filesystem. These subdirectores are automatically created during cluster creation.
- lvp
Node BareMounts Config Metal Lvp Config - Specifies the config for local PersistentVolumes backed by mounted node disks. These disks need to be formatted and mounted by the user, which can be done before or after cluster creation.
- Bare
Metal Lvp Share Config - Specifies the config for local PersistentVolumes backed by subdirectories in a shared filesystem. These subdirectores are automatically created during cluster creation.
- lvp_
node_ Baremounts_ config Metal Lvp Config - Specifies the config for local PersistentVolumes backed by mounted node disks. These disks need to be formatted and mounted by the user, which can be done before or after cluster creation.
- Bare
Metal Lvp Share Config - Specifies the config for local PersistentVolumes backed by subdirectories in a shared filesystem. These subdirectores are automatically created during cluster creation.
- lvp
Node Property MapMounts Config - Specifies the config for local PersistentVolumes backed by mounted node disks. These disks need to be formatted and mounted by the user, which can be done before or after cluster creation.
- Property Map
- Specifies the config for local PersistentVolumes backed by subdirectories in a shared filesystem. These subdirectores are automatically created during cluster creation.
BareMetalStorageConfigResponse, BareMetalStorageConfigResponseArgs
- Lvp
Node Pulumi.Mounts Config Google Native. Gkeonprem. V1. Inputs. Bare Metal Lvp Config Response - Specifies the config for local PersistentVolumes backed by mounted node disks. These disks need to be formatted and mounted by the user, which can be done before or after cluster creation.
- Pulumi.
Google Native. Gkeonprem. V1. Inputs. Bare Metal Lvp Share Config Response - Specifies the config for local PersistentVolumes backed by subdirectories in a shared filesystem. These subdirectores are automatically created during cluster creation.
- Lvp
Node BareMounts Config Metal Lvp Config Response - Specifies the config for local PersistentVolumes backed by mounted node disks. These disks need to be formatted and mounted by the user, which can be done before or after cluster creation.
- Bare
Metal Lvp Share Config Response - Specifies the config for local PersistentVolumes backed by subdirectories in a shared filesystem. These subdirectores are automatically created during cluster creation.
- lvp
Node BareMounts Config Metal Lvp Config Response - Specifies the config for local PersistentVolumes backed by mounted node disks. These disks need to be formatted and mounted by the user, which can be done before or after cluster creation.
- Bare
Metal Lvp Share Config Response - Specifies the config for local PersistentVolumes backed by subdirectories in a shared filesystem. These subdirectores are automatically created during cluster creation.
- lvp
Node BareMounts Config Metal Lvp Config Response - Specifies the config for local PersistentVolumes backed by mounted node disks. These disks need to be formatted and mounted by the user, which can be done before or after cluster creation.
- Bare
Metal Lvp Share Config Response - Specifies the config for local PersistentVolumes backed by subdirectories in a shared filesystem. These subdirectores are automatically created during cluster creation.
- lvp_
node_ Baremounts_ config Metal Lvp Config Response - Specifies the config for local PersistentVolumes backed by mounted node disks. These disks need to be formatted and mounted by the user, which can be done before or after cluster creation.
- Bare
Metal Lvp Share Config Response - Specifies the config for local PersistentVolumes backed by subdirectories in a shared filesystem. These subdirectores are automatically created during cluster creation.
- lvp
Node Property MapMounts Config - Specifies the config for local PersistentVolumes backed by mounted node disks. These disks need to be formatted and mounted by the user, which can be done before or after cluster creation.
- Property Map
- Specifies the config for local PersistentVolumes backed by subdirectories in a shared filesystem. These subdirectores are automatically created during cluster creation.
BareMetalVipConfig, BareMetalVipConfigArgs
- Control
Plane stringVip - The VIP which you previously set aside for the Kubernetes API of this bare metal user cluster.
- Ingress
Vip string - The VIP which you previously set aside for ingress traffic into this bare metal user cluster.
- Control
Plane stringVip - The VIP which you previously set aside for the Kubernetes API of this bare metal user cluster.
- Ingress
Vip string - The VIP which you previously set aside for ingress traffic into this bare metal user cluster.
- control
Plane StringVip - The VIP which you previously set aside for the Kubernetes API of this bare metal user cluster.
- ingress
Vip String - The VIP which you previously set aside for ingress traffic into this bare metal user cluster.
- control
Plane stringVip - The VIP which you previously set aside for the Kubernetes API of this bare metal user cluster.
- ingress
Vip string - The VIP which you previously set aside for ingress traffic into this bare metal user cluster.
- control_
plane_ strvip - The VIP which you previously set aside for the Kubernetes API of this bare metal user cluster.
- ingress_
vip str - The VIP which you previously set aside for ingress traffic into this bare metal user cluster.
- control
Plane StringVip - The VIP which you previously set aside for the Kubernetes API of this bare metal user cluster.
- ingress
Vip String - The VIP which you previously set aside for ingress traffic into this bare metal user cluster.
BareMetalVipConfigResponse, BareMetalVipConfigResponseArgs
- Control
Plane stringVip - The VIP which you previously set aside for the Kubernetes API of this bare metal user cluster.
- Ingress
Vip string - The VIP which you previously set aside for ingress traffic into this bare metal user cluster.
- Control
Plane stringVip - The VIP which you previously set aside for the Kubernetes API of this bare metal user cluster.
- Ingress
Vip string - The VIP which you previously set aside for ingress traffic into this bare metal user cluster.
- control
Plane StringVip - The VIP which you previously set aside for the Kubernetes API of this bare metal user cluster.
- ingress
Vip String - The VIP which you previously set aside for ingress traffic into this bare metal user cluster.
- control
Plane stringVip - The VIP which you previously set aside for the Kubernetes API of this bare metal user cluster.
- ingress
Vip string - The VIP which you previously set aside for ingress traffic into this bare metal user cluster.
- control_
plane_ strvip - The VIP which you previously set aside for the Kubernetes API of this bare metal user cluster.
- ingress_
vip str - The VIP which you previously set aside for ingress traffic into this bare metal user cluster.
- control
Plane StringVip - The VIP which you previously set aside for the Kubernetes API of this bare metal user cluster.
- ingress
Vip String - The VIP which you previously set aside for ingress traffic into this bare metal user cluster.
BareMetalWorkloadNodeConfig, BareMetalWorkloadNodeConfigArgs
- Container
Runtime Pulumi.Google Native. Gkeonprem. V1. Bare Metal Workload Node Config Container Runtime - Specifies which container runtime will be used.
- Max
Pods stringPer Node - The maximum number of pods a node can run. The size of the CIDR range assigned to the node will be derived from this parameter.
- Container
Runtime BareMetal Workload Node Config Container Runtime - Specifies which container runtime will be used.
- Max
Pods stringPer Node - The maximum number of pods a node can run. The size of the CIDR range assigned to the node will be derived from this parameter.
- container
Runtime BareMetal Workload Node Config Container Runtime - Specifies which container runtime will be used.
- max
Pods StringPer Node - The maximum number of pods a node can run. The size of the CIDR range assigned to the node will be derived from this parameter.
- container
Runtime BareMetal Workload Node Config Container Runtime - Specifies which container runtime will be used.
- max
Pods stringPer Node - The maximum number of pods a node can run. The size of the CIDR range assigned to the node will be derived from this parameter.
- container_
runtime BareMetal Workload Node Config Container Runtime - Specifies which container runtime will be used.
- max_
pods_ strper_ node - The maximum number of pods a node can run. The size of the CIDR range assigned to the node will be derived from this parameter.
- container
Runtime "CONTAINER_RUNTIME_UNSPECIFIED" | "CONTAINERD" - Specifies which container runtime will be used.
- max
Pods StringPer Node - The maximum number of pods a node can run. The size of the CIDR range assigned to the node will be derived from this parameter.
BareMetalWorkloadNodeConfigContainerRuntime, BareMetalWorkloadNodeConfigContainerRuntimeArgs
- Container
Runtime Unspecified - CONTAINER_RUNTIME_UNSPECIFIEDNo container runtime selected.
- Containerd
- CONTAINERDContainerd runtime.
- Bare
Metal Workload Node Config Container Runtime Container Runtime Unspecified - CONTAINER_RUNTIME_UNSPECIFIEDNo container runtime selected.
- Bare
Metal Workload Node Config Container Runtime Containerd - CONTAINERDContainerd runtime.
- Container
Runtime Unspecified - CONTAINER_RUNTIME_UNSPECIFIEDNo container runtime selected.
- Containerd
- CONTAINERDContainerd runtime.
- Container
Runtime Unspecified - CONTAINER_RUNTIME_UNSPECIFIEDNo container runtime selected.
- Containerd
- CONTAINERDContainerd runtime.
- CONTAINER_RUNTIME_UNSPECIFIED
- CONTAINER_RUNTIME_UNSPECIFIEDNo container runtime selected.
- CONTAINERD
- CONTAINERDContainerd runtime.
- "CONTAINER_RUNTIME_UNSPECIFIED"
- CONTAINER_RUNTIME_UNSPECIFIEDNo container runtime selected.
- "CONTAINERD"
- CONTAINERDContainerd runtime.
BareMetalWorkloadNodeConfigResponse, BareMetalWorkloadNodeConfigResponseArgs
- Container
Runtime string - Specifies which container runtime will be used.
- Max
Pods stringPer Node - The maximum number of pods a node can run. The size of the CIDR range assigned to the node will be derived from this parameter.
- Container
Runtime string - Specifies which container runtime will be used.
- Max
Pods stringPer Node - The maximum number of pods a node can run. The size of the CIDR range assigned to the node will be derived from this parameter.
- container
Runtime String - Specifies which container runtime will be used.
- max
Pods StringPer Node - The maximum number of pods a node can run. The size of the CIDR range assigned to the node will be derived from this parameter.
- container
Runtime string - Specifies which container runtime will be used.
- max
Pods stringPer Node - The maximum number of pods a node can run. The size of the CIDR range assigned to the node will be derived from this parameter.
- container_
runtime str - Specifies which container runtime will be used.
- max_
pods_ strper_ node - The maximum number of pods a node can run. The size of the CIDR range assigned to the node will be derived from this parameter.
- container
Runtime String - Specifies which container runtime will be used.
- max
Pods StringPer Node - The maximum number of pods a node can run. The size of the CIDR range assigned to the node will be derived from this parameter.
BinaryAuthorization, BinaryAuthorizationArgs
- Evaluation
Mode Pulumi.Google Native. Gkeonprem. V1. Binary Authorization Evaluation Mode - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- Evaluation
Mode BinaryAuthorization Evaluation Mode - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- evaluation
Mode BinaryAuthorization Evaluation Mode - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- evaluation
Mode BinaryAuthorization Evaluation Mode - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- evaluation_
mode BinaryAuthorization Evaluation Mode - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- 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.
- 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.
- 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.
- 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.
- 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.
- "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.
BinaryAuthorizationResponse, BinaryAuthorizationResponseArgs
- Evaluation
Mode string - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- Evaluation
Mode string - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- evaluation
Mode String - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- evaluation
Mode string - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- evaluation_
mode str - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
- evaluation
Mode String - Mode of operation for binauthz policy evaluation. If unspecified, defaults to DISABLED.
ClusterUser, ClusterUserArgs
- Username string
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- Username string
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- username String
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- username string
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- username str
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- username String
- The name of the user, e.g.
my-gcp-id@gmail.com
.
ClusterUserResponse, ClusterUserResponseArgs
- Username string
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- Username string
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- username String
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- username string
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- username str
- The name of the user, e.g.
my-gcp-id@gmail.com
.
- username String
- The name of the user, e.g.
my-gcp-id@gmail.com
.
FleetResponse, FleetResponseArgs
- Membership string
- The name of the managed fleet Membership resource associated to this cluster. Membership names are formatted as
projects//locations//memberships/
.
- Membership string
- The name of the managed fleet Membership resource associated to this cluster. Membership names are formatted as
projects//locations//memberships/
.
- membership String
- The name of the managed fleet Membership resource associated to this cluster. Membership names are formatted as
projects//locations//memberships/
.
- membership string
- The name of the managed fleet Membership resource associated to this cluster. Membership names are formatted as
projects//locations//memberships/
.
- membership str
- The name of the managed fleet Membership resource associated to this cluster. Membership names are formatted as
projects//locations//memberships/
.
- membership String
- The name of the managed fleet Membership resource associated to this cluster. Membership names are formatted as
projects//locations//memberships/
.
NodeTaint, NodeTaintArgs
- Effect
Pulumi.
Google Native. Gkeonprem. V1. Node Taint Effect - The taint effect.
- Key string
- Key associated with the effect.
- Value string
- Value associated with the effect.
- Effect
Node
Taint Effect - The taint effect.
- Key string
- Key associated with the effect.
- Value string
- Value associated with the effect.
- effect
Node
Taint Effect - The taint effect.
- key String
- Key associated with the effect.
- value String
- Value associated with the effect.
- effect
Node
Taint Effect - The taint effect.
- key string
- Key associated with the effect.
- value string
- Value associated with the effect.
- effect
Node
Taint Effect - The taint effect.
- key str
- Key associated with the effect.
- value str
- Value associated with the effect.
- effect "EFFECT_UNSPECIFIED" | "NO_SCHEDULE" | "PREFER_NO_SCHEDULE" | "NO_EXECUTE"
- The taint effect.
- key String
- Key associated with the effect.
- value String
- Value associated with the effect.
NodeTaintEffect, NodeTaintEffectArgs
- Effect
Unspecified - EFFECT_UNSPECIFIEDNot set.
- No
Schedule - NO_SCHEDULEDo not allow new pods to schedule onto the node unless they tolerate the taint, but allow all pods submitted to Kubelet without going through the scheduler to start, and allow all already-running pods to continue running. Enforced by the scheduler.
- Prefer
No Schedule - PREFER_NO_SCHEDULELike TaintEffectNoSchedule, but the scheduler tries not to schedule new pods onto the node, rather than prohibiting new pods from scheduling onto the node entirely. Enforced by the scheduler.
- No
Execute - NO_EXECUTEEvict any already-running pods that do not tolerate the taint. Currently enforced by NodeController.
- Node
Taint Effect Effect Unspecified - EFFECT_UNSPECIFIEDNot set.
- Node
Taint Effect No Schedule - NO_SCHEDULEDo not allow new pods to schedule onto the node unless they tolerate the taint, but allow all pods submitted to Kubelet without going through the scheduler to start, and allow all already-running pods to continue running. Enforced by the scheduler.
- Node
Taint Effect Prefer No Schedule - PREFER_NO_SCHEDULELike TaintEffectNoSchedule, but the scheduler tries not to schedule new pods onto the node, rather than prohibiting new pods from scheduling onto the node entirely. Enforced by the scheduler.
- Node
Taint Effect No Execute - NO_EXECUTEEvict any already-running pods that do not tolerate the taint. Currently enforced by NodeController.
- Effect
Unspecified - EFFECT_UNSPECIFIEDNot set.
- No
Schedule - NO_SCHEDULEDo not allow new pods to schedule onto the node unless they tolerate the taint, but allow all pods submitted to Kubelet without going through the scheduler to start, and allow all already-running pods to continue running. Enforced by the scheduler.
- Prefer
No Schedule - PREFER_NO_SCHEDULELike TaintEffectNoSchedule, but the scheduler tries not to schedule new pods onto the node, rather than prohibiting new pods from scheduling onto the node entirely. Enforced by the scheduler.
- No
Execute - NO_EXECUTEEvict any already-running pods that do not tolerate the taint. Currently enforced by NodeController.
- Effect
Unspecified - EFFECT_UNSPECIFIEDNot set.
- No
Schedule - NO_SCHEDULEDo not allow new pods to schedule onto the node unless they tolerate the taint, but allow all pods submitted to Kubelet without going through the scheduler to start, and allow all already-running pods to continue running. Enforced by the scheduler.
- Prefer
No Schedule - PREFER_NO_SCHEDULELike TaintEffectNoSchedule, but the scheduler tries not to schedule new pods onto the node, rather than prohibiting new pods from scheduling onto the node entirely. Enforced by the scheduler.
- No
Execute - NO_EXECUTEEvict any already-running pods that do not tolerate the taint. Currently enforced by NodeController.
- EFFECT_UNSPECIFIED
- EFFECT_UNSPECIFIEDNot set.
- NO_SCHEDULE
- NO_SCHEDULEDo not allow new pods to schedule onto the node unless they tolerate the taint, but allow all pods submitted to Kubelet without going through the scheduler to start, and allow all already-running pods to continue running. Enforced by the scheduler.
- PREFER_NO_SCHEDULE
- PREFER_NO_SCHEDULELike TaintEffectNoSchedule, but the scheduler tries not to schedule new pods onto the node, rather than prohibiting new pods from scheduling onto the node entirely. Enforced by the scheduler.
- NO_EXECUTE
- NO_EXECUTEEvict any already-running pods that do not tolerate the taint. Currently enforced by NodeController.
- "EFFECT_UNSPECIFIED"
- EFFECT_UNSPECIFIEDNot set.
- "NO_SCHEDULE"
- NO_SCHEDULEDo not allow new pods to schedule onto the node unless they tolerate the taint, but allow all pods submitted to Kubelet without going through the scheduler to start, and allow all already-running pods to continue running. Enforced by the scheduler.
- "PREFER_NO_SCHEDULE"
- PREFER_NO_SCHEDULELike TaintEffectNoSchedule, but the scheduler tries not to schedule new pods onto the node, rather than prohibiting new pods from scheduling onto the node entirely. Enforced by the scheduler.
- "NO_EXECUTE"
- NO_EXECUTEEvict any already-running pods that do not tolerate the taint. Currently enforced by NodeController.
NodeTaintResponse, NodeTaintResponseArgs
ResourceConditionResponse, ResourceConditionResponseArgs
- Last
Transition stringTime - Last time the condition transit from one status to another.
- Message string
- Human-readable message indicating details about last transition.
- Reason string
- Machine-readable message indicating details about last transition.
- State string
- state of the condition.
- Type string
- Type of the condition. (e.g., ClusterRunning, NodePoolRunning or ServerSidePreflightReady)
- Last
Transition stringTime - Last time the condition transit from one status to another.
- Message string
- Human-readable message indicating details about last transition.
- Reason string
- Machine-readable message indicating details about last transition.
- State string
- state of the condition.
- Type string
- Type of the condition. (e.g., ClusterRunning, NodePoolRunning or ServerSidePreflightReady)
- last
Transition StringTime - Last time the condition transit from one status to another.
- message String
- Human-readable message indicating details about last transition.
- reason String
- Machine-readable message indicating details about last transition.
- state String
- state of the condition.
- type String
- Type of the condition. (e.g., ClusterRunning, NodePoolRunning or ServerSidePreflightReady)
- last
Transition stringTime - Last time the condition transit from one status to another.
- message string
- Human-readable message indicating details about last transition.
- reason string
- Machine-readable message indicating details about last transition.
- state string
- state of the condition.
- type string
- Type of the condition. (e.g., ClusterRunning, NodePoolRunning or ServerSidePreflightReady)
- last_
transition_ strtime - Last time the condition transit from one status to another.
- message str
- Human-readable message indicating details about last transition.
- reason str
- Machine-readable message indicating details about last transition.
- state str
- state of the condition.
- type str
- Type of the condition. (e.g., ClusterRunning, NodePoolRunning or ServerSidePreflightReady)
- last
Transition StringTime - Last time the condition transit from one status to another.
- message String
- Human-readable message indicating details about last transition.
- reason String
- Machine-readable message indicating details about last transition.
- state String
- state of the condition.
- type String
- Type of the condition. (e.g., ClusterRunning, NodePoolRunning or ServerSidePreflightReady)
ResourceStatusResponse, ResourceStatusResponseArgs
- Conditions
List<Pulumi.
Google Native. Gkeonprem. V1. Inputs. Resource Condition Response> - ResourceCondition provide a standard mechanism for higher-level status reporting from controller.
- Error
Message string - Human-friendly representation of the error message from controller. The error message can be temporary as the controller controller creates a cluster or node pool. If the error message persists for a longer period of time, it can be used to surface error message to indicate real problems requiring user intervention.
- Conditions
[]Resource
Condition Response - ResourceCondition provide a standard mechanism for higher-level status reporting from controller.
- Error
Message string - Human-friendly representation of the error message from controller. The error message can be temporary as the controller controller creates a cluster or node pool. If the error message persists for a longer period of time, it can be used to surface error message to indicate real problems requiring user intervention.
- conditions
List<Resource
Condition Response> - ResourceCondition provide a standard mechanism for higher-level status reporting from controller.
- error
Message String - Human-friendly representation of the error message from controller. The error message can be temporary as the controller controller creates a cluster or node pool. If the error message persists for a longer period of time, it can be used to surface error message to indicate real problems requiring user intervention.
- conditions
Resource
Condition Response[] - ResourceCondition provide a standard mechanism for higher-level status reporting from controller.
- error
Message string - Human-friendly representation of the error message from controller. The error message can be temporary as the controller controller creates a cluster or node pool. If the error message persists for a longer period of time, it can be used to surface error message to indicate real problems requiring user intervention.
- conditions
Sequence[Resource
Condition Response] - ResourceCondition provide a standard mechanism for higher-level status reporting from controller.
- error_
message str - Human-friendly representation of the error message from controller. The error message can be temporary as the controller controller creates a cluster or node pool. If the error message persists for a longer period of time, it can be used to surface error message to indicate real problems requiring user intervention.
- conditions List<Property Map>
- ResourceCondition provide a standard mechanism for higher-level status reporting from controller.
- error
Message String - Human-friendly representation of the error message from controller. The error message can be temporary as the controller controller creates a cluster or node pool. If the error message persists for a longer period of time, it can be used to surface error message to indicate real problems requiring user intervention.
ValidationCheckResponse, ValidationCheckResponseArgs
- Option string
- Options used for the validation check
- Scenario string
- The scenario when the preflight checks were run.
- Status
Pulumi.
Google Native. Gkeonprem. V1. Inputs. Validation Check Status Response - The detailed validation check status.
- Option string
- Options used for the validation check
- Scenario string
- The scenario when the preflight checks were run.
- Status
Validation
Check Status Response - The detailed validation check status.
- option String
- Options used for the validation check
- scenario String
- The scenario when the preflight checks were run.
- status
Validation
Check Status Response - The detailed validation check status.
- option string
- Options used for the validation check
- scenario string
- The scenario when the preflight checks were run.
- status
Validation
Check Status Response - The detailed validation check status.
- option str
- Options used for the validation check
- scenario str
- The scenario when the preflight checks were run.
- status
Validation
Check Status Response - The detailed validation check status.
- option String
- Options used for the validation check
- scenario String
- The scenario when the preflight checks were run.
- status Property Map
- The detailed validation check status.
ValidationCheckResultResponse, ValidationCheckResultResponseArgs
- Category string
- The category of the validation.
- Description string
- The description of the validation check.
- Details string
- Detailed failure information, which might be unformatted.
- Reason string
- A human-readable message of the check failure.
- State string
- The validation check state.
- Category string
- The category of the validation.
- Description string
- The description of the validation check.
- Details string
- Detailed failure information, which might be unformatted.
- Reason string
- A human-readable message of the check failure.
- State string
- The validation check state.
- category String
- The category of the validation.
- description String
- The description of the validation check.
- details String
- Detailed failure information, which might be unformatted.
- reason String
- A human-readable message of the check failure.
- state String
- The validation check state.
- category string
- The category of the validation.
- description string
- The description of the validation check.
- details string
- Detailed failure information, which might be unformatted.
- reason string
- A human-readable message of the check failure.
- state string
- The validation check state.
- category str
- The category of the validation.
- description str
- The description of the validation check.
- details str
- Detailed failure information, which might be unformatted.
- reason str
- A human-readable message of the check failure.
- state str
- The validation check state.
- category String
- The category of the validation.
- description String
- The description of the validation check.
- details String
- Detailed failure information, which might be unformatted.
- reason String
- A human-readable message of the check failure.
- state String
- The validation check state.
ValidationCheckStatusResponse, ValidationCheckStatusResponseArgs
- Result
List<Pulumi.
Google Native. Gkeonprem. V1. Inputs. Validation Check Result Response> - Individual checks which failed as part of the Preflight check execution.
- Result
[]Validation
Check Result Response - Individual checks which failed as part of the Preflight check execution.
- result
List<Validation
Check Result Response> - Individual checks which failed as part of the Preflight check execution.
- result
Validation
Check Result Response[] - Individual checks which failed as part of the Preflight check execution.
- result
Sequence[Validation
Check Result Response] - Individual checks which failed as part of the Preflight check execution.
- result List<Property Map>
- Individual checks which failed as part of the Preflight check execution.
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.