k8s

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v2.9.5 Latest Latest
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 Go to latest Published: May 31, 2024 License: Apache-2.0 Imports: 8 Imported by: 0

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Constants

This section is empty.

Variables

This section is empty.

Functions

func KubeApiServiceList_GVK 

func KubeApiServiceList_GVK() *cdk8s.GroupVersionKind

func KubeApiServiceList_IsApiObject 

func KubeApiServiceList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeApiServiceList_IsConstruct 

func KubeApiServiceList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeApiServiceList_Manifest 

func KubeApiServiceList_Manifest(props *KubeApiServiceListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.kube-aggregator.pkg.apis.apiregistration.v1.APIServiceList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeApiServiceList_Of 

func KubeApiServiceList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeApiService_GVK 

func KubeApiService_GVK() *cdk8s.GroupVersionKind

func KubeApiService_IsApiObject 

func KubeApiService_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeApiService_IsConstruct 

func KubeApiService_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeApiService_Manifest 

func KubeApiService_Manifest(props *KubeApiServiceProps) interface{}

Renders a Kubernetes manifest for "io.k8s.kube-aggregator.pkg.apis.apiregistration.v1.APIService".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeApiService_Of 

func KubeApiService_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeBinding_GVK 

func KubeBinding_GVK() *cdk8s.GroupVersionKind

func KubeBinding_IsApiObject 

func KubeBinding_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeBinding_IsConstruct 

func KubeBinding_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeBinding_Manifest 

func KubeBinding_Manifest(props *KubeBindingProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.Binding".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeBinding_Of 

func KubeBinding_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeCertificateSigningRequestList_GVK 

func KubeCertificateSigningRequestList_GVK() *cdk8s.GroupVersionKind

func KubeCertificateSigningRequestList_IsApiObject 

func KubeCertificateSigningRequestList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeCertificateSigningRequestList_IsConstruct 

func KubeCertificateSigningRequestList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeCertificateSigningRequestList_Manifest 

func KubeCertificateSigningRequestList_Manifest(props *KubeCertificateSigningRequestListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.certificates.v1.CertificateSigningRequestList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeCertificateSigningRequestList_Of 

func KubeCertificateSigningRequestList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeCertificateSigningRequest_GVK 

func KubeCertificateSigningRequest_GVK() *cdk8s.GroupVersionKind

func KubeCertificateSigningRequest_IsApiObject 

func KubeCertificateSigningRequest_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeCertificateSigningRequest_IsConstruct 

func KubeCertificateSigningRequest_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeCertificateSigningRequest_Manifest 

func KubeCertificateSigningRequest_Manifest(props *KubeCertificateSigningRequestProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.certificates.v1.CertificateSigningRequest".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeCertificateSigningRequest_Of 

func KubeCertificateSigningRequest_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeClusterCidrListV1Alpha1_GVK 

func KubeClusterCidrListV1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeClusterCidrListV1Alpha1_IsApiObject 

func KubeClusterCidrListV1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeClusterCidrListV1Alpha1_IsConstruct 

func KubeClusterCidrListV1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeClusterCidrListV1Alpha1_Manifest 

func KubeClusterCidrListV1Alpha1_Manifest(props *KubeClusterCidrListV1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.networking.v1alpha1.ClusterCIDRList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeClusterCidrListV1Alpha1_Of 

func KubeClusterCidrListV1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeClusterCidrv1Alpha1_GVK 

func KubeClusterCidrv1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeClusterCidrv1Alpha1_IsApiObject 

func KubeClusterCidrv1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeClusterCidrv1Alpha1_IsConstruct 

func KubeClusterCidrv1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeClusterCidrv1Alpha1_Manifest 

func KubeClusterCidrv1Alpha1_Manifest(props *KubeClusterCidrv1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.networking.v1alpha1.ClusterCIDR".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeClusterCidrv1Alpha1_Of 

func KubeClusterCidrv1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeClusterRoleBindingList_GVK 

func KubeClusterRoleBindingList_GVK() *cdk8s.GroupVersionKind

func KubeClusterRoleBindingList_IsApiObject 

func KubeClusterRoleBindingList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeClusterRoleBindingList_IsConstruct 

func KubeClusterRoleBindingList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeClusterRoleBindingList_Manifest 

func KubeClusterRoleBindingList_Manifest(props *KubeClusterRoleBindingListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.rbac.v1.ClusterRoleBindingList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeClusterRoleBindingList_Of 

func KubeClusterRoleBindingList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeClusterRoleBinding_GVK 

func KubeClusterRoleBinding_GVK() *cdk8s.GroupVersionKind

func KubeClusterRoleBinding_IsApiObject 

func KubeClusterRoleBinding_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeClusterRoleBinding_IsConstruct 

func KubeClusterRoleBinding_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeClusterRoleBinding_Manifest 

func KubeClusterRoleBinding_Manifest(props *KubeClusterRoleBindingProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.rbac.v1.ClusterRoleBinding".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeClusterRoleBinding_Of 

func KubeClusterRoleBinding_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeClusterRoleList_GVK 

func KubeClusterRoleList_GVK() *cdk8s.GroupVersionKind

func KubeClusterRoleList_IsApiObject 

func KubeClusterRoleList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeClusterRoleList_IsConstruct 

func KubeClusterRoleList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeClusterRoleList_Manifest 

func KubeClusterRoleList_Manifest(props *KubeClusterRoleListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.rbac.v1.ClusterRoleList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeClusterRoleList_Of 

func KubeClusterRoleList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeClusterRole_GVK 

func KubeClusterRole_GVK() *cdk8s.GroupVersionKind

func KubeClusterRole_IsApiObject 

func KubeClusterRole_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeClusterRole_IsConstruct 

func KubeClusterRole_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeClusterRole_Manifest 

func KubeClusterRole_Manifest(props *KubeClusterRoleProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.rbac.v1.ClusterRole".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeClusterRole_Of 

func KubeClusterRole_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeClusterTrustBundleListV1Alpha1_GVK 

func KubeClusterTrustBundleListV1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeClusterTrustBundleListV1Alpha1_IsApiObject 

func KubeClusterTrustBundleListV1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeClusterTrustBundleListV1Alpha1_IsConstruct 

func KubeClusterTrustBundleListV1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeClusterTrustBundleListV1Alpha1_Manifest 

func KubeClusterTrustBundleListV1Alpha1_Manifest(props *KubeClusterTrustBundleListV1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.certificates.v1alpha1.ClusterTrustBundleList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeClusterTrustBundleListV1Alpha1_Of 

func KubeClusterTrustBundleListV1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeClusterTrustBundleV1Alpha1_GVK 

func KubeClusterTrustBundleV1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeClusterTrustBundleV1Alpha1_IsApiObject 

func KubeClusterTrustBundleV1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeClusterTrustBundleV1Alpha1_IsConstruct 

func KubeClusterTrustBundleV1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeClusterTrustBundleV1Alpha1_Manifest 

func KubeClusterTrustBundleV1Alpha1_Manifest(props *KubeClusterTrustBundleV1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.certificates.v1alpha1.ClusterTrustBundle".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeClusterTrustBundleV1Alpha1_Of 

func KubeClusterTrustBundleV1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeComponentStatusList_GVK 

func KubeComponentStatusList_GVK() *cdk8s.GroupVersionKind

func KubeComponentStatusList_IsApiObject 

func KubeComponentStatusList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeComponentStatusList_IsConstruct 

func KubeComponentStatusList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeComponentStatusList_Manifest 

func KubeComponentStatusList_Manifest(props *KubeComponentStatusListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.ComponentStatusList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeComponentStatusList_Of 

func KubeComponentStatusList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeComponentStatus_GVK 

func KubeComponentStatus_GVK() *cdk8s.GroupVersionKind

func KubeComponentStatus_IsApiObject 

func KubeComponentStatus_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeComponentStatus_IsConstruct 

func KubeComponentStatus_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeComponentStatus_Manifest 

func KubeComponentStatus_Manifest(props *KubeComponentStatusProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.ComponentStatus".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeComponentStatus_Of 

func KubeComponentStatus_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeConfigMapList_GVK 

func KubeConfigMapList_GVK() *cdk8s.GroupVersionKind

func KubeConfigMapList_IsApiObject 

func KubeConfigMapList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeConfigMapList_IsConstruct 

func KubeConfigMapList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeConfigMapList_Manifest 

func KubeConfigMapList_Manifest(props *KubeConfigMapListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.ConfigMapList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeConfigMapList_Of 

func KubeConfigMapList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeConfigMap_GVK 

func KubeConfigMap_GVK() *cdk8s.GroupVersionKind

func KubeConfigMap_IsApiObject 

func KubeConfigMap_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeConfigMap_IsConstruct 

func KubeConfigMap_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeConfigMap_Manifest 

func KubeConfigMap_Manifest(props *KubeConfigMapProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.ConfigMap".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeConfigMap_Of 

func KubeConfigMap_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeControllerRevisionList_GVK 

func KubeControllerRevisionList_GVK() *cdk8s.GroupVersionKind

func KubeControllerRevisionList_IsApiObject 

func KubeControllerRevisionList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeControllerRevisionList_IsConstruct 

func KubeControllerRevisionList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeControllerRevisionList_Manifest 

func KubeControllerRevisionList_Manifest(props *KubeControllerRevisionListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.apps.v1.ControllerRevisionList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeControllerRevisionList_Of 

func KubeControllerRevisionList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeControllerRevision_GVK 

func KubeControllerRevision_GVK() *cdk8s.GroupVersionKind

func KubeControllerRevision_IsApiObject 

func KubeControllerRevision_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeControllerRevision_IsConstruct 

func KubeControllerRevision_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeControllerRevision_Manifest 

func KubeControllerRevision_Manifest(props *KubeControllerRevisionProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.apps.v1.ControllerRevision".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeControllerRevision_Of 

func KubeControllerRevision_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeCronJobList_GVK 

func KubeCronJobList_GVK() *cdk8s.GroupVersionKind

func KubeCronJobList_IsApiObject 

func KubeCronJobList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeCronJobList_IsConstruct 

func KubeCronJobList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeCronJobList_Manifest 

func KubeCronJobList_Manifest(props *KubeCronJobListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.batch.v1.CronJobList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeCronJobList_Of 

func KubeCronJobList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeCronJob_GVK 

func KubeCronJob_GVK() *cdk8s.GroupVersionKind

func KubeCronJob_IsApiObject 

func KubeCronJob_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeCronJob_IsConstruct 

func KubeCronJob_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeCronJob_Manifest 

func KubeCronJob_Manifest(props *KubeCronJobProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.batch.v1.CronJob".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeCronJob_Of 

func KubeCronJob_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeCsiDriverList_GVK 

func KubeCsiDriverList_GVK() *cdk8s.GroupVersionKind

func KubeCsiDriverList_IsApiObject 

func KubeCsiDriverList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeCsiDriverList_IsConstruct 

func KubeCsiDriverList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeCsiDriverList_Manifest 

func KubeCsiDriverList_Manifest(props *KubeCsiDriverListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.storage.v1.CSIDriverList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeCsiDriverList_Of 

func KubeCsiDriverList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeCsiDriver_GVK 

func KubeCsiDriver_GVK() *cdk8s.GroupVersionKind

func KubeCsiDriver_IsApiObject 

func KubeCsiDriver_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeCsiDriver_IsConstruct 

func KubeCsiDriver_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeCsiDriver_Manifest 

func KubeCsiDriver_Manifest(props *KubeCsiDriverProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.storage.v1.CSIDriver".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeCsiDriver_Of 

func KubeCsiDriver_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeCsiNodeList_GVK 

func KubeCsiNodeList_GVK() *cdk8s.GroupVersionKind

func KubeCsiNodeList_IsApiObject 

func KubeCsiNodeList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeCsiNodeList_IsConstruct 

func KubeCsiNodeList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeCsiNodeList_Manifest 

func KubeCsiNodeList_Manifest(props *KubeCsiNodeListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.storage.v1.CSINodeList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeCsiNodeList_Of 

func KubeCsiNodeList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeCsiNode_GVK 

func KubeCsiNode_GVK() *cdk8s.GroupVersionKind

func KubeCsiNode_IsApiObject 

func KubeCsiNode_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeCsiNode_IsConstruct 

func KubeCsiNode_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeCsiNode_Manifest 

func KubeCsiNode_Manifest(props *KubeCsiNodeProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.storage.v1.CSINode".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeCsiNode_Of 

func KubeCsiNode_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeCsiStorageCapacityList_GVK 

func KubeCsiStorageCapacityList_GVK() *cdk8s.GroupVersionKind

func KubeCsiStorageCapacityList_IsApiObject 

func KubeCsiStorageCapacityList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeCsiStorageCapacityList_IsConstruct 

func KubeCsiStorageCapacityList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeCsiStorageCapacityList_Manifest 

func KubeCsiStorageCapacityList_Manifest(props *KubeCsiStorageCapacityListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.storage.v1.CSIStorageCapacityList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeCsiStorageCapacityList_Of 

func KubeCsiStorageCapacityList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeCsiStorageCapacity_GVK 

func KubeCsiStorageCapacity_GVK() *cdk8s.GroupVersionKind

func KubeCsiStorageCapacity_IsApiObject 

func KubeCsiStorageCapacity_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeCsiStorageCapacity_IsConstruct 

func KubeCsiStorageCapacity_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeCsiStorageCapacity_Manifest 

func KubeCsiStorageCapacity_Manifest(props *KubeCsiStorageCapacityProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.storage.v1.CSIStorageCapacity".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeCsiStorageCapacity_Of 

func KubeCsiStorageCapacity_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeCustomResourceDefinitionList_GVK 

func KubeCustomResourceDefinitionList_GVK() *cdk8s.GroupVersionKind

func KubeCustomResourceDefinitionList_IsApiObject 

func KubeCustomResourceDefinitionList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeCustomResourceDefinitionList_IsConstruct 

func KubeCustomResourceDefinitionList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeCustomResourceDefinitionList_Manifest 

func KubeCustomResourceDefinitionList_Manifest(props *KubeCustomResourceDefinitionListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.apiextensions-apiserver.pkg.apis.apiextensions.v1.CustomResourceDefinitionList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeCustomResourceDefinitionList_Of 

func KubeCustomResourceDefinitionList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeCustomResourceDefinition_GVK 

func KubeCustomResourceDefinition_GVK() *cdk8s.GroupVersionKind

func KubeCustomResourceDefinition_IsApiObject 

func KubeCustomResourceDefinition_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeCustomResourceDefinition_IsConstruct 

func KubeCustomResourceDefinition_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeCustomResourceDefinition_Manifest 

func KubeCustomResourceDefinition_Manifest(props *KubeCustomResourceDefinitionProps) interface{}

Renders a Kubernetes manifest for "io.k8s.apiextensions-apiserver.pkg.apis.apiextensions.v1.CustomResourceDefinition".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeCustomResourceDefinition_Of 

func KubeCustomResourceDefinition_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeDaemonSetList_GVK 

func KubeDaemonSetList_GVK() *cdk8s.GroupVersionKind

func KubeDaemonSetList_IsApiObject 

func KubeDaemonSetList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeDaemonSetList_IsConstruct 

func KubeDaemonSetList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeDaemonSetList_Manifest 

func KubeDaemonSetList_Manifest(props *KubeDaemonSetListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.apps.v1.DaemonSetList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeDaemonSetList_Of 

func KubeDaemonSetList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeDaemonSet_GVK 

func KubeDaemonSet_GVK() *cdk8s.GroupVersionKind

func KubeDaemonSet_IsApiObject 

func KubeDaemonSet_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeDaemonSet_IsConstruct 

func KubeDaemonSet_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeDaemonSet_Manifest 

func KubeDaemonSet_Manifest(props *KubeDaemonSetProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.apps.v1.DaemonSet".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeDaemonSet_Of 

func KubeDaemonSet_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeDeploymentList_GVK 

func KubeDeploymentList_GVK() *cdk8s.GroupVersionKind

func KubeDeploymentList_IsApiObject 

func KubeDeploymentList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeDeploymentList_IsConstruct 

func KubeDeploymentList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeDeploymentList_Manifest 

func KubeDeploymentList_Manifest(props *KubeDeploymentListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.apps.v1.DeploymentList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeDeploymentList_Of 

func KubeDeploymentList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeDeployment_GVK 

func KubeDeployment_GVK() *cdk8s.GroupVersionKind

func KubeDeployment_IsApiObject 

func KubeDeployment_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeDeployment_IsConstruct 

func KubeDeployment_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeDeployment_Manifest 

func KubeDeployment_Manifest(props *KubeDeploymentProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.apps.v1.Deployment".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeDeployment_Of 

func KubeDeployment_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeEndpointSliceList_GVK 

func KubeEndpointSliceList_GVK() *cdk8s.GroupVersionKind

func KubeEndpointSliceList_IsApiObject 

func KubeEndpointSliceList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeEndpointSliceList_IsConstruct 

func KubeEndpointSliceList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeEndpointSliceList_Manifest 

func KubeEndpointSliceList_Manifest(props *KubeEndpointSliceListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.discovery.v1.EndpointSliceList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeEndpointSliceList_Of 

func KubeEndpointSliceList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeEndpointSlice_GVK 

func KubeEndpointSlice_GVK() *cdk8s.GroupVersionKind

func KubeEndpointSlice_IsApiObject 

func KubeEndpointSlice_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeEndpointSlice_IsConstruct 

func KubeEndpointSlice_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeEndpointSlice_Manifest 

func KubeEndpointSlice_Manifest(props *KubeEndpointSliceProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.discovery.v1.EndpointSlice".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeEndpointSlice_Of 

func KubeEndpointSlice_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeEndpointsList_GVK 

func KubeEndpointsList_GVK() *cdk8s.GroupVersionKind

func KubeEndpointsList_IsApiObject 

func KubeEndpointsList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeEndpointsList_IsConstruct 

func KubeEndpointsList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeEndpointsList_Manifest 

func KubeEndpointsList_Manifest(props *KubeEndpointsListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.EndpointsList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeEndpointsList_Of 

func KubeEndpointsList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeEndpoints_GVK 

func KubeEndpoints_GVK() *cdk8s.GroupVersionKind

func KubeEndpoints_IsApiObject 

func KubeEndpoints_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeEndpoints_IsConstruct 

func KubeEndpoints_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeEndpoints_Manifest 

func KubeEndpoints_Manifest(props *KubeEndpointsProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.Endpoints".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeEndpoints_Of 

func KubeEndpoints_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeEventList_GVK 

func KubeEventList_GVK() *cdk8s.GroupVersionKind

func KubeEventList_IsApiObject 

func KubeEventList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeEventList_IsConstruct 

func KubeEventList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeEventList_Manifest 

func KubeEventList_Manifest(props *KubeEventListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.events.v1.EventList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeEventList_Of 

func KubeEventList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeEvent_GVK 

func KubeEvent_GVK() *cdk8s.GroupVersionKind

func KubeEvent_IsApiObject 

func KubeEvent_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeEvent_IsConstruct 

func KubeEvent_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeEvent_Manifest 

func KubeEvent_Manifest(props *KubeEventProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.events.v1.Event".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeEvent_Of 

func KubeEvent_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeEviction_GVK 

func KubeEviction_GVK() *cdk8s.GroupVersionKind

func KubeEviction_IsApiObject 

func KubeEviction_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeEviction_IsConstruct 

func KubeEviction_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeEviction_Manifest 

func KubeEviction_Manifest(props *KubeEvictionProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.policy.v1.Eviction".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeEviction_Of 

func KubeEviction_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeFlowSchemaListV1Beta2_GVK 

func KubeFlowSchemaListV1Beta2_GVK() *cdk8s.GroupVersionKind

func KubeFlowSchemaListV1Beta2_IsApiObject 

func KubeFlowSchemaListV1Beta2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeFlowSchemaListV1Beta2_IsConstruct 

func KubeFlowSchemaListV1Beta2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeFlowSchemaListV1Beta2_Manifest 

func KubeFlowSchemaListV1Beta2_Manifest(props *KubeFlowSchemaListV1Beta2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.flowcontrol.v1beta2.FlowSchemaList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeFlowSchemaListV1Beta2_Of 

func KubeFlowSchemaListV1Beta2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeFlowSchemaListV1Beta3_GVK 

func KubeFlowSchemaListV1Beta3_GVK() *cdk8s.GroupVersionKind

func KubeFlowSchemaListV1Beta3_IsApiObject 

func KubeFlowSchemaListV1Beta3_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeFlowSchemaListV1Beta3_IsConstruct 

func KubeFlowSchemaListV1Beta3_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeFlowSchemaListV1Beta3_Manifest 

func KubeFlowSchemaListV1Beta3_Manifest(props *KubeFlowSchemaListV1Beta3Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.flowcontrol.v1beta3.FlowSchemaList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeFlowSchemaListV1Beta3_Of 

func KubeFlowSchemaListV1Beta3_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeFlowSchemaV1Beta2_GVK 

func KubeFlowSchemaV1Beta2_GVK() *cdk8s.GroupVersionKind

func KubeFlowSchemaV1Beta2_IsApiObject 

func KubeFlowSchemaV1Beta2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeFlowSchemaV1Beta2_IsConstruct 

func KubeFlowSchemaV1Beta2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeFlowSchemaV1Beta2_Manifest 

func KubeFlowSchemaV1Beta2_Manifest(props *KubeFlowSchemaV1Beta2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.flowcontrol.v1beta2.FlowSchema".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeFlowSchemaV1Beta2_Of 

func KubeFlowSchemaV1Beta2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeFlowSchemaV1Beta3_GVK 

func KubeFlowSchemaV1Beta3_GVK() *cdk8s.GroupVersionKind

func KubeFlowSchemaV1Beta3_IsApiObject 

func KubeFlowSchemaV1Beta3_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeFlowSchemaV1Beta3_IsConstruct 

func KubeFlowSchemaV1Beta3_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeFlowSchemaV1Beta3_Manifest 

func KubeFlowSchemaV1Beta3_Manifest(props *KubeFlowSchemaV1Beta3Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.flowcontrol.v1beta3.FlowSchema".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeFlowSchemaV1Beta3_Of 

func KubeFlowSchemaV1Beta3_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeHorizontalPodAutoscalerListV2_GVK 

func KubeHorizontalPodAutoscalerListV2_GVK() *cdk8s.GroupVersionKind

func KubeHorizontalPodAutoscalerListV2_IsApiObject 

func KubeHorizontalPodAutoscalerListV2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeHorizontalPodAutoscalerListV2_IsConstruct 

func KubeHorizontalPodAutoscalerListV2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeHorizontalPodAutoscalerListV2_Manifest 

func KubeHorizontalPodAutoscalerListV2_Manifest(props *KubeHorizontalPodAutoscalerListV2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.autoscaling.v2.HorizontalPodAutoscalerList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeHorizontalPodAutoscalerListV2_Of 

func KubeHorizontalPodAutoscalerListV2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeHorizontalPodAutoscalerList_GVK 

func KubeHorizontalPodAutoscalerList_GVK() *cdk8s.GroupVersionKind

func KubeHorizontalPodAutoscalerList_IsApiObject 

func KubeHorizontalPodAutoscalerList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeHorizontalPodAutoscalerList_IsConstruct 

func KubeHorizontalPodAutoscalerList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeHorizontalPodAutoscalerList_Manifest 

func KubeHorizontalPodAutoscalerList_Manifest(props *KubeHorizontalPodAutoscalerListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.autoscaling.v1.HorizontalPodAutoscalerList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeHorizontalPodAutoscalerList_Of 

func KubeHorizontalPodAutoscalerList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeHorizontalPodAutoscalerV2_GVK 

func KubeHorizontalPodAutoscalerV2_GVK() *cdk8s.GroupVersionKind

func KubeHorizontalPodAutoscalerV2_IsApiObject 

func KubeHorizontalPodAutoscalerV2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeHorizontalPodAutoscalerV2_IsConstruct 

func KubeHorizontalPodAutoscalerV2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeHorizontalPodAutoscalerV2_Manifest 

func KubeHorizontalPodAutoscalerV2_Manifest(props *KubeHorizontalPodAutoscalerV2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.autoscaling.v2.HorizontalPodAutoscaler".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeHorizontalPodAutoscalerV2_Of 

func KubeHorizontalPodAutoscalerV2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeHorizontalPodAutoscaler_GVK 

func KubeHorizontalPodAutoscaler_GVK() *cdk8s.GroupVersionKind

func KubeHorizontalPodAutoscaler_IsApiObject 

func KubeHorizontalPodAutoscaler_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeHorizontalPodAutoscaler_IsConstruct 

func KubeHorizontalPodAutoscaler_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeHorizontalPodAutoscaler_Manifest 

func KubeHorizontalPodAutoscaler_Manifest(props *KubeHorizontalPodAutoscalerProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.autoscaling.v1.HorizontalPodAutoscaler".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeHorizontalPodAutoscaler_Of 

func KubeHorizontalPodAutoscaler_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeIngressClassList_GVK 

func KubeIngressClassList_GVK() *cdk8s.GroupVersionKind

func KubeIngressClassList_IsApiObject 

func KubeIngressClassList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeIngressClassList_IsConstruct 

func KubeIngressClassList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeIngressClassList_Manifest 

func KubeIngressClassList_Manifest(props *KubeIngressClassListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.networking.v1.IngressClassList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeIngressClassList_Of 

func KubeIngressClassList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeIngressClass_GVK 

func KubeIngressClass_GVK() *cdk8s.GroupVersionKind

func KubeIngressClass_IsApiObject 

func KubeIngressClass_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeIngressClass_IsConstruct 

func KubeIngressClass_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeIngressClass_Manifest 

func KubeIngressClass_Manifest(props *KubeIngressClassProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.networking.v1.IngressClass".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeIngressClass_Of 

func KubeIngressClass_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeIngressList_GVK 

func KubeIngressList_GVK() *cdk8s.GroupVersionKind

func KubeIngressList_IsApiObject 

func KubeIngressList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeIngressList_IsConstruct 

func KubeIngressList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeIngressList_Manifest 

func KubeIngressList_Manifest(props *KubeIngressListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.networking.v1.IngressList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeIngressList_Of 

func KubeIngressList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeIngress_GVK 

func KubeIngress_GVK() *cdk8s.GroupVersionKind

func KubeIngress_IsApiObject 

func KubeIngress_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeIngress_IsConstruct 

func KubeIngress_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeIngress_Manifest 

func KubeIngress_Manifest(props *KubeIngressProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.networking.v1.Ingress".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeIngress_Of 

func KubeIngress_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeIpAddressListV1Alpha1_GVK 

func KubeIpAddressListV1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeIpAddressListV1Alpha1_IsApiObject 

func KubeIpAddressListV1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeIpAddressListV1Alpha1_IsConstruct 

func KubeIpAddressListV1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeIpAddressListV1Alpha1_Manifest 

func KubeIpAddressListV1Alpha1_Manifest(props *KubeIpAddressListV1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.networking.v1alpha1.IPAddressList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeIpAddressListV1Alpha1_Of 

func KubeIpAddressListV1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeIpAddressV1Alpha1_GVK 

func KubeIpAddressV1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeIpAddressV1Alpha1_IsApiObject 

func KubeIpAddressV1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeIpAddressV1Alpha1_IsConstruct 

func KubeIpAddressV1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeIpAddressV1Alpha1_Manifest 

func KubeIpAddressV1Alpha1_Manifest(props *KubeIpAddressV1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.networking.v1alpha1.IPAddress".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeIpAddressV1Alpha1_Of 

func KubeIpAddressV1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeJobList_GVK 

func KubeJobList_GVK() *cdk8s.GroupVersionKind

func KubeJobList_IsApiObject 

func KubeJobList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeJobList_IsConstruct 

func KubeJobList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeJobList_Manifest 

func KubeJobList_Manifest(props *KubeJobListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.batch.v1.JobList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeJobList_Of 

func KubeJobList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeJob_GVK 

func KubeJob_GVK() *cdk8s.GroupVersionKind

func KubeJob_IsApiObject 

func KubeJob_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeJob_IsConstruct 

func KubeJob_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeJob_Manifest 

func KubeJob_Manifest(props *KubeJobProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.batch.v1.Job".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeJob_Of 

func KubeJob_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeLeaseList_GVK 

func KubeLeaseList_GVK() *cdk8s.GroupVersionKind

func KubeLeaseList_IsApiObject 

func KubeLeaseList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeLeaseList_IsConstruct 

func KubeLeaseList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeLeaseList_Manifest 

func KubeLeaseList_Manifest(props *KubeLeaseListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.coordination.v1.LeaseList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeLeaseList_Of 

func KubeLeaseList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeLease_GVK 

func KubeLease_GVK() *cdk8s.GroupVersionKind

func KubeLease_IsApiObject 

func KubeLease_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeLease_IsConstruct 

func KubeLease_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeLease_Manifest 

func KubeLease_Manifest(props *KubeLeaseProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.coordination.v1.Lease".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeLease_Of 

func KubeLease_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeLimitRangeList_GVK 

func KubeLimitRangeList_GVK() *cdk8s.GroupVersionKind

func KubeLimitRangeList_IsApiObject 

func KubeLimitRangeList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeLimitRangeList_IsConstruct 

func KubeLimitRangeList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeLimitRangeList_Manifest 

func KubeLimitRangeList_Manifest(props *KubeLimitRangeListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.LimitRangeList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeLimitRangeList_Of 

func KubeLimitRangeList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeLimitRange_GVK 

func KubeLimitRange_GVK() *cdk8s.GroupVersionKind

func KubeLimitRange_IsApiObject 

func KubeLimitRange_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeLimitRange_IsConstruct 

func KubeLimitRange_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeLimitRange_Manifest 

func KubeLimitRange_Manifest(props *KubeLimitRangeProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.LimitRange".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeLimitRange_Of 

func KubeLimitRange_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeLocalSubjectAccessReview_GVK 

func KubeLocalSubjectAccessReview_GVK() *cdk8s.GroupVersionKind

func KubeLocalSubjectAccessReview_IsApiObject 

func KubeLocalSubjectAccessReview_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeLocalSubjectAccessReview_IsConstruct 

func KubeLocalSubjectAccessReview_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeLocalSubjectAccessReview_Manifest 

func KubeLocalSubjectAccessReview_Manifest(props *KubeLocalSubjectAccessReviewProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.authorization.v1.LocalSubjectAccessReview".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeLocalSubjectAccessReview_Of 

func KubeLocalSubjectAccessReview_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeMutatingWebhookConfigurationList_GVK 

func KubeMutatingWebhookConfigurationList_GVK() *cdk8s.GroupVersionKind

func KubeMutatingWebhookConfigurationList_IsApiObject 

func KubeMutatingWebhookConfigurationList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeMutatingWebhookConfigurationList_IsConstruct 

func KubeMutatingWebhookConfigurationList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeMutatingWebhookConfigurationList_Manifest 

func KubeMutatingWebhookConfigurationList_Manifest(props *KubeMutatingWebhookConfigurationListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.admissionregistration.v1.MutatingWebhookConfigurationList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeMutatingWebhookConfigurationList_Of 

func KubeMutatingWebhookConfigurationList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeMutatingWebhookConfiguration_GVK 

func KubeMutatingWebhookConfiguration_GVK() *cdk8s.GroupVersionKind

func KubeMutatingWebhookConfiguration_IsApiObject 

func KubeMutatingWebhookConfiguration_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeMutatingWebhookConfiguration_IsConstruct 

func KubeMutatingWebhookConfiguration_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeMutatingWebhookConfiguration_Manifest 

func KubeMutatingWebhookConfiguration_Manifest(props *KubeMutatingWebhookConfigurationProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.admissionregistration.v1.MutatingWebhookConfiguration".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeMutatingWebhookConfiguration_Of 

func KubeMutatingWebhookConfiguration_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeNamespaceList_GVK 

func KubeNamespaceList_GVK() *cdk8s.GroupVersionKind

func KubeNamespaceList_IsApiObject 

func KubeNamespaceList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeNamespaceList_IsConstruct 

func KubeNamespaceList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeNamespaceList_Manifest 

func KubeNamespaceList_Manifest(props *KubeNamespaceListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.NamespaceList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeNamespaceList_Of 

func KubeNamespaceList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeNamespace_GVK 

func KubeNamespace_GVK() *cdk8s.GroupVersionKind

func KubeNamespace_IsApiObject 

func KubeNamespace_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeNamespace_IsConstruct 

func KubeNamespace_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeNamespace_Manifest 

func KubeNamespace_Manifest(props *KubeNamespaceProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.Namespace".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeNamespace_Of 

func KubeNamespace_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeNetworkPolicyList_GVK 

func KubeNetworkPolicyList_GVK() *cdk8s.GroupVersionKind

func KubeNetworkPolicyList_IsApiObject 

func KubeNetworkPolicyList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeNetworkPolicyList_IsConstruct 

func KubeNetworkPolicyList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeNetworkPolicyList_Manifest 

func KubeNetworkPolicyList_Manifest(props *KubeNetworkPolicyListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.networking.v1.NetworkPolicyList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeNetworkPolicyList_Of 

func KubeNetworkPolicyList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeNetworkPolicy_GVK 

func KubeNetworkPolicy_GVK() *cdk8s.GroupVersionKind

func KubeNetworkPolicy_IsApiObject 

func KubeNetworkPolicy_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeNetworkPolicy_IsConstruct 

func KubeNetworkPolicy_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeNetworkPolicy_Manifest 

func KubeNetworkPolicy_Manifest(props *KubeNetworkPolicyProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.networking.v1.NetworkPolicy".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeNetworkPolicy_Of 

func KubeNetworkPolicy_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeNodeList_GVK 

func KubeNodeList_GVK() *cdk8s.GroupVersionKind

func KubeNodeList_IsApiObject 

func KubeNodeList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeNodeList_IsConstruct 

func KubeNodeList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeNodeList_Manifest 

func KubeNodeList_Manifest(props *KubeNodeListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.NodeList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeNodeList_Of 

func KubeNodeList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeNode_GVK 

func KubeNode_GVK() *cdk8s.GroupVersionKind

func KubeNode_IsApiObject 

func KubeNode_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeNode_IsConstruct 

func KubeNode_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeNode_Manifest 

func KubeNode_Manifest(props *KubeNodeProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.Node".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeNode_Of 

func KubeNode_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePersistentVolumeClaimList_GVK 

func KubePersistentVolumeClaimList_GVK() *cdk8s.GroupVersionKind

func KubePersistentVolumeClaimList_IsApiObject 

func KubePersistentVolumeClaimList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePersistentVolumeClaimList_IsConstruct 

func KubePersistentVolumeClaimList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePersistentVolumeClaimList_Manifest 

func KubePersistentVolumeClaimList_Manifest(props *KubePersistentVolumeClaimListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.PersistentVolumeClaimList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePersistentVolumeClaimList_Of 

func KubePersistentVolumeClaimList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePersistentVolumeClaim_GVK 

func KubePersistentVolumeClaim_GVK() *cdk8s.GroupVersionKind

func KubePersistentVolumeClaim_IsApiObject 

func KubePersistentVolumeClaim_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePersistentVolumeClaim_IsConstruct 

func KubePersistentVolumeClaim_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePersistentVolumeClaim_Manifest 

func KubePersistentVolumeClaim_Manifest(props *KubePersistentVolumeClaimProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.PersistentVolumeClaim".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePersistentVolumeClaim_Of 

func KubePersistentVolumeClaim_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePersistentVolumeList_GVK 

func KubePersistentVolumeList_GVK() *cdk8s.GroupVersionKind

func KubePersistentVolumeList_IsApiObject 

func KubePersistentVolumeList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePersistentVolumeList_IsConstruct 

func KubePersistentVolumeList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePersistentVolumeList_Manifest 

func KubePersistentVolumeList_Manifest(props *KubePersistentVolumeListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.PersistentVolumeList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePersistentVolumeList_Of 

func KubePersistentVolumeList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePersistentVolume_GVK 

func KubePersistentVolume_GVK() *cdk8s.GroupVersionKind

func KubePersistentVolume_IsApiObject 

func KubePersistentVolume_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePersistentVolume_IsConstruct 

func KubePersistentVolume_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePersistentVolume_Manifest 

func KubePersistentVolume_Manifest(props *KubePersistentVolumeProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.PersistentVolume".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePersistentVolume_Of 

func KubePersistentVolume_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePodDisruptionBudgetList_GVK 

func KubePodDisruptionBudgetList_GVK() *cdk8s.GroupVersionKind

func KubePodDisruptionBudgetList_IsApiObject 

func KubePodDisruptionBudgetList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePodDisruptionBudgetList_IsConstruct 

func KubePodDisruptionBudgetList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePodDisruptionBudgetList_Manifest 

func KubePodDisruptionBudgetList_Manifest(props *KubePodDisruptionBudgetListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.policy.v1.PodDisruptionBudgetList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePodDisruptionBudgetList_Of 

func KubePodDisruptionBudgetList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePodDisruptionBudget_GVK 

func KubePodDisruptionBudget_GVK() *cdk8s.GroupVersionKind

func KubePodDisruptionBudget_IsApiObject 

func KubePodDisruptionBudget_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePodDisruptionBudget_IsConstruct 

func KubePodDisruptionBudget_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePodDisruptionBudget_Manifest 

func KubePodDisruptionBudget_Manifest(props *KubePodDisruptionBudgetProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.policy.v1.PodDisruptionBudget".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePodDisruptionBudget_Of 

func KubePodDisruptionBudget_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePodList_GVK 

func KubePodList_GVK() *cdk8s.GroupVersionKind

func KubePodList_IsApiObject 

func KubePodList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePodList_IsConstruct 

func KubePodList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePodList_Manifest 

func KubePodList_Manifest(props *KubePodListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.PodList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePodList_Of 

func KubePodList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePodSchedulingContextListV1Alpha2_GVK 

func KubePodSchedulingContextListV1Alpha2_GVK() *cdk8s.GroupVersionKind

func KubePodSchedulingContextListV1Alpha2_IsApiObject 

func KubePodSchedulingContextListV1Alpha2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePodSchedulingContextListV1Alpha2_IsConstruct 

func KubePodSchedulingContextListV1Alpha2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePodSchedulingContextListV1Alpha2_Manifest 

func KubePodSchedulingContextListV1Alpha2_Manifest(props *KubePodSchedulingContextListV1Alpha2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.resource.v1alpha2.PodSchedulingContextList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePodSchedulingContextListV1Alpha2_Of 

func KubePodSchedulingContextListV1Alpha2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePodSchedulingContextV1Alpha2_GVK 

func KubePodSchedulingContextV1Alpha2_GVK() *cdk8s.GroupVersionKind

func KubePodSchedulingContextV1Alpha2_IsApiObject 

func KubePodSchedulingContextV1Alpha2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePodSchedulingContextV1Alpha2_IsConstruct 

func KubePodSchedulingContextV1Alpha2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePodSchedulingContextV1Alpha2_Manifest 

func KubePodSchedulingContextV1Alpha2_Manifest(props *KubePodSchedulingContextV1Alpha2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.resource.v1alpha2.PodSchedulingContext".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePodSchedulingContextV1Alpha2_Of 

func KubePodSchedulingContextV1Alpha2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePodTemplateList_GVK 

func KubePodTemplateList_GVK() *cdk8s.GroupVersionKind

func KubePodTemplateList_IsApiObject 

func KubePodTemplateList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePodTemplateList_IsConstruct 

func KubePodTemplateList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePodTemplateList_Manifest 

func KubePodTemplateList_Manifest(props *KubePodTemplateListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.PodTemplateList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePodTemplateList_Of 

func KubePodTemplateList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePodTemplate_GVK 

func KubePodTemplate_GVK() *cdk8s.GroupVersionKind

func KubePodTemplate_IsApiObject 

func KubePodTemplate_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePodTemplate_IsConstruct 

func KubePodTemplate_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePodTemplate_Manifest 

func KubePodTemplate_Manifest(props *KubePodTemplateProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.PodTemplate".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePodTemplate_Of 

func KubePodTemplate_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePod_GVK 

func KubePod_GVK() *cdk8s.GroupVersionKind

func KubePod_IsApiObject 

func KubePod_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePod_IsConstruct 

func KubePod_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePod_Manifest 

func KubePod_Manifest(props *KubePodProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.Pod".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePod_Of 

func KubePod_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePriorityClassList_GVK 

func KubePriorityClassList_GVK() *cdk8s.GroupVersionKind

func KubePriorityClassList_IsApiObject 

func KubePriorityClassList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePriorityClassList_IsConstruct 

func KubePriorityClassList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePriorityClassList_Manifest 

func KubePriorityClassList_Manifest(props *KubePriorityClassListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.scheduling.v1.PriorityClassList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePriorityClassList_Of 

func KubePriorityClassList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePriorityClass_GVK 

func KubePriorityClass_GVK() *cdk8s.GroupVersionKind

func KubePriorityClass_IsApiObject 

func KubePriorityClass_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePriorityClass_IsConstruct 

func KubePriorityClass_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePriorityClass_Manifest 

func KubePriorityClass_Manifest(props *KubePriorityClassProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.scheduling.v1.PriorityClass".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePriorityClass_Of 

func KubePriorityClass_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePriorityLevelConfigurationListV1Beta2_GVK 

func KubePriorityLevelConfigurationListV1Beta2_GVK() *cdk8s.GroupVersionKind

func KubePriorityLevelConfigurationListV1Beta2_IsApiObject 

func KubePriorityLevelConfigurationListV1Beta2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePriorityLevelConfigurationListV1Beta2_IsConstruct 

func KubePriorityLevelConfigurationListV1Beta2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePriorityLevelConfigurationListV1Beta2_Manifest 

func KubePriorityLevelConfigurationListV1Beta2_Manifest(props *KubePriorityLevelConfigurationListV1Beta2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.flowcontrol.v1beta2.PriorityLevelConfigurationList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePriorityLevelConfigurationListV1Beta2_Of 

func KubePriorityLevelConfigurationListV1Beta2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePriorityLevelConfigurationListV1Beta3_GVK 

func KubePriorityLevelConfigurationListV1Beta3_GVK() *cdk8s.GroupVersionKind

func KubePriorityLevelConfigurationListV1Beta3_IsApiObject 

func KubePriorityLevelConfigurationListV1Beta3_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePriorityLevelConfigurationListV1Beta3_IsConstruct 

func KubePriorityLevelConfigurationListV1Beta3_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePriorityLevelConfigurationListV1Beta3_Manifest 

func KubePriorityLevelConfigurationListV1Beta3_Manifest(props *KubePriorityLevelConfigurationListV1Beta3Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.flowcontrol.v1beta3.PriorityLevelConfigurationList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePriorityLevelConfigurationListV1Beta3_Of 

func KubePriorityLevelConfigurationListV1Beta3_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePriorityLevelConfigurationV1Beta2_GVK 

func KubePriorityLevelConfigurationV1Beta2_GVK() *cdk8s.GroupVersionKind

func KubePriorityLevelConfigurationV1Beta2_IsApiObject 

func KubePriorityLevelConfigurationV1Beta2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePriorityLevelConfigurationV1Beta2_IsConstruct 

func KubePriorityLevelConfigurationV1Beta2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePriorityLevelConfigurationV1Beta2_Manifest 

func KubePriorityLevelConfigurationV1Beta2_Manifest(props *KubePriorityLevelConfigurationV1Beta2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.flowcontrol.v1beta2.PriorityLevelConfiguration".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePriorityLevelConfigurationV1Beta2_Of 

func KubePriorityLevelConfigurationV1Beta2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubePriorityLevelConfigurationV1Beta3_GVK 

func KubePriorityLevelConfigurationV1Beta3_GVK() *cdk8s.GroupVersionKind

func KubePriorityLevelConfigurationV1Beta3_IsApiObject 

func KubePriorityLevelConfigurationV1Beta3_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubePriorityLevelConfigurationV1Beta3_IsConstruct 

func KubePriorityLevelConfigurationV1Beta3_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubePriorityLevelConfigurationV1Beta3_Manifest 

func KubePriorityLevelConfigurationV1Beta3_Manifest(props *KubePriorityLevelConfigurationV1Beta3Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.flowcontrol.v1beta3.PriorityLevelConfiguration".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubePriorityLevelConfigurationV1Beta3_Of 

func KubePriorityLevelConfigurationV1Beta3_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeReplicaSetList_GVK 

func KubeReplicaSetList_GVK() *cdk8s.GroupVersionKind

func KubeReplicaSetList_IsApiObject 

func KubeReplicaSetList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeReplicaSetList_IsConstruct 

func KubeReplicaSetList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeReplicaSetList_Manifest 

func KubeReplicaSetList_Manifest(props *KubeReplicaSetListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.apps.v1.ReplicaSetList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeReplicaSetList_Of 

func KubeReplicaSetList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeReplicaSet_GVK 

func KubeReplicaSet_GVK() *cdk8s.GroupVersionKind

func KubeReplicaSet_IsApiObject 

func KubeReplicaSet_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeReplicaSet_IsConstruct 

func KubeReplicaSet_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeReplicaSet_Manifest 

func KubeReplicaSet_Manifest(props *KubeReplicaSetProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.apps.v1.ReplicaSet".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeReplicaSet_Of 

func KubeReplicaSet_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeReplicationControllerList_GVK 

func KubeReplicationControllerList_GVK() *cdk8s.GroupVersionKind

func KubeReplicationControllerList_IsApiObject 

func KubeReplicationControllerList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeReplicationControllerList_IsConstruct 

func KubeReplicationControllerList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeReplicationControllerList_Manifest 

func KubeReplicationControllerList_Manifest(props *KubeReplicationControllerListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.ReplicationControllerList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeReplicationControllerList_Of 

func KubeReplicationControllerList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeReplicationController_GVK 

func KubeReplicationController_GVK() *cdk8s.GroupVersionKind

func KubeReplicationController_IsApiObject 

func KubeReplicationController_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeReplicationController_IsConstruct 

func KubeReplicationController_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeReplicationController_Manifest 

func KubeReplicationController_Manifest(props *KubeReplicationControllerProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.ReplicationController".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeReplicationController_Of 

func KubeReplicationController_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeResourceClaimListV1Alpha2_GVK 

func KubeResourceClaimListV1Alpha2_GVK() *cdk8s.GroupVersionKind

func KubeResourceClaimListV1Alpha2_IsApiObject 

func KubeResourceClaimListV1Alpha2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeResourceClaimListV1Alpha2_IsConstruct 

func KubeResourceClaimListV1Alpha2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeResourceClaimListV1Alpha2_Manifest 

func KubeResourceClaimListV1Alpha2_Manifest(props *KubeResourceClaimListV1Alpha2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.resource.v1alpha2.ResourceClaimList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeResourceClaimListV1Alpha2_Of 

func KubeResourceClaimListV1Alpha2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeResourceClaimTemplateListV1Alpha2_GVK 

func KubeResourceClaimTemplateListV1Alpha2_GVK() *cdk8s.GroupVersionKind

func KubeResourceClaimTemplateListV1Alpha2_IsApiObject 

func KubeResourceClaimTemplateListV1Alpha2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeResourceClaimTemplateListV1Alpha2_IsConstruct 

func KubeResourceClaimTemplateListV1Alpha2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeResourceClaimTemplateListV1Alpha2_Manifest 

func KubeResourceClaimTemplateListV1Alpha2_Manifest(props *KubeResourceClaimTemplateListV1Alpha2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.resource.v1alpha2.ResourceClaimTemplateList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeResourceClaimTemplateListV1Alpha2_Of 

func KubeResourceClaimTemplateListV1Alpha2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeResourceClaimTemplateV1Alpha2_GVK 

func KubeResourceClaimTemplateV1Alpha2_GVK() *cdk8s.GroupVersionKind

func KubeResourceClaimTemplateV1Alpha2_IsApiObject 

func KubeResourceClaimTemplateV1Alpha2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeResourceClaimTemplateV1Alpha2_IsConstruct 

func KubeResourceClaimTemplateV1Alpha2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeResourceClaimTemplateV1Alpha2_Manifest 

func KubeResourceClaimTemplateV1Alpha2_Manifest(props *KubeResourceClaimTemplateV1Alpha2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.resource.v1alpha2.ResourceClaimTemplate".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeResourceClaimTemplateV1Alpha2_Of 

func KubeResourceClaimTemplateV1Alpha2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeResourceClaimV1Alpha2_GVK 

func KubeResourceClaimV1Alpha2_GVK() *cdk8s.GroupVersionKind

func KubeResourceClaimV1Alpha2_IsApiObject 

func KubeResourceClaimV1Alpha2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeResourceClaimV1Alpha2_IsConstruct 

func KubeResourceClaimV1Alpha2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeResourceClaimV1Alpha2_Manifest 

func KubeResourceClaimV1Alpha2_Manifest(props *KubeResourceClaimV1Alpha2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.resource.v1alpha2.ResourceClaim".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeResourceClaimV1Alpha2_Of 

func KubeResourceClaimV1Alpha2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeResourceClassListV1Alpha2_GVK 

func KubeResourceClassListV1Alpha2_GVK() *cdk8s.GroupVersionKind

func KubeResourceClassListV1Alpha2_IsApiObject 

func KubeResourceClassListV1Alpha2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeResourceClassListV1Alpha2_IsConstruct 

func KubeResourceClassListV1Alpha2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeResourceClassListV1Alpha2_Manifest 

func KubeResourceClassListV1Alpha2_Manifest(props *KubeResourceClassListV1Alpha2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.resource.v1alpha2.ResourceClassList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeResourceClassListV1Alpha2_Of 

func KubeResourceClassListV1Alpha2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeResourceClassV1Alpha2_GVK 

func KubeResourceClassV1Alpha2_GVK() *cdk8s.GroupVersionKind

func KubeResourceClassV1Alpha2_IsApiObject 

func KubeResourceClassV1Alpha2_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeResourceClassV1Alpha2_IsConstruct 

func KubeResourceClassV1Alpha2_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeResourceClassV1Alpha2_Manifest 

func KubeResourceClassV1Alpha2_Manifest(props *KubeResourceClassV1Alpha2Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.resource.v1alpha2.ResourceClass".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeResourceClassV1Alpha2_Of 

func KubeResourceClassV1Alpha2_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeResourceQuotaList_GVK 

func KubeResourceQuotaList_GVK() *cdk8s.GroupVersionKind

func KubeResourceQuotaList_IsApiObject 

func KubeResourceQuotaList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeResourceQuotaList_IsConstruct 

func KubeResourceQuotaList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeResourceQuotaList_Manifest 

func KubeResourceQuotaList_Manifest(props *KubeResourceQuotaListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.ResourceQuotaList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeResourceQuotaList_Of 

func KubeResourceQuotaList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeResourceQuota_GVK 

func KubeResourceQuota_GVK() *cdk8s.GroupVersionKind

func KubeResourceQuota_IsApiObject 

func KubeResourceQuota_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeResourceQuota_IsConstruct 

func KubeResourceQuota_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeResourceQuota_Manifest 

func KubeResourceQuota_Manifest(props *KubeResourceQuotaProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.ResourceQuota".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeResourceQuota_Of 

func KubeResourceQuota_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeRoleBindingList_GVK 

func KubeRoleBindingList_GVK() *cdk8s.GroupVersionKind

func KubeRoleBindingList_IsApiObject 

func KubeRoleBindingList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeRoleBindingList_IsConstruct 

func KubeRoleBindingList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeRoleBindingList_Manifest 

func KubeRoleBindingList_Manifest(props *KubeRoleBindingListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.rbac.v1.RoleBindingList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeRoleBindingList_Of 

func KubeRoleBindingList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeRoleBinding_GVK 

func KubeRoleBinding_GVK() *cdk8s.GroupVersionKind

func KubeRoleBinding_IsApiObject 

func KubeRoleBinding_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeRoleBinding_IsConstruct 

func KubeRoleBinding_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeRoleBinding_Manifest 

func KubeRoleBinding_Manifest(props *KubeRoleBindingProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.rbac.v1.RoleBinding".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeRoleBinding_Of 

func KubeRoleBinding_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeRoleList_GVK 

func KubeRoleList_GVK() *cdk8s.GroupVersionKind

func KubeRoleList_IsApiObject 

func KubeRoleList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeRoleList_IsConstruct 

func KubeRoleList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeRoleList_Manifest 

func KubeRoleList_Manifest(props *KubeRoleListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.rbac.v1.RoleList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeRoleList_Of 

func KubeRoleList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeRole_GVK 

func KubeRole_GVK() *cdk8s.GroupVersionKind

func KubeRole_IsApiObject 

func KubeRole_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeRole_IsConstruct 

func KubeRole_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeRole_Manifest 

func KubeRole_Manifest(props *KubeRoleProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.rbac.v1.Role".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeRole_Of 

func KubeRole_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeRuntimeClassList_GVK 

func KubeRuntimeClassList_GVK() *cdk8s.GroupVersionKind

func KubeRuntimeClassList_IsApiObject 

func KubeRuntimeClassList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeRuntimeClassList_IsConstruct 

func KubeRuntimeClassList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeRuntimeClassList_Manifest 

func KubeRuntimeClassList_Manifest(props *KubeRuntimeClassListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.node.v1.RuntimeClassList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeRuntimeClassList_Of 

func KubeRuntimeClassList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeRuntimeClass_GVK 

func KubeRuntimeClass_GVK() *cdk8s.GroupVersionKind

func KubeRuntimeClass_IsApiObject 

func KubeRuntimeClass_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeRuntimeClass_IsConstruct 

func KubeRuntimeClass_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeRuntimeClass_Manifest 

func KubeRuntimeClass_Manifest(props *KubeRuntimeClassProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.node.v1.RuntimeClass".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeRuntimeClass_Of 

func KubeRuntimeClass_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeScale_GVK 

func KubeScale_GVK() *cdk8s.GroupVersionKind

func KubeScale_IsApiObject 

func KubeScale_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeScale_IsConstruct 

func KubeScale_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeScale_Manifest 

func KubeScale_Manifest(props *KubeScaleProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.autoscaling.v1.Scale".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeScale_Of 

func KubeScale_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeSecretList_GVK 

func KubeSecretList_GVK() *cdk8s.GroupVersionKind

func KubeSecretList_IsApiObject 

func KubeSecretList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeSecretList_IsConstruct 

func KubeSecretList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeSecretList_Manifest 

func KubeSecretList_Manifest(props *KubeSecretListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.SecretList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeSecretList_Of 

func KubeSecretList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeSecret_GVK 

func KubeSecret_GVK() *cdk8s.GroupVersionKind

func KubeSecret_IsApiObject 

func KubeSecret_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeSecret_IsConstruct 

func KubeSecret_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeSecret_Manifest 

func KubeSecret_Manifest(props *KubeSecretProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.Secret".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeSecret_Of 

func KubeSecret_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeSelfSubjectAccessReview_GVK 

func KubeSelfSubjectAccessReview_GVK() *cdk8s.GroupVersionKind

func KubeSelfSubjectAccessReview_IsApiObject 

func KubeSelfSubjectAccessReview_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeSelfSubjectAccessReview_IsConstruct 

func KubeSelfSubjectAccessReview_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeSelfSubjectAccessReview_Manifest 

func KubeSelfSubjectAccessReview_Manifest(props *KubeSelfSubjectAccessReviewProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.authorization.v1.SelfSubjectAccessReview".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeSelfSubjectAccessReview_Of 

func KubeSelfSubjectAccessReview_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeSelfSubjectReviewV1Alpha1_GVK 

func KubeSelfSubjectReviewV1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeSelfSubjectReviewV1Alpha1_IsApiObject 

func KubeSelfSubjectReviewV1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeSelfSubjectReviewV1Alpha1_IsConstruct 

func KubeSelfSubjectReviewV1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeSelfSubjectReviewV1Alpha1_Manifest 

func KubeSelfSubjectReviewV1Alpha1_Manifest(props *KubeSelfSubjectReviewV1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.authentication.v1alpha1.SelfSubjectReview".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeSelfSubjectReviewV1Alpha1_Of 

func KubeSelfSubjectReviewV1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeSelfSubjectReviewV1Beta1_GVK 

func KubeSelfSubjectReviewV1Beta1_GVK() *cdk8s.GroupVersionKind

func KubeSelfSubjectReviewV1Beta1_IsApiObject 

func KubeSelfSubjectReviewV1Beta1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeSelfSubjectReviewV1Beta1_IsConstruct 

func KubeSelfSubjectReviewV1Beta1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeSelfSubjectReviewV1Beta1_Manifest 

func KubeSelfSubjectReviewV1Beta1_Manifest(props *KubeSelfSubjectReviewV1Beta1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.authentication.v1beta1.SelfSubjectReview".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeSelfSubjectReviewV1Beta1_Of 

func KubeSelfSubjectReviewV1Beta1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeSelfSubjectRulesReview_GVK 

func KubeSelfSubjectRulesReview_GVK() *cdk8s.GroupVersionKind

func KubeSelfSubjectRulesReview_IsApiObject 

func KubeSelfSubjectRulesReview_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeSelfSubjectRulesReview_IsConstruct 

func KubeSelfSubjectRulesReview_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeSelfSubjectRulesReview_Manifest 

func KubeSelfSubjectRulesReview_Manifest(props *KubeSelfSubjectRulesReviewProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.authorization.v1.SelfSubjectRulesReview".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeSelfSubjectRulesReview_Of 

func KubeSelfSubjectRulesReview_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeServiceAccountList_GVK 

func KubeServiceAccountList_GVK() *cdk8s.GroupVersionKind

func KubeServiceAccountList_IsApiObject 

func KubeServiceAccountList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeServiceAccountList_IsConstruct 

func KubeServiceAccountList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeServiceAccountList_Manifest 

func KubeServiceAccountList_Manifest(props *KubeServiceAccountListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.ServiceAccountList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeServiceAccountList_Of 

func KubeServiceAccountList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeServiceAccount_GVK 

func KubeServiceAccount_GVK() *cdk8s.GroupVersionKind

func KubeServiceAccount_IsApiObject 

func KubeServiceAccount_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeServiceAccount_IsConstruct 

func KubeServiceAccount_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeServiceAccount_Manifest 

func KubeServiceAccount_Manifest(props *KubeServiceAccountProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.ServiceAccount".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeServiceAccount_Of 

func KubeServiceAccount_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeServiceList_GVK 

func KubeServiceList_GVK() *cdk8s.GroupVersionKind

func KubeServiceList_IsApiObject 

func KubeServiceList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeServiceList_IsConstruct 

func KubeServiceList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeServiceList_Manifest 

func KubeServiceList_Manifest(props *KubeServiceListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.ServiceList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeServiceList_Of 

func KubeServiceList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeService_GVK 

func KubeService_GVK() *cdk8s.GroupVersionKind

func KubeService_IsApiObject 

func KubeService_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeService_IsConstruct 

func KubeService_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeService_Manifest 

func KubeService_Manifest(props *KubeServiceProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.core.v1.Service".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeService_Of 

func KubeService_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeStatefulSetList_GVK 

func KubeStatefulSetList_GVK() *cdk8s.GroupVersionKind

func KubeStatefulSetList_IsApiObject 

func KubeStatefulSetList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeStatefulSetList_IsConstruct 

func KubeStatefulSetList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeStatefulSetList_Manifest 

func KubeStatefulSetList_Manifest(props *KubeStatefulSetListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.apps.v1.StatefulSetList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeStatefulSetList_Of 

func KubeStatefulSetList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeStatefulSet_GVK 

func KubeStatefulSet_GVK() *cdk8s.GroupVersionKind

func KubeStatefulSet_IsApiObject 

func KubeStatefulSet_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeStatefulSet_IsConstruct 

func KubeStatefulSet_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeStatefulSet_Manifest 

func KubeStatefulSet_Manifest(props *KubeStatefulSetProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.apps.v1.StatefulSet".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeStatefulSet_Of 

func KubeStatefulSet_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeStatus_GVK 

func KubeStatus_GVK() *cdk8s.GroupVersionKind

func KubeStatus_IsApiObject 

func KubeStatus_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeStatus_IsConstruct 

func KubeStatus_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeStatus_Manifest 

func KubeStatus_Manifest(props *KubeStatusProps) interface{}

Renders a Kubernetes manifest for "io.k8s.apimachinery.pkg.apis.meta.v1.Status".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeStatus_Of 

func KubeStatus_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeStorageClassList_GVK 

func KubeStorageClassList_GVK() *cdk8s.GroupVersionKind

func KubeStorageClassList_IsApiObject 

func KubeStorageClassList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeStorageClassList_IsConstruct 

func KubeStorageClassList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeStorageClassList_Manifest 

func KubeStorageClassList_Manifest(props *KubeStorageClassListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.storage.v1.StorageClassList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeStorageClassList_Of 

func KubeStorageClassList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeStorageClass_GVK 

func KubeStorageClass_GVK() *cdk8s.GroupVersionKind

func KubeStorageClass_IsApiObject 

func KubeStorageClass_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeStorageClass_IsConstruct 

func KubeStorageClass_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeStorageClass_Manifest 

func KubeStorageClass_Manifest(props *KubeStorageClassProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.storage.v1.StorageClass".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeStorageClass_Of 

func KubeStorageClass_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeStorageVersionListV1Alpha1_GVK 

func KubeStorageVersionListV1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeStorageVersionListV1Alpha1_IsApiObject 

func KubeStorageVersionListV1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeStorageVersionListV1Alpha1_IsConstruct 

func KubeStorageVersionListV1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeStorageVersionListV1Alpha1_Manifest 

func KubeStorageVersionListV1Alpha1_Manifest(props *KubeStorageVersionListV1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.apiserverinternal.v1alpha1.StorageVersionList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeStorageVersionListV1Alpha1_Of 

func KubeStorageVersionListV1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeStorageVersionV1Alpha1_GVK 

func KubeStorageVersionV1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeStorageVersionV1Alpha1_IsApiObject 

func KubeStorageVersionV1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeStorageVersionV1Alpha1_IsConstruct 

func KubeStorageVersionV1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeStorageVersionV1Alpha1_Manifest 

func KubeStorageVersionV1Alpha1_Manifest(props *KubeStorageVersionV1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.apiserverinternal.v1alpha1.StorageVersion".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeStorageVersionV1Alpha1_Of 

func KubeStorageVersionV1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeSubjectAccessReview_GVK 

func KubeSubjectAccessReview_GVK() *cdk8s.GroupVersionKind

func KubeSubjectAccessReview_IsApiObject 

func KubeSubjectAccessReview_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeSubjectAccessReview_IsConstruct 

func KubeSubjectAccessReview_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeSubjectAccessReview_Manifest 

func KubeSubjectAccessReview_Manifest(props *KubeSubjectAccessReviewProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.authorization.v1.SubjectAccessReview".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeSubjectAccessReview_Of 

func KubeSubjectAccessReview_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeTokenRequest_GVK 

func KubeTokenRequest_GVK() *cdk8s.GroupVersionKind

func KubeTokenRequest_IsApiObject 

func KubeTokenRequest_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeTokenRequest_IsConstruct 

func KubeTokenRequest_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeTokenRequest_Manifest 

func KubeTokenRequest_Manifest(props *KubeTokenRequestProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.authentication.v1.TokenRequest".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeTokenRequest_Of 

func KubeTokenRequest_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeTokenReview_GVK 

func KubeTokenReview_GVK() *cdk8s.GroupVersionKind

func KubeTokenReview_IsApiObject 

func KubeTokenReview_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeTokenReview_IsConstruct 

func KubeTokenReview_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeTokenReview_Manifest 

func KubeTokenReview_Manifest(props *KubeTokenReviewProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.authentication.v1.TokenReview".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeTokenReview_Of 

func KubeTokenReview_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeValidatingAdmissionPolicyBindingListV1Alpha1_GVK 

func KubeValidatingAdmissionPolicyBindingListV1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeValidatingAdmissionPolicyBindingListV1Alpha1_IsApiObject 

func KubeValidatingAdmissionPolicyBindingListV1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeValidatingAdmissionPolicyBindingListV1Alpha1_IsConstruct 

func KubeValidatingAdmissionPolicyBindingListV1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeValidatingAdmissionPolicyBindingListV1Alpha1_Manifest 

func KubeValidatingAdmissionPolicyBindingListV1Alpha1_Manifest(props *KubeValidatingAdmissionPolicyBindingListV1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.admissionregistration.v1alpha1.ValidatingAdmissionPolicyBindingList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeValidatingAdmissionPolicyBindingListV1Alpha1_Of 

func KubeValidatingAdmissionPolicyBindingListV1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeValidatingAdmissionPolicyBindingV1Alpha1_GVK 

func KubeValidatingAdmissionPolicyBindingV1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeValidatingAdmissionPolicyBindingV1Alpha1_IsApiObject 

func KubeValidatingAdmissionPolicyBindingV1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeValidatingAdmissionPolicyBindingV1Alpha1_IsConstruct 

func KubeValidatingAdmissionPolicyBindingV1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeValidatingAdmissionPolicyBindingV1Alpha1_Manifest 

func KubeValidatingAdmissionPolicyBindingV1Alpha1_Manifest(props *KubeValidatingAdmissionPolicyBindingV1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.admissionregistration.v1alpha1.ValidatingAdmissionPolicyBinding".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeValidatingAdmissionPolicyBindingV1Alpha1_Of 

func KubeValidatingAdmissionPolicyBindingV1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeValidatingAdmissionPolicyListV1Alpha1_GVK 

func KubeValidatingAdmissionPolicyListV1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeValidatingAdmissionPolicyListV1Alpha1_IsApiObject 

func KubeValidatingAdmissionPolicyListV1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeValidatingAdmissionPolicyListV1Alpha1_IsConstruct 

func KubeValidatingAdmissionPolicyListV1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeValidatingAdmissionPolicyListV1Alpha1_Manifest 

func KubeValidatingAdmissionPolicyListV1Alpha1_Manifest(props *KubeValidatingAdmissionPolicyListV1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.admissionregistration.v1alpha1.ValidatingAdmissionPolicyList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeValidatingAdmissionPolicyListV1Alpha1_Of 

func KubeValidatingAdmissionPolicyListV1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeValidatingAdmissionPolicyV1Alpha1_GVK 

func KubeValidatingAdmissionPolicyV1Alpha1_GVK() *cdk8s.GroupVersionKind

func KubeValidatingAdmissionPolicyV1Alpha1_IsApiObject 

func KubeValidatingAdmissionPolicyV1Alpha1_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeValidatingAdmissionPolicyV1Alpha1_IsConstruct 

func KubeValidatingAdmissionPolicyV1Alpha1_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeValidatingAdmissionPolicyV1Alpha1_Manifest 

func KubeValidatingAdmissionPolicyV1Alpha1_Manifest(props *KubeValidatingAdmissionPolicyV1Alpha1Props) interface{}

Renders a Kubernetes manifest for "io.k8s.api.admissionregistration.v1alpha1.ValidatingAdmissionPolicy".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeValidatingAdmissionPolicyV1Alpha1_Of 

func KubeValidatingAdmissionPolicyV1Alpha1_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeValidatingWebhookConfigurationList_GVK 

func KubeValidatingWebhookConfigurationList_GVK() *cdk8s.GroupVersionKind

func KubeValidatingWebhookConfigurationList_IsApiObject 

func KubeValidatingWebhookConfigurationList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeValidatingWebhookConfigurationList_IsConstruct 

func KubeValidatingWebhookConfigurationList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeValidatingWebhookConfigurationList_Manifest 

func KubeValidatingWebhookConfigurationList_Manifest(props *KubeValidatingWebhookConfigurationListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.admissionregistration.v1.ValidatingWebhookConfigurationList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeValidatingWebhookConfigurationList_Of 

func KubeValidatingWebhookConfigurationList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeValidatingWebhookConfiguration_GVK 

func KubeValidatingWebhookConfiguration_GVK() *cdk8s.GroupVersionKind

func KubeValidatingWebhookConfiguration_IsApiObject 

func KubeValidatingWebhookConfiguration_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeValidatingWebhookConfiguration_IsConstruct 

func KubeValidatingWebhookConfiguration_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeValidatingWebhookConfiguration_Manifest 

func KubeValidatingWebhookConfiguration_Manifest(props *KubeValidatingWebhookConfigurationProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.admissionregistration.v1.ValidatingWebhookConfiguration".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeValidatingWebhookConfiguration_Of 

func KubeValidatingWebhookConfiguration_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeVolumeAttachmentList_GVK 

func KubeVolumeAttachmentList_GVK() *cdk8s.GroupVersionKind

func KubeVolumeAttachmentList_IsApiObject 

func KubeVolumeAttachmentList_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeVolumeAttachmentList_IsConstruct 

func KubeVolumeAttachmentList_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeVolumeAttachmentList_Manifest 

func KubeVolumeAttachmentList_Manifest(props *KubeVolumeAttachmentListProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.storage.v1.VolumeAttachmentList".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeVolumeAttachmentList_Of 

func KubeVolumeAttachmentList_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func KubeVolumeAttachment_GVK 

func KubeVolumeAttachment_GVK() *cdk8s.GroupVersionKind

func KubeVolumeAttachment_IsApiObject 

func KubeVolumeAttachment_IsApiObject(o interface{}) *bool

Return whether the given object is an `ApiObject`.

We do attribute detection since we can't reliably use 'instanceof'.

func KubeVolumeAttachment_IsConstruct 

func KubeVolumeAttachment_IsConstruct(x interface{}) *bool

Checks if `x` is a construct.

Use this method instead of `instanceof` to properly detect `Construct` instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the `constructs` library on disk are seen as independent, completely different libraries. As a consequence, the class `Construct` in each copy of the `constructs` library is seen as a different class, and an instance of one class will not test as `instanceof` the other class. `npm install` will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the `constructs` library can be accidentally installed, and `instanceof` will behave unpredictably. It is safest to avoid using `instanceof`, and using this type-testing method instead.

Returns: true if `x` is an object created from a class which extends `Construct`.

func KubeVolumeAttachment_Manifest 

func KubeVolumeAttachment_Manifest(props *KubeVolumeAttachmentProps) interface{}

Renders a Kubernetes manifest for "io.k8s.api.storage.v1.VolumeAttachment".

This can be used to inline resource manifests inside other objects (e.g. as templates).

func KubeVolumeAttachment_Of 

func KubeVolumeAttachment_Of(c constructs.IConstruct) cdk8s.ApiObject

Returns the `ApiObject` named `Resource` which is a child of the given construct.

If `c` is an `ApiObject`, it is returned directly. Throws an exception if the construct does not have a child named `Default` _or_ if this child is not an `ApiObject`.

func NewKubeApiServiceList_Override 

func NewKubeApiServiceList_Override(k KubeApiServiceList, scope constructs.Construct, id *string, props *KubeApiServiceListProps)

Defines a "io.k8s.kube-aggregator.pkg.apis.apiregistration.v1.APIServiceList" API object.

func NewKubeApiService_Override 

func NewKubeApiService_Override(k KubeApiService, scope constructs.Construct, id *string, props *KubeApiServiceProps)

Defines a "io.k8s.kube-aggregator.pkg.apis.apiregistration.v1.APIService" API object.

func NewKubeBinding_Override 

func NewKubeBinding_Override(k KubeBinding, scope constructs.Construct, id *string, props *KubeBindingProps)

Defines a "io.k8s.api.core.v1.Binding" API object.

func NewKubeCertificateSigningRequestList_Override 

func NewKubeCertificateSigningRequestList_Override(k KubeCertificateSigningRequestList, scope constructs.Construct, id *string, props *KubeCertificateSigningRequestListProps)

Defines a "io.k8s.api.certificates.v1.CertificateSigningRequestList" API object.

func NewKubeCertificateSigningRequest_Override 

func NewKubeCertificateSigningRequest_Override(k KubeCertificateSigningRequest, scope constructs.Construct, id *string, props *KubeCertificateSigningRequestProps)

Defines a "io.k8s.api.certificates.v1.CertificateSigningRequest" API object.

func NewKubeClusterCidrListV1Alpha1_Override 

func NewKubeClusterCidrListV1Alpha1_Override(k KubeClusterCidrListV1Alpha1, scope constructs.Construct, id *string, props *KubeClusterCidrListV1Alpha1Props)

Defines a "io.k8s.api.networking.v1alpha1.ClusterCIDRList" API object.

func NewKubeClusterCidrv1Alpha1_Override 

func NewKubeClusterCidrv1Alpha1_Override(k KubeClusterCidrv1Alpha1, scope constructs.Construct, id *string, props *KubeClusterCidrv1Alpha1Props)

Defines a "io.k8s.api.networking.v1alpha1.ClusterCIDR" API object.

func NewKubeClusterRoleBindingList_Override 

func NewKubeClusterRoleBindingList_Override(k KubeClusterRoleBindingList, scope constructs.Construct, id *string, props *KubeClusterRoleBindingListProps)

Defines a "io.k8s.api.rbac.v1.ClusterRoleBindingList" API object.

func NewKubeClusterRoleBinding_Override 

func NewKubeClusterRoleBinding_Override(k KubeClusterRoleBinding, scope constructs.Construct, id *string, props *KubeClusterRoleBindingProps)

Defines a "io.k8s.api.rbac.v1.ClusterRoleBinding" API object.

func NewKubeClusterRoleList_Override 

func NewKubeClusterRoleList_Override(k KubeClusterRoleList, scope constructs.Construct, id *string, props *KubeClusterRoleListProps)

Defines a "io.k8s.api.rbac.v1.ClusterRoleList" API object.

func NewKubeClusterRole_Override 

func NewKubeClusterRole_Override(k KubeClusterRole, scope constructs.Construct, id *string, props *KubeClusterRoleProps)

Defines a "io.k8s.api.rbac.v1.ClusterRole" API object.

func NewKubeClusterTrustBundleListV1Alpha1_Override 

func NewKubeClusterTrustBundleListV1Alpha1_Override(k KubeClusterTrustBundleListV1Alpha1, scope constructs.Construct, id *string, props *KubeClusterTrustBundleListV1Alpha1Props)

Defines a "io.k8s.api.certificates.v1alpha1.ClusterTrustBundleList" API object.

func NewKubeClusterTrustBundleV1Alpha1_Override 

func NewKubeClusterTrustBundleV1Alpha1_Override(k KubeClusterTrustBundleV1Alpha1, scope constructs.Construct, id *string, props *KubeClusterTrustBundleV1Alpha1Props)

Defines a "io.k8s.api.certificates.v1alpha1.ClusterTrustBundle" API object.

func NewKubeComponentStatusList_Override 

func NewKubeComponentStatusList_Override(k KubeComponentStatusList, scope constructs.Construct, id *string, props *KubeComponentStatusListProps)

Defines a "io.k8s.api.core.v1.ComponentStatusList" API object.

func NewKubeComponentStatus_Override 

func NewKubeComponentStatus_Override(k KubeComponentStatus, scope constructs.Construct, id *string, props *KubeComponentStatusProps)

Defines a "io.k8s.api.core.v1.ComponentStatus" API object.

func NewKubeConfigMapList_Override 

func NewKubeConfigMapList_Override(k KubeConfigMapList, scope constructs.Construct, id *string, props *KubeConfigMapListProps)

Defines a "io.k8s.api.core.v1.ConfigMapList" API object.

func NewKubeConfigMap_Override 

func NewKubeConfigMap_Override(k KubeConfigMap, scope constructs.Construct, id *string, props *KubeConfigMapProps)

Defines a "io.k8s.api.core.v1.ConfigMap" API object.

func NewKubeControllerRevisionList_Override 

func NewKubeControllerRevisionList_Override(k KubeControllerRevisionList, scope constructs.Construct, id *string, props *KubeControllerRevisionListProps)

Defines a "io.k8s.api.apps.v1.ControllerRevisionList" API object.

func NewKubeControllerRevision_Override 

func NewKubeControllerRevision_Override(k KubeControllerRevision, scope constructs.Construct, id *string, props *KubeControllerRevisionProps)

Defines a "io.k8s.api.apps.v1.ControllerRevision" API object.

func NewKubeCronJobList_Override 

func NewKubeCronJobList_Override(k KubeCronJobList, scope constructs.Construct, id *string, props *KubeCronJobListProps)

Defines a "io.k8s.api.batch.v1.CronJobList" API object.

func NewKubeCronJob_Override 

func NewKubeCronJob_Override(k KubeCronJob, scope constructs.Construct, id *string, props *KubeCronJobProps)

Defines a "io.k8s.api.batch.v1.CronJob" API object.

func NewKubeCsiDriverList_Override 

func NewKubeCsiDriverList_Override(k KubeCsiDriverList, scope constructs.Construct, id *string, props *KubeCsiDriverListProps)

Defines a "io.k8s.api.storage.v1.CSIDriverList" API object.

func NewKubeCsiDriver_Override 

func NewKubeCsiDriver_Override(k KubeCsiDriver, scope constructs.Construct, id *string, props *KubeCsiDriverProps)

Defines a "io.k8s.api.storage.v1.CSIDriver" API object.

func NewKubeCsiNodeList_Override 

func NewKubeCsiNodeList_Override(k KubeCsiNodeList, scope constructs.Construct, id *string, props *KubeCsiNodeListProps)

Defines a "io.k8s.api.storage.v1.CSINodeList" API object.

func NewKubeCsiNode_Override 

func NewKubeCsiNode_Override(k KubeCsiNode, scope constructs.Construct, id *string, props *KubeCsiNodeProps)

Defines a "io.k8s.api.storage.v1.CSINode" API object.

func NewKubeCsiStorageCapacityList_Override 

func NewKubeCsiStorageCapacityList_Override(k KubeCsiStorageCapacityList, scope constructs.Construct, id *string, props *KubeCsiStorageCapacityListProps)

Defines a "io.k8s.api.storage.v1.CSIStorageCapacityList" API object.

func NewKubeCsiStorageCapacity_Override 

func NewKubeCsiStorageCapacity_Override(k KubeCsiStorageCapacity, scope constructs.Construct, id *string, props *KubeCsiStorageCapacityProps)

Defines a "io.k8s.api.storage.v1.CSIStorageCapacity" API object.

func NewKubeCustomResourceDefinitionList_Override 

func NewKubeCustomResourceDefinitionList_Override(k KubeCustomResourceDefinitionList, scope constructs.Construct, id *string, props *KubeCustomResourceDefinitionListProps)

Defines a "io.k8s.apiextensions-apiserver.pkg.apis.apiextensions.v1.CustomResourceDefinitionList" API object.

func NewKubeCustomResourceDefinition_Override 

func NewKubeCustomResourceDefinition_Override(k KubeCustomResourceDefinition, scope constructs.Construct, id *string, props *KubeCustomResourceDefinitionProps)

Defines a "io.k8s.apiextensions-apiserver.pkg.apis.apiextensions.v1.CustomResourceDefinition" API object.

func NewKubeDaemonSetList_Override 

func NewKubeDaemonSetList_Override(k KubeDaemonSetList, scope constructs.Construct, id *string, props *KubeDaemonSetListProps)

Defines a "io.k8s.api.apps.v1.DaemonSetList" API object.

func NewKubeDaemonSet_Override 

func NewKubeDaemonSet_Override(k KubeDaemonSet, scope constructs.Construct, id *string, props *KubeDaemonSetProps)

Defines a "io.k8s.api.apps.v1.DaemonSet" API object.

func NewKubeDeploymentList_Override 

func NewKubeDeploymentList_Override(k KubeDeploymentList, scope constructs.Construct, id *string, props *KubeDeploymentListProps)

Defines a "io.k8s.api.apps.v1.DeploymentList" API object.

func NewKubeDeployment_Override 

func NewKubeDeployment_Override(k KubeDeployment, scope constructs.Construct, id *string, props *KubeDeploymentProps)

Defines a "io.k8s.api.apps.v1.Deployment" API object.

func NewKubeEndpointSliceList_Override 

func NewKubeEndpointSliceList_Override(k KubeEndpointSliceList, scope constructs.Construct, id *string, props *KubeEndpointSliceListProps)

Defines a "io.k8s.api.discovery.v1.EndpointSliceList" API object.

func NewKubeEndpointSlice_Override 

func NewKubeEndpointSlice_Override(k KubeEndpointSlice, scope constructs.Construct, id *string, props *KubeEndpointSliceProps)

Defines a "io.k8s.api.discovery.v1.EndpointSlice" API object.

func NewKubeEndpointsList_Override 

func NewKubeEndpointsList_Override(k KubeEndpointsList, scope constructs.Construct, id *string, props *KubeEndpointsListProps)

Defines a "io.k8s.api.core.v1.EndpointsList" API object.

func NewKubeEndpoints_Override 

func NewKubeEndpoints_Override(k KubeEndpoints, scope constructs.Construct, id *string, props *KubeEndpointsProps)

Defines a "io.k8s.api.core.v1.Endpoints" API object.

func NewKubeEventList_Override 

func NewKubeEventList_Override(k KubeEventList, scope constructs.Construct, id *string, props *KubeEventListProps)

Defines a "io.k8s.api.events.v1.EventList" API object.

func NewKubeEvent_Override 

func NewKubeEvent_Override(k KubeEvent, scope constructs.Construct, id *string, props *KubeEventProps)

Defines a "io.k8s.api.events.v1.Event" API object.

func NewKubeEviction_Override 

func NewKubeEviction_Override(k KubeEviction, scope constructs.Construct, id *string, props *KubeEvictionProps)

Defines a "io.k8s.api.policy.v1.Eviction" API object.

func NewKubeFlowSchemaListV1Beta2_Override 

func NewKubeFlowSchemaListV1Beta2_Override(k KubeFlowSchemaListV1Beta2, scope constructs.Construct, id *string, props *KubeFlowSchemaListV1Beta2Props)

Defines a "io.k8s.api.flowcontrol.v1beta2.FlowSchemaList" API object.

func NewKubeFlowSchemaListV1Beta3_Override 

func NewKubeFlowSchemaListV1Beta3_Override(k KubeFlowSchemaListV1Beta3, scope constructs.Construct, id *string, props *KubeFlowSchemaListV1Beta3Props)

Defines a "io.k8s.api.flowcontrol.v1beta3.FlowSchemaList" API object.

func NewKubeFlowSchemaV1Beta2_Override 

func NewKubeFlowSchemaV1Beta2_Override(k KubeFlowSchemaV1Beta2, scope constructs.Construct, id *string, props *KubeFlowSchemaV1Beta2Props)

Defines a "io.k8s.api.flowcontrol.v1beta2.FlowSchema" API object.

func NewKubeFlowSchemaV1Beta3_Override 

func NewKubeFlowSchemaV1Beta3_Override(k KubeFlowSchemaV1Beta3, scope constructs.Construct, id *string, props *KubeFlowSchemaV1Beta3Props)

Defines a "io.k8s.api.flowcontrol.v1beta3.FlowSchema" API object.

func NewKubeHorizontalPodAutoscalerListV2_Override 

func NewKubeHorizontalPodAutoscalerListV2_Override(k KubeHorizontalPodAutoscalerListV2, scope constructs.Construct, id *string, props *KubeHorizontalPodAutoscalerListV2Props)

Defines a "io.k8s.api.autoscaling.v2.HorizontalPodAutoscalerList" API object.

func NewKubeHorizontalPodAutoscalerList_Override 

func NewKubeHorizontalPodAutoscalerList_Override(k KubeHorizontalPodAutoscalerList, scope constructs.Construct, id *string, props *KubeHorizontalPodAutoscalerListProps)

Defines a "io.k8s.api.autoscaling.v1.HorizontalPodAutoscalerList" API object.

func NewKubeHorizontalPodAutoscalerV2_Override 

func NewKubeHorizontalPodAutoscalerV2_Override(k KubeHorizontalPodAutoscalerV2, scope constructs.Construct, id *string, props *KubeHorizontalPodAutoscalerV2Props)

Defines a "io.k8s.api.autoscaling.v2.HorizontalPodAutoscaler" API object.

func NewKubeHorizontalPodAutoscaler_Override 

func NewKubeHorizontalPodAutoscaler_Override(k KubeHorizontalPodAutoscaler, scope constructs.Construct, id *string, props *KubeHorizontalPodAutoscalerProps)

Defines a "io.k8s.api.autoscaling.v1.HorizontalPodAutoscaler" API object.

func NewKubeIngressClassList_Override 

func NewKubeIngressClassList_Override(k KubeIngressClassList, scope constructs.Construct, id *string, props *KubeIngressClassListProps)

Defines a "io.k8s.api.networking.v1.IngressClassList" API object.

func NewKubeIngressClass_Override 

func NewKubeIngressClass_Override(k KubeIngressClass, scope constructs.Construct, id *string, props *KubeIngressClassProps)

Defines a "io.k8s.api.networking.v1.IngressClass" API object.

func NewKubeIngressList_Override 

func NewKubeIngressList_Override(k KubeIngressList, scope constructs.Construct, id *string, props *KubeIngressListProps)

Defines a "io.k8s.api.networking.v1.IngressList" API object.

func NewKubeIngress_Override 

func NewKubeIngress_Override(k KubeIngress, scope constructs.Construct, id *string, props *KubeIngressProps)

Defines a "io.k8s.api.networking.v1.Ingress" API object.

func NewKubeIpAddressListV1Alpha1_Override 

func NewKubeIpAddressListV1Alpha1_Override(k KubeIpAddressListV1Alpha1, scope constructs.Construct, id *string, props *KubeIpAddressListV1Alpha1Props)

Defines a "io.k8s.api.networking.v1alpha1.IPAddressList" API object.

func NewKubeIpAddressV1Alpha1_Override 

func NewKubeIpAddressV1Alpha1_Override(k KubeIpAddressV1Alpha1, scope constructs.Construct, id *string, props *KubeIpAddressV1Alpha1Props)

Defines a "io.k8s.api.networking.v1alpha1.IPAddress" API object.

func NewKubeJobList_Override 

func NewKubeJobList_Override(k KubeJobList, scope constructs.Construct, id *string, props *KubeJobListProps)

Defines a "io.k8s.api.batch.v1.JobList" API object.

func NewKubeJob_Override 

func NewKubeJob_Override(k KubeJob, scope constructs.Construct, id *string, props *KubeJobProps)

Defines a "io.k8s.api.batch.v1.Job" API object.

func NewKubeLeaseList_Override 

func NewKubeLeaseList_Override(k KubeLeaseList, scope constructs.Construct, id *string, props *KubeLeaseListProps)

Defines a "io.k8s.api.coordination.v1.LeaseList" API object.

func NewKubeLease_Override 

func NewKubeLease_Override(k KubeLease, scope constructs.Construct, id *string, props *KubeLeaseProps)

Defines a "io.k8s.api.coordination.v1.Lease" API object.

func NewKubeLimitRangeList_Override 

func NewKubeLimitRangeList_Override(k KubeLimitRangeList, scope constructs.Construct, id *string, props *KubeLimitRangeListProps)

Defines a "io.k8s.api.core.v1.LimitRangeList" API object.

func NewKubeLimitRange_Override 

func NewKubeLimitRange_Override(k KubeLimitRange, scope constructs.Construct, id *string, props *KubeLimitRangeProps)

Defines a "io.k8s.api.core.v1.LimitRange" API object.

func NewKubeLocalSubjectAccessReview_Override 

func NewKubeLocalSubjectAccessReview_Override(k KubeLocalSubjectAccessReview, scope constructs.Construct, id *string, props *KubeLocalSubjectAccessReviewProps)

Defines a "io.k8s.api.authorization.v1.LocalSubjectAccessReview" API object.

func NewKubeMutatingWebhookConfigurationList_Override 

func NewKubeMutatingWebhookConfigurationList_Override(k KubeMutatingWebhookConfigurationList, scope constructs.Construct, id *string, props *KubeMutatingWebhookConfigurationListProps)

Defines a "io.k8s.api.admissionregistration.v1.MutatingWebhookConfigurationList" API object.

func NewKubeMutatingWebhookConfiguration_Override 

func NewKubeMutatingWebhookConfiguration_Override(k KubeMutatingWebhookConfiguration, scope constructs.Construct, id *string, props *KubeMutatingWebhookConfigurationProps)

Defines a "io.k8s.api.admissionregistration.v1.MutatingWebhookConfiguration" API object.

func NewKubeNamespaceList_Override 

func NewKubeNamespaceList_Override(k KubeNamespaceList, scope constructs.Construct, id *string, props *KubeNamespaceListProps)

Defines a "io.k8s.api.core.v1.NamespaceList" API object.

func NewKubeNamespace_Override 

func NewKubeNamespace_Override(k KubeNamespace, scope constructs.Construct, id *string, props *KubeNamespaceProps)

Defines a "io.k8s.api.core.v1.Namespace" API object.

func NewKubeNetworkPolicyList_Override 

func NewKubeNetworkPolicyList_Override(k KubeNetworkPolicyList, scope constructs.Construct, id *string, props *KubeNetworkPolicyListProps)

Defines a "io.k8s.api.networking.v1.NetworkPolicyList" API object.

func NewKubeNetworkPolicy_Override 

func NewKubeNetworkPolicy_Override(k KubeNetworkPolicy, scope constructs.Construct, id *string, props *KubeNetworkPolicyProps)

Defines a "io.k8s.api.networking.v1.NetworkPolicy" API object.

func NewKubeNodeList_Override 

func NewKubeNodeList_Override(k KubeNodeList, scope constructs.Construct, id *string, props *KubeNodeListProps)

Defines a "io.k8s.api.core.v1.NodeList" API object.

func NewKubeNode_Override 

func NewKubeNode_Override(k KubeNode, scope constructs.Construct, id *string, props *KubeNodeProps)

Defines a "io.k8s.api.core.v1.Node" API object.

func NewKubePersistentVolumeClaimList_Override 

func NewKubePersistentVolumeClaimList_Override(k KubePersistentVolumeClaimList, scope constructs.Construct, id *string, props *KubePersistentVolumeClaimListProps)

Defines a "io.k8s.api.core.v1.PersistentVolumeClaimList" API object.

func NewKubePersistentVolumeClaim_Override 

func NewKubePersistentVolumeClaim_Override(k KubePersistentVolumeClaim, scope constructs.Construct, id *string, props *KubePersistentVolumeClaimProps)

Defines a "io.k8s.api.core.v1.PersistentVolumeClaim" API object.

func NewKubePersistentVolumeList_Override 

func NewKubePersistentVolumeList_Override(k KubePersistentVolumeList, scope constructs.Construct, id *string, props *KubePersistentVolumeListProps)

Defines a "io.k8s.api.core.v1.PersistentVolumeList" API object.

func NewKubePersistentVolume_Override 

func NewKubePersistentVolume_Override(k KubePersistentVolume, scope constructs.Construct, id *string, props *KubePersistentVolumeProps)

Defines a "io.k8s.api.core.v1.PersistentVolume" API object.

func NewKubePodDisruptionBudgetList_Override 

func NewKubePodDisruptionBudgetList_Override(k KubePodDisruptionBudgetList, scope constructs.Construct, id *string, props *KubePodDisruptionBudgetListProps)

Defines a "io.k8s.api.policy.v1.PodDisruptionBudgetList" API object.

func NewKubePodDisruptionBudget_Override 

func NewKubePodDisruptionBudget_Override(k KubePodDisruptionBudget, scope constructs.Construct, id *string, props *KubePodDisruptionBudgetProps)

Defines a "io.k8s.api.policy.v1.PodDisruptionBudget" API object.

func NewKubePodList_Override 

func NewKubePodList_Override(k KubePodList, scope constructs.Construct, id *string, props *KubePodListProps)

Defines a "io.k8s.api.core.v1.PodList" API object.

func NewKubePodSchedulingContextListV1Alpha2_Override 

func NewKubePodSchedulingContextListV1Alpha2_Override(k KubePodSchedulingContextListV1Alpha2, scope constructs.Construct, id *string, props *KubePodSchedulingContextListV1Alpha2Props)

Defines a "io.k8s.api.resource.v1alpha2.PodSchedulingContextList" API object.

func NewKubePodSchedulingContextV1Alpha2_Override 

func NewKubePodSchedulingContextV1Alpha2_Override(k KubePodSchedulingContextV1Alpha2, scope constructs.Construct, id *string, props *KubePodSchedulingContextV1Alpha2Props)

Defines a "io.k8s.api.resource.v1alpha2.PodSchedulingContext" API object.

func NewKubePodTemplateList_Override 

func NewKubePodTemplateList_Override(k KubePodTemplateList, scope constructs.Construct, id *string, props *KubePodTemplateListProps)

Defines a "io.k8s.api.core.v1.PodTemplateList" API object.

func NewKubePodTemplate_Override 

func NewKubePodTemplate_Override(k KubePodTemplate, scope constructs.Construct, id *string, props *KubePodTemplateProps)

Defines a "io.k8s.api.core.v1.PodTemplate" API object.

func NewKubePod_Override 

func NewKubePod_Override(k KubePod, scope constructs.Construct, id *string, props *KubePodProps)

Defines a "io.k8s.api.core.v1.Pod" API object.

func NewKubePriorityClassList_Override 

func NewKubePriorityClassList_Override(k KubePriorityClassList, scope constructs.Construct, id *string, props *KubePriorityClassListProps)

Defines a "io.k8s.api.scheduling.v1.PriorityClassList" API object.

func NewKubePriorityClass_Override 

func NewKubePriorityClass_Override(k KubePriorityClass, scope constructs.Construct, id *string, props *KubePriorityClassProps)

Defines a "io.k8s.api.scheduling.v1.PriorityClass" API object.

func NewKubePriorityLevelConfigurationListV1Beta2_Override 

func NewKubePriorityLevelConfigurationListV1Beta2_Override(k KubePriorityLevelConfigurationListV1Beta2, scope constructs.Construct, id *string, props *KubePriorityLevelConfigurationListV1Beta2Props)

Defines a "io.k8s.api.flowcontrol.v1beta2.PriorityLevelConfigurationList" API object.

func NewKubePriorityLevelConfigurationListV1Beta3_Override 

func NewKubePriorityLevelConfigurationListV1Beta3_Override(k KubePriorityLevelConfigurationListV1Beta3, scope constructs.Construct, id *string, props *KubePriorityLevelConfigurationListV1Beta3Props)

Defines a "io.k8s.api.flowcontrol.v1beta3.PriorityLevelConfigurationList" API object.

func NewKubePriorityLevelConfigurationV1Beta2_Override 

func NewKubePriorityLevelConfigurationV1Beta2_Override(k KubePriorityLevelConfigurationV1Beta2, scope constructs.Construct, id *string, props *KubePriorityLevelConfigurationV1Beta2Props)

Defines a "io.k8s.api.flowcontrol.v1beta2.PriorityLevelConfiguration" API object.

func NewKubePriorityLevelConfigurationV1Beta3_Override 

func NewKubePriorityLevelConfigurationV1Beta3_Override(k KubePriorityLevelConfigurationV1Beta3, scope constructs.Construct, id *string, props *KubePriorityLevelConfigurationV1Beta3Props)

Defines a "io.k8s.api.flowcontrol.v1beta3.PriorityLevelConfiguration" API object.

func NewKubeReplicaSetList_Override 

func NewKubeReplicaSetList_Override(k KubeReplicaSetList, scope constructs.Construct, id *string, props *KubeReplicaSetListProps)

Defines a "io.k8s.api.apps.v1.ReplicaSetList" API object.

func NewKubeReplicaSet_Override 

func NewKubeReplicaSet_Override(k KubeReplicaSet, scope constructs.Construct, id *string, props *KubeReplicaSetProps)

Defines a "io.k8s.api.apps.v1.ReplicaSet" API object.

func NewKubeReplicationControllerList_Override 

func NewKubeReplicationControllerList_Override(k KubeReplicationControllerList, scope constructs.Construct, id *string, props *KubeReplicationControllerListProps)

Defines a "io.k8s.api.core.v1.ReplicationControllerList" API object.

func NewKubeReplicationController_Override 

func NewKubeReplicationController_Override(k KubeReplicationController, scope constructs.Construct, id *string, props *KubeReplicationControllerProps)

Defines a "io.k8s.api.core.v1.ReplicationController" API object.

func NewKubeResourceClaimListV1Alpha2_Override 

func NewKubeResourceClaimListV1Alpha2_Override(k KubeResourceClaimListV1Alpha2, scope constructs.Construct, id *string, props *KubeResourceClaimListV1Alpha2Props)

Defines a "io.k8s.api.resource.v1alpha2.ResourceClaimList" API object.

func NewKubeResourceClaimTemplateListV1Alpha2_Override 

func NewKubeResourceClaimTemplateListV1Alpha2_Override(k KubeResourceClaimTemplateListV1Alpha2, scope constructs.Construct, id *string, props *KubeResourceClaimTemplateListV1Alpha2Props)

Defines a "io.k8s.api.resource.v1alpha2.ResourceClaimTemplateList" API object.

func NewKubeResourceClaimTemplateV1Alpha2_Override 

func NewKubeResourceClaimTemplateV1Alpha2_Override(k KubeResourceClaimTemplateV1Alpha2, scope constructs.Construct, id *string, props *KubeResourceClaimTemplateV1Alpha2Props)

Defines a "io.k8s.api.resource.v1alpha2.ResourceClaimTemplate" API object.

func NewKubeResourceClaimV1Alpha2_Override 

func NewKubeResourceClaimV1Alpha2_Override(k KubeResourceClaimV1Alpha2, scope constructs.Construct, id *string, props *KubeResourceClaimV1Alpha2Props)

Defines a "io.k8s.api.resource.v1alpha2.ResourceClaim" API object.

func NewKubeResourceClassListV1Alpha2_Override 

func NewKubeResourceClassListV1Alpha2_Override(k KubeResourceClassListV1Alpha2, scope constructs.Construct, id *string, props *KubeResourceClassListV1Alpha2Props)

Defines a "io.k8s.api.resource.v1alpha2.ResourceClassList" API object.

func NewKubeResourceClassV1Alpha2_Override 

func NewKubeResourceClassV1Alpha2_Override(k KubeResourceClassV1Alpha2, scope constructs.Construct, id *string, props *KubeResourceClassV1Alpha2Props)

Defines a "io.k8s.api.resource.v1alpha2.ResourceClass" API object.

func NewKubeResourceQuotaList_Override 

func NewKubeResourceQuotaList_Override(k KubeResourceQuotaList, scope constructs.Construct, id *string, props *KubeResourceQuotaListProps)

Defines a "io.k8s.api.core.v1.ResourceQuotaList" API object.

func NewKubeResourceQuota_Override 

func NewKubeResourceQuota_Override(k KubeResourceQuota, scope constructs.Construct, id *string, props *KubeResourceQuotaProps)

Defines a "io.k8s.api.core.v1.ResourceQuota" API object.

func NewKubeRoleBindingList_Override 

func NewKubeRoleBindingList_Override(k KubeRoleBindingList, scope constructs.Construct, id *string, props *KubeRoleBindingListProps)

Defines a "io.k8s.api.rbac.v1.RoleBindingList" API object.

func NewKubeRoleBinding_Override 

func NewKubeRoleBinding_Override(k KubeRoleBinding, scope constructs.Construct, id *string, props *KubeRoleBindingProps)

Defines a "io.k8s.api.rbac.v1.RoleBinding" API object.

func NewKubeRoleList_Override 

func NewKubeRoleList_Override(k KubeRoleList, scope constructs.Construct, id *string, props *KubeRoleListProps)

Defines a "io.k8s.api.rbac.v1.RoleList" API object.

func NewKubeRole_Override 

func NewKubeRole_Override(k KubeRole, scope constructs.Construct, id *string, props *KubeRoleProps)

Defines a "io.k8s.api.rbac.v1.Role" API object.

func NewKubeRuntimeClassList_Override 

func NewKubeRuntimeClassList_Override(k KubeRuntimeClassList, scope constructs.Construct, id *string, props *KubeRuntimeClassListProps)

Defines a "io.k8s.api.node.v1.RuntimeClassList" API object.

func NewKubeRuntimeClass_Override 

func NewKubeRuntimeClass_Override(k KubeRuntimeClass, scope constructs.Construct, id *string, props *KubeRuntimeClassProps)

Defines a "io.k8s.api.node.v1.RuntimeClass" API object.

func NewKubeScale_Override 

func NewKubeScale_Override(k KubeScale, scope constructs.Construct, id *string, props *KubeScaleProps)

Defines a "io.k8s.api.autoscaling.v1.Scale" API object.

func NewKubeSecretList_Override 

func NewKubeSecretList_Override(k KubeSecretList, scope constructs.Construct, id *string, props *KubeSecretListProps)

Defines a "io.k8s.api.core.v1.SecretList" API object.

func NewKubeSecret_Override 

func NewKubeSecret_Override(k KubeSecret, scope constructs.Construct, id *string, props *KubeSecretProps)

Defines a "io.k8s.api.core.v1.Secret" API object.

func NewKubeSelfSubjectAccessReview_Override 

func NewKubeSelfSubjectAccessReview_Override(k KubeSelfSubjectAccessReview, scope constructs.Construct, id *string, props *KubeSelfSubjectAccessReviewProps)

Defines a "io.k8s.api.authorization.v1.SelfSubjectAccessReview" API object.

func NewKubeSelfSubjectReviewV1Alpha1_Override 

func NewKubeSelfSubjectReviewV1Alpha1_Override(k KubeSelfSubjectReviewV1Alpha1, scope constructs.Construct, id *string, props *KubeSelfSubjectReviewV1Alpha1Props)

Defines a "io.k8s.api.authentication.v1alpha1.SelfSubjectReview" API object.

func NewKubeSelfSubjectReviewV1Beta1_Override 

func NewKubeSelfSubjectReviewV1Beta1_Override(k KubeSelfSubjectReviewV1Beta1, scope constructs.Construct, id *string, props *KubeSelfSubjectReviewV1Beta1Props)

Defines a "io.k8s.api.authentication.v1beta1.SelfSubjectReview" API object.

func NewKubeSelfSubjectRulesReview_Override 

func NewKubeSelfSubjectRulesReview_Override(k KubeSelfSubjectRulesReview, scope constructs.Construct, id *string, props *KubeSelfSubjectRulesReviewProps)

Defines a "io.k8s.api.authorization.v1.SelfSubjectRulesReview" API object.

func NewKubeServiceAccountList_Override 

func NewKubeServiceAccountList_Override(k KubeServiceAccountList, scope constructs.Construct, id *string, props *KubeServiceAccountListProps)

Defines a "io.k8s.api.core.v1.ServiceAccountList" API object.

func NewKubeServiceAccount_Override 

func NewKubeServiceAccount_Override(k KubeServiceAccount, scope constructs.Construct, id *string, props *KubeServiceAccountProps)

Defines a "io.k8s.api.core.v1.ServiceAccount" API object.

func NewKubeServiceList_Override 

func NewKubeServiceList_Override(k KubeServiceList, scope constructs.Construct, id *string, props *KubeServiceListProps)

Defines a "io.k8s.api.core.v1.ServiceList" API object.

func NewKubeService_Override 

func NewKubeService_Override(k KubeService, scope constructs.Construct, id *string, props *KubeServiceProps)

Defines a "io.k8s.api.core.v1.Service" API object.

func NewKubeStatefulSetList_Override 

func NewKubeStatefulSetList_Override(k KubeStatefulSetList, scope constructs.Construct, id *string, props *KubeStatefulSetListProps)

Defines a "io.k8s.api.apps.v1.StatefulSetList" API object.

func NewKubeStatefulSet_Override 

func NewKubeStatefulSet_Override(k KubeStatefulSet, scope constructs.Construct, id *string, props *KubeStatefulSetProps)

Defines a "io.k8s.api.apps.v1.StatefulSet" API object.

func NewKubeStatus_Override 

func NewKubeStatus_Override(k KubeStatus, scope constructs.Construct, id *string, props *KubeStatusProps)

Defines a "io.k8s.apimachinery.pkg.apis.meta.v1.Status" API object.

func NewKubeStorageClassList_Override 

func NewKubeStorageClassList_Override(k KubeStorageClassList, scope constructs.Construct, id *string, props *KubeStorageClassListProps)

Defines a "io.k8s.api.storage.v1.StorageClassList" API object.

func NewKubeStorageClass_Override 

func NewKubeStorageClass_Override(k KubeStorageClass, scope constructs.Construct, id *string, props *KubeStorageClassProps)

Defines a "io.k8s.api.storage.v1.StorageClass" API object.

func NewKubeStorageVersionListV1Alpha1_Override 

func NewKubeStorageVersionListV1Alpha1_Override(k KubeStorageVersionListV1Alpha1, scope constructs.Construct, id *string, props *KubeStorageVersionListV1Alpha1Props)

Defines a "io.k8s.api.apiserverinternal.v1alpha1.StorageVersionList" API object.

func NewKubeStorageVersionV1Alpha1_Override 

func NewKubeStorageVersionV1Alpha1_Override(k KubeStorageVersionV1Alpha1, scope constructs.Construct, id *string, props *KubeStorageVersionV1Alpha1Props)

Defines a "io.k8s.api.apiserverinternal.v1alpha1.StorageVersion" API object.

func NewKubeSubjectAccessReview_Override 

func NewKubeSubjectAccessReview_Override(k KubeSubjectAccessReview, scope constructs.Construct, id *string, props *KubeSubjectAccessReviewProps)

Defines a "io.k8s.api.authorization.v1.SubjectAccessReview" API object.

func NewKubeTokenRequest_Override 

func NewKubeTokenRequest_Override(k KubeTokenRequest, scope constructs.Construct, id *string, props *KubeTokenRequestProps)

Defines a "io.k8s.api.authentication.v1.TokenRequest" API object.

func NewKubeTokenReview_Override 

func NewKubeTokenReview_Override(k KubeTokenReview, scope constructs.Construct, id *string, props *KubeTokenReviewProps)

Defines a "io.k8s.api.authentication.v1.TokenReview" API object.

func NewKubeValidatingAdmissionPolicyBindingListV1Alpha1_Override 

func NewKubeValidatingAdmissionPolicyBindingListV1Alpha1_Override(k KubeValidatingAdmissionPolicyBindingListV1Alpha1, scope constructs.Construct, id *string, props *KubeValidatingAdmissionPolicyBindingListV1Alpha1Props)

Defines a "io.k8s.api.admissionregistration.v1alpha1.ValidatingAdmissionPolicyBindingList" API object.

func NewKubeValidatingAdmissionPolicyBindingV1Alpha1_Override 

func NewKubeValidatingAdmissionPolicyBindingV1Alpha1_Override(k KubeValidatingAdmissionPolicyBindingV1Alpha1, scope constructs.Construct, id *string, props *KubeValidatingAdmissionPolicyBindingV1Alpha1Props)

Defines a "io.k8s.api.admissionregistration.v1alpha1.ValidatingAdmissionPolicyBinding" API object.

func NewKubeValidatingAdmissionPolicyListV1Alpha1_Override 

func NewKubeValidatingAdmissionPolicyListV1Alpha1_Override(k KubeValidatingAdmissionPolicyListV1Alpha1, scope constructs.Construct, id *string, props *KubeValidatingAdmissionPolicyListV1Alpha1Props)

Defines a "io.k8s.api.admissionregistration.v1alpha1.ValidatingAdmissionPolicyList" API object.

func NewKubeValidatingAdmissionPolicyV1Alpha1_Override 

func NewKubeValidatingAdmissionPolicyV1Alpha1_Override(k KubeValidatingAdmissionPolicyV1Alpha1, scope constructs.Construct, id *string, props *KubeValidatingAdmissionPolicyV1Alpha1Props)

Defines a "io.k8s.api.admissionregistration.v1alpha1.ValidatingAdmissionPolicy" API object.

func NewKubeValidatingWebhookConfigurationList_Override 

func NewKubeValidatingWebhookConfigurationList_Override(k KubeValidatingWebhookConfigurationList, scope constructs.Construct, id *string, props *KubeValidatingWebhookConfigurationListProps)

Defines a "io.k8s.api.admissionregistration.v1.ValidatingWebhookConfigurationList" API object.

func NewKubeValidatingWebhookConfiguration_Override 

func NewKubeValidatingWebhookConfiguration_Override(k KubeValidatingWebhookConfiguration, scope constructs.Construct, id *string, props *KubeValidatingWebhookConfigurationProps)

Defines a "io.k8s.api.admissionregistration.v1.ValidatingWebhookConfiguration" API object.

func NewKubeVolumeAttachmentList_Override 

func NewKubeVolumeAttachmentList_Override(k KubeVolumeAttachmentList, scope constructs.Construct, id *string, props *KubeVolumeAttachmentListProps)

Defines a "io.k8s.api.storage.v1.VolumeAttachmentList" API object.

func NewKubeVolumeAttachment_Override 

func NewKubeVolumeAttachment_Override(k KubeVolumeAttachment, scope constructs.Construct, id *string, props *KubeVolumeAttachmentProps)

Defines a "io.k8s.api.storage.v1.VolumeAttachment" API object.

Types

type Affinity 

type Affinity struct {
	// Describes node affinity scheduling rules for the pod.
	NodeAffinity *NodeAffinity `field:"optional" json:"nodeAffinity" yaml:"nodeAffinity"`
	// Describes pod affinity scheduling rules (e.g. co-locate this pod in the same node, zone, etc. as some other pod(s)).
	PodAffinity *PodAffinity `field:"optional" json:"podAffinity" yaml:"podAffinity"`
	// Describes pod anti-affinity scheduling rules (e.g. avoid putting this pod in the same node, zone, etc. as some other pod(s)).
	PodAntiAffinity *PodAntiAffinity `field:"optional" json:"podAntiAffinity" yaml:"podAntiAffinity"`
}

Affinity is a group of affinity scheduling rules.

type AggregationRule 

type AggregationRule struct {
	// ClusterRoleSelectors holds a list of selectors which will be used to find ClusterRoles and create the rules.
	//
	// If any of the selectors match, then the ClusterRole's permissions will be added.
	ClusterRoleSelectors *[]*LabelSelector `field:"optional" json:"clusterRoleSelectors" yaml:"clusterRoleSelectors"`
}

AggregationRule describes how to locate ClusterRoles to aggregate into the ClusterRole.

type ApiServiceSpec 

type ApiServiceSpec struct {
	// GroupPriorityMininum is the priority this group should have at least.
	//
	// Higher priority means that the group is preferred by clients over lower priority ones. Note that other versions of this group might specify even higher GroupPriorityMininum values such that the whole group gets a higher priority. The primary sort is based on GroupPriorityMinimum, ordered highest number to lowest (20 before 10). The secondary sort is based on the alphabetical comparison of the name of the object.  (v1.bar before v1.foo) We'd recommend something like: *.k8s.io (except extensions) at 18000 and PaaSes (OpenShift, Deis) are recommended to be in the 2000s
	GroupPriorityMinimum *float64 `field:"required" json:"groupPriorityMinimum" yaml:"groupPriorityMinimum"`
	// VersionPriority controls the ordering of this API version inside of its group.
	//
	// Must be greater than zero. The primary sort is based on VersionPriority, ordered highest to lowest (20 before 10). Since it's inside of a group, the number can be small, probably in the 10s. In case of equal version priorities, the version string will be used to compute the order inside a group. If the version string is "kube-like", it will sort above non "kube-like" version strings, which are ordered lexicographically. "Kube-like" versions start with a "v", then are followed by a number (the major version), then optionally the string "alpha" or "beta" and another number (the minor version). These are sorted first by GA > beta > alpha (where GA is a version with no suffix such as beta or alpha), and then by comparing major version, then minor version. An example sorted list of versions: v10, v2, v1, v11beta2, v10beta3, v3beta1, v12alpha1, v11alpha2, foo1, foo10.
	VersionPriority *float64 `field:"required" json:"versionPriority" yaml:"versionPriority"`
	// CABundle is a PEM encoded CA bundle which will be used to validate an API server's serving certificate.
	//
	// If unspecified, system trust roots on the apiserver are used.
	CaBundle *string `field:"optional" json:"caBundle" yaml:"caBundle"`
	// Group is the API group name this server hosts.
	Group *string `field:"optional" json:"group" yaml:"group"`
	// InsecureSkipTLSVerify disables TLS certificate verification when communicating with this server.
	//
	// This is strongly discouraged.  You should use the CABundle instead.
	InsecureSkipTlsVerify *bool `field:"optional" json:"insecureSkipTlsVerify" yaml:"insecureSkipTlsVerify"`
	// Service is a reference to the service for this API server.
	//
	// It must communicate on port 443. If the Service is nil, that means the handling for the API groupversion is handled locally on this server. The call will simply delegate to the normal handler chain to be fulfilled.
	Service *ServiceReference `field:"optional" json:"service" yaml:"service"`
	// Version is the API version this server hosts.
	//
	// For example, "v1".
	Version *string `field:"optional" json:"version" yaml:"version"`
}

APIServiceSpec contains information for locating and communicating with a server.

Only https is supported, though you are able to disable certificate verification.

type AuditAnnotationV1Alpha1 

type AuditAnnotationV1Alpha1 struct {
	// key specifies the audit annotation key.
	//
	// The audit annotation keys of a ValidatingAdmissionPolicy must be unique. The key must be a qualified name ([A-Za-z0-9][-A-Za-z0-9_.]*) no more than 63 bytes in length.
	//
	// The key is combined with the resource name of the ValidatingAdmissionPolicy to construct an audit annotation key: "{ValidatingAdmissionPolicy name}/{key}".
	//
	// If an admission webhook uses the same resource name as this ValidatingAdmissionPolicy and the same audit annotation key, the annotation key will be identical. In this case, the first annotation written with the key will be included in the audit event and all subsequent annotations with the same key will be discarded.
	//
	// Required.
	Key *string `field:"required" json:"key" yaml:"key"`
	// valueExpression represents the expression which is evaluated by CEL to produce an audit annotation value.
	//
	// The expression must evaluate to either a string or null value. If the expression evaluates to a string, the audit annotation is included with the string value. If the expression evaluates to null or empty string the audit annotation will be omitted. The valueExpression may be no longer than 5kb in length. If the result of the valueExpression is more than 10kb in length, it will be truncated to 10kb.
	//
	// If multiple ValidatingAdmissionPolicyBinding resources match an API request, then the valueExpression will be evaluated for each binding. All unique values produced by the valueExpressions will be joined together in a comma-separated list.
	//
	// Required.
	ValueExpression *string `field:"required" json:"valueExpression" yaml:"valueExpression"`
}

AuditAnnotation describes how to produce an audit annotation for an API request.

type AwsElasticBlockStoreVolumeSource 

type AwsElasticBlockStoreVolumeSource struct {
	// volumeID is unique ID of the persistent disk resource in AWS (Amazon EBS volume).
	//
	// More info: https://kubernetes.io/docs/concepts/storage/volumes#awselasticblockstore
	VolumeId *string `field:"required" json:"volumeId" yaml:"volumeId"`
	// fsType is the filesystem type of the volume that you want to mount.
	//
	// Tip: Ensure that the filesystem type is supported by the host operating system. Examples: "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified. More info: https://kubernetes.io/docs/concepts/storage/volumes#awselasticblockstore
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// partition is the partition in the volume that you want to mount.
	//
	// If omitted, the default is to mount by volume name. Examples: For volume /dev/sda1, you specify the partition as "1". Similarly, the volume partition for /dev/sda is "0" (or you can leave the property empty).
	Partition *float64 `field:"optional" json:"partition" yaml:"partition"`
	// readOnly value true will force the readOnly setting in VolumeMounts.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/volumes#awselasticblockstore
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
}

Represents a Persistent Disk resource in AWS.

An AWS EBS disk must exist before mounting to a container. The disk must also be in the same AWS zone as the kubelet. An AWS EBS disk can only be mounted as read/write once. AWS EBS volumes support ownership management and SELinux relabeling.

type AzureDiskVolumeSource 

type AzureDiskVolumeSource struct {
	// diskName is the Name of the data disk in the blob storage.
	DiskName *string `field:"required" json:"diskName" yaml:"diskName"`
	// diskURI is the URI of data disk in the blob storage.
	DiskUri *string `field:"required" json:"diskUri" yaml:"diskUri"`
	// cachingMode is the Host Caching mode: None, Read Only, Read Write.
	CachingMode *string `field:"optional" json:"cachingMode" yaml:"cachingMode"`
	// fsType is Filesystem type to mount.
	//
	// Must be a filesystem type supported by the host operating system. Ex. "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified.
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// kind expected values are Shared: multiple blob disks per storage account  Dedicated: single blob disk per storage account  Managed: azure managed data disk (only in managed availability set).
	//
	// defaults to shared.
	Kind *string `field:"optional" json:"kind" yaml:"kind"`
	// readOnly Defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts.
	// Default: false (read/write). ReadOnly here will force the ReadOnly setting in VolumeMounts.
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
}

AzureDisk represents an Azure Data Disk mount on the host and bind mount to the pod.

type AzureFilePersistentVolumeSource 

type AzureFilePersistentVolumeSource struct {
	// secretName is the name of secret that contains Azure Storage Account Name and Key.
	SecretName *string `field:"required" json:"secretName" yaml:"secretName"`
	// shareName is the azure Share Name.
	ShareName *string `field:"required" json:"shareName" yaml:"shareName"`
	// readOnly defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts.
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretNamespace is the namespace of the secret that contains Azure Storage Account Name and Key default is the same as the Pod.
	SecretNamespace *string `field:"optional" json:"secretNamespace" yaml:"secretNamespace"`
}

AzureFile represents an Azure File Service mount on the host and bind mount to the pod.

type AzureFileVolumeSource 

type AzureFileVolumeSource struct {
	// secretName is the  name of secret that contains Azure Storage Account Name and Key.
	SecretName *string `field:"required" json:"secretName" yaml:"secretName"`
	// shareName is the azure share Name.
	ShareName *string `field:"required" json:"shareName" yaml:"shareName"`
	// readOnly defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts.
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
}

AzureFile represents an Azure File Service mount on the host and bind mount to the pod.

type BoundObjectReference 

type BoundObjectReference struct {
	// API version of the referent.
	ApiVersion *string `field:"optional" json:"apiVersion" yaml:"apiVersion"`
	// Kind of the referent.
	//
	// Valid kinds are 'Pod' and 'Secret'.
	Kind *string `field:"optional" json:"kind" yaml:"kind"`
	// Name of the referent.
	Name *string `field:"optional" json:"name" yaml:"name"`
	// UID of the referent.
	Uid *string `field:"optional" json:"uid" yaml:"uid"`
}

BoundObjectReference is a reference to an object that a token is bound to.

type Capabilities 

type Capabilities struct {
	// Added capabilities.
	Add *[]*string `field:"optional" json:"add" yaml:"add"`
	// Removed capabilities.
	Drop *[]*string `field:"optional" json:"drop" yaml:"drop"`
}

Adds and removes POSIX capabilities from running containers.

type CephFsPersistentVolumeSource 

type CephFsPersistentVolumeSource struct {
	// monitors is Required: Monitors is a collection of Ceph monitors More info: https://examples.k8s.io/volumes/cephfs/README.md#how-to-use-it.
	Monitors *[]*string `field:"required" json:"monitors" yaml:"monitors"`
	// path is Optional: Used as the mounted root, rather than the full Ceph tree, default is /.
	Path *string `field:"optional" json:"path" yaml:"path"`
	// readOnly is Optional: Defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts. More info: https://examples.k8s.io/volumes/cephfs/README.md#how-to-use-it
	// Default: false (read/write). ReadOnly here will force the ReadOnly setting in VolumeMounts. More info: https://examples.k8s.io/volumes/cephfs/README.md#how-to-use-it
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretFile is Optional: SecretFile is the path to key ring for User, default is /etc/ceph/user.secret More info: https://examples.k8s.io/volumes/cephfs/README.md#how-to-use-it.
	SecretFile *string `field:"optional" json:"secretFile" yaml:"secretFile"`
	// secretRef is Optional: SecretRef is reference to the authentication secret for User, default is empty.
	//
	// More info: https://examples.k8s.io/volumes/cephfs/README.md#how-to-use-it
	SecretRef *SecretReference `field:"optional" json:"secretRef" yaml:"secretRef"`
	// user is Optional: User is the rados user name, default is admin More info: https://examples.k8s.io/volumes/cephfs/README.md#how-to-use-it.
	User *string `field:"optional" json:"user" yaml:"user"`
}

Represents a Ceph Filesystem mount that lasts the lifetime of a pod Cephfs volumes do not support ownership management or SELinux relabeling.

type CephFsVolumeSource 

type CephFsVolumeSource struct {
	// monitors is Required: Monitors is a collection of Ceph monitors More info: https://examples.k8s.io/volumes/cephfs/README.md#how-to-use-it.
	Monitors *[]*string `field:"required" json:"monitors" yaml:"monitors"`
	// path is Optional: Used as the mounted root, rather than the full Ceph tree, default is /.
	Path *string `field:"optional" json:"path" yaml:"path"`
	// readOnly is Optional: Defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts. More info: https://examples.k8s.io/volumes/cephfs/README.md#how-to-use-it
	// Default: false (read/write). ReadOnly here will force the ReadOnly setting in VolumeMounts. More info: https://examples.k8s.io/volumes/cephfs/README.md#how-to-use-it
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretFile is Optional: SecretFile is the path to key ring for User, default is /etc/ceph/user.secret More info: https://examples.k8s.io/volumes/cephfs/README.md#how-to-use-it.
	SecretFile *string `field:"optional" json:"secretFile" yaml:"secretFile"`
	// secretRef is Optional: SecretRef is reference to the authentication secret for User, default is empty.
	//
	// More info: https://examples.k8s.io/volumes/cephfs/README.md#how-to-use-it
	SecretRef *LocalObjectReference `field:"optional" json:"secretRef" yaml:"secretRef"`
	// user is optional: User is the rados user name, default is admin More info: https://examples.k8s.io/volumes/cephfs/README.md#how-to-use-it.
	User *string `field:"optional" json:"user" yaml:"user"`
}

Represents a Ceph Filesystem mount that lasts the lifetime of a pod Cephfs volumes do not support ownership management or SELinux relabeling.

type CertificateSigningRequestSpec 

type CertificateSigningRequestSpec struct {
	// request contains an x509 certificate signing request encoded in a "CERTIFICATE REQUEST" PEM block.
	//
	// When serialized as JSON or YAML, the data is additionally base64-encoded.
	Request *string `field:"required" json:"request" yaml:"request"`
	// signerName indicates the requested signer, and is a qualified name.
	//
	// List/watch requests for CertificateSigningRequests can filter on this field using a "spec.signerName=NAME" fieldSelector.
	//
	// Well-known Kubernetes signers are:
	// 1. "kubernetes.io/kube-apiserver-client": issues client certificates that can be used to authenticate to kube-apiserver.
	// Requests for this signer are never auto-approved by kube-controller-manager, can be issued by the "csrsigning" controller in kube-controller-manager.
	// 2. "kubernetes.io/kube-apiserver-client-kubelet": issues client certificates that kubelets use to authenticate to kube-apiserver.
	// Requests for this signer can be auto-approved by the "csrapproving" controller in kube-controller-manager, and can be issued by the "csrsigning" controller in kube-controller-manager.
	// 3. "kubernetes.io/kubelet-serving" issues serving certificates that kubelets use to serve TLS endpoints, which kube-apiserver can connect to securely.
	// Requests for this signer are never auto-approved by kube-controller-manager, and can be issued by the "csrsigning" controller in kube-controller-manager.
	//
	// More details are available at https://k8s.io/docs/reference/access-authn-authz/certificate-signing-requests/#kubernetes-signers
	//
	// Custom signerNames can also be specified. The signer defines:
	// 1. Trust distribution: how trust (CA bundles) are distributed.
	// 2. Permitted subjects: and behavior when a disallowed subject is requested.
	// 3. Required, permitted, or forbidden x509 extensions in the request (including whether subjectAltNames are allowed, which types, restrictions on allowed values) and behavior when a disallowed extension is requested.
	// 4. Required, permitted, or forbidden key usages / extended key usages.
	// 5. Expiration/certificate lifetime: whether it is fixed by the signer, configurable by the admin.
	// 6. Whether or not requests for CA certificates are allowed.
	SignerName *string `field:"required" json:"signerName" yaml:"signerName"`
	// expirationSeconds is the requested duration of validity of the issued certificate.
	//
	// The certificate signer may issue a certificate with a different validity duration so a client must check the delta between the notBefore and and notAfter fields in the issued certificate to determine the actual duration.
	//
	// The v1.22+ in-tree implementations of the well-known Kubernetes signers will honor this field as long as the requested duration is not greater than the maximum duration they will honor per the --cluster-signing-duration CLI flag to the Kubernetes controller manager.
	//
	// Certificate signers may not honor this field for various reasons:
	//
	// 1. Old signer that is unaware of the field (such as the in-tree
	// implementations prior to v1.22)
	// 2. Signer whose configured maximum is shorter than the requested duration
	// 3. Signer whose configured minimum is longer than the requested duration
	//
	// The minimum valid value for expirationSeconds is 600, i.e. 10 minutes.
	ExpirationSeconds *float64 `field:"optional" json:"expirationSeconds" yaml:"expirationSeconds"`
	// extra contains extra attributes of the user that created the CertificateSigningRequest.
	//
	// Populated by the API server on creation and immutable.
	Extra *map[string]*[]*string `field:"optional" json:"extra" yaml:"extra"`
	// groups contains group membership of the user that created the CertificateSigningRequest.
	//
	// Populated by the API server on creation and immutable.
	Groups *[]*string `field:"optional" json:"groups" yaml:"groups"`
	// uid contains the uid of the user that created the CertificateSigningRequest.
	//
	// Populated by the API server on creation and immutable.
	Uid *string `field:"optional" json:"uid" yaml:"uid"`
	// usages specifies a set of key usages requested in the issued certificate.
	//
	// Requests for TLS client certificates typically request: "digital signature", "key encipherment", "client auth".
	//
	// Requests for TLS serving certificates typically request: "key encipherment", "digital signature", "server auth".
	//
	// Valid values are:
	// "signing", "digital signature", "content commitment",
	// "key encipherment", "key agreement", "data encipherment",
	// "cert sign", "crl sign", "encipher only", "decipher only", "any",
	// "server auth", "client auth",
	// "code signing", "email protection", "s/mime",
	// "ipsec end system", "ipsec tunnel", "ipsec user",
	// "timestamping", "ocsp signing", "microsoft sgc", "netscape sgc".
	Usages *[]*string `field:"optional" json:"usages" yaml:"usages"`
	// username contains the name of the user that created the CertificateSigningRequest.
	//
	// Populated by the API server on creation and immutable.
	Username *string `field:"optional" json:"username" yaml:"username"`
}

CertificateSigningRequestSpec contains the certificate request.

type CinderPersistentVolumeSource 

type CinderPersistentVolumeSource struct {
	// volumeID used to identify the volume in cinder.
	//
	// More info: https://examples.k8s.io/mysql-cinder-pd/README.md
	VolumeId *string `field:"required" json:"volumeId" yaml:"volumeId"`
	// fsType Filesystem type to mount.
	//
	// Must be a filesystem type supported by the host operating system. Examples: "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified. More info: https://examples.k8s.io/mysql-cinder-pd/README.md
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// readOnly is Optional: Defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts. More info: https://examples.k8s.io/mysql-cinder-pd/README.md
	// Default: false (read/write). ReadOnly here will force the ReadOnly setting in VolumeMounts. More info: https://examples.k8s.io/mysql-cinder-pd/README.md
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretRef is Optional: points to a secret object containing parameters used to connect to OpenStack.
	SecretRef *SecretReference `field:"optional" json:"secretRef" yaml:"secretRef"`
}

Represents a cinder volume resource in Openstack.

A Cinder volume must exist before mounting to a container. The volume must also be in the same region as the kubelet. Cinder volumes support ownership management and SELinux relabeling.

type CinderVolumeSource 

type CinderVolumeSource struct {
	// volumeID used to identify the volume in cinder.
	//
	// More info: https://examples.k8s.io/mysql-cinder-pd/README.md
	VolumeId *string `field:"required" json:"volumeId" yaml:"volumeId"`
	// fsType is the filesystem type to mount.
	//
	// Must be a filesystem type supported by the host operating system. Examples: "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified. More info: https://examples.k8s.io/mysql-cinder-pd/README.md
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// readOnly defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts. More info: https://examples.k8s.io/mysql-cinder-pd/README.md
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretRef is optional: points to a secret object containing parameters used to connect to OpenStack.
	SecretRef *LocalObjectReference `field:"optional" json:"secretRef" yaml:"secretRef"`
}

Represents a cinder volume resource in Openstack.

A Cinder volume must exist before mounting to a container. The volume must also be in the same region as the kubelet. Cinder volumes support ownership management and SELinux relabeling.

type ClaimSource 

type ClaimSource struct {
	// ResourceClaimName is the name of a ResourceClaim object in the same namespace as this pod.
	ResourceClaimName *string `field:"optional" json:"resourceClaimName" yaml:"resourceClaimName"`
	// ResourceClaimTemplateName is the name of a ResourceClaimTemplate object in the same namespace as this pod.
	//
	// The template will be used to create a new ResourceClaim, which will be bound to this pod. When this pod is deleted, the ResourceClaim will also be deleted. The name of the ResourceClaim will be <pod name>-<resource name>, where <resource name> is the PodResourceClaim.Name. Pod validation will reject the pod if the concatenated name is not valid for a ResourceClaim (e.g. too long).
	//
	// An existing ResourceClaim with that name that is not owned by the pod will not be used for the pod to avoid using an unrelated resource by mistake. Scheduling and pod startup are then blocked until the unrelated ResourceClaim is removed.
	//
	// This field is immutable and no changes will be made to the corresponding ResourceClaim by the control plane after creating the ResourceClaim.
	ResourceClaimTemplateName *string `field:"optional" json:"resourceClaimTemplateName" yaml:"resourceClaimTemplateName"`
}

ClaimSource describes a reference to a ResourceClaim.

Exactly one of these fields should be set. Consumers of this type must treat an empty object as if it has an unknown value.

type ClientIpConfig 

type ClientIpConfig struct {
	// timeoutSeconds specifies the seconds of ClientIP type session sticky time.
	//
	// The value must be >0 && <=86400(for 1 day) if ServiceAffinity == "ClientIP". Default value is 10800(for 3 hours).
	TimeoutSeconds *float64 `field:"optional" json:"timeoutSeconds" yaml:"timeoutSeconds"`
}

ClientIPConfig represents the configurations of Client IP based session affinity.

type ClusterCidrSpecV1Alpha1 

type ClusterCidrSpecV1Alpha1 struct {
	// perNodeHostBits defines the number of host bits to be configured per node.
	//
	// A subnet mask determines how much of the address is used for network bits and host bits. For example an IPv4 address of 192.168.0.0/24, splits the address into 24 bits for the network portion and 8 bits for the host portion. To allocate 256 IPs, set this field to 8 (a /24 mask for IPv4 or a /120 for IPv6). Minimum value is 4 (16 IPs). This field is immutable.
	PerNodeHostBits *float64 `field:"required" json:"perNodeHostBits" yaml:"perNodeHostBits"`
	// ipv4 defines an IPv4 IP block in CIDR notation(e.g. "10.0.0.0/8"). At least one of ipv4 and ipv6 must be specified. This field is immutable.
	Ipv4 *string `field:"optional" json:"ipv4" yaml:"ipv4"`
	// ipv6 defines an IPv6 IP block in CIDR notation(e.g. "2001:db8::/64"). At least one of ipv4 and ipv6 must be specified. This field is immutable.
	Ipv6 *string `field:"optional" json:"ipv6" yaml:"ipv6"`
	// nodeSelector defines which nodes the config is applicable to.
	//
	// An empty or nil nodeSelector selects all nodes. This field is immutable.
	NodeSelector *NodeSelector `field:"optional" json:"nodeSelector" yaml:"nodeSelector"`
}

ClusterCIDRSpec defines the desired state of ClusterCIDR.

type ClusterTrustBundleSpecV1Alpha1 

type ClusterTrustBundleSpecV1Alpha1 struct {
	// trustBundle contains the individual X.509 trust anchors for this bundle, as PEM bundle of PEM-wrapped, DER-formatted X.509 certificates.
	//
	// The data must consist only of PEM certificate blocks that parse as valid X.509 certificates.  Each certificate must include a basic constraints extension with the CA bit set.  The API server will reject objects that contain duplicate certificates, or that use PEM block headers.
	//
	// Users of ClusterTrustBundles, including Kubelet, are free to reorder and deduplicate certificate blocks in this file according to their own logic, as well as to drop PEM block headers and inter-block data.
	TrustBundle *string `field:"required" json:"trustBundle" yaml:"trustBundle"`
	// signerName indicates the associated signer, if any.
	//
	// In order to create or update a ClusterTrustBundle that sets signerName, you must have the following cluster-scoped permission: group=certificates.k8s.io resource=signers resourceName=<the signer name> verb=attest.
	//
	// If signerName is not empty, then the ClusterTrustBundle object must be named with the signer name as a prefix (translating slashes to colons). For example, for the signer name `example.com/foo`, valid ClusterTrustBundle object names include `example.com:foo:abc` and `example.com:foo:v1`.
	//
	// If signerName is empty, then the ClusterTrustBundle object's name must not have such a prefix.
	//
	// List/watch requests for ClusterTrustBundles can filter on this field using a `spec.signerName=NAME` field selector.
	SignerName *string `field:"optional" json:"signerName" yaml:"signerName"`
}

ClusterTrustBundleSpec contains the signer and trust anchors.

type ComponentCondition 

type ComponentCondition struct {
	// Status of the condition for a component.
	//
	// Valid values for "Healthy": "True", "False", or "Unknown".
	Status *string `field:"required" json:"status" yaml:"status"`
	// Type of condition for a component.
	//
	// Valid value: "Healthy".
	Type *string `field:"required" json:"type" yaml:"type"`
	// Condition error code for a component.
	//
	// For example, a health check error code.
	Error *string `field:"optional" json:"error" yaml:"error"`
	// Message about the condition for a component.
	//
	// For example, information about a health check.
	Message *string `field:"optional" json:"message" yaml:"message"`
}

Information about the condition of a component.

type ConfigMapEnvSource 

type ConfigMapEnvSource struct {
	// Name of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
	Name *string `field:"optional" json:"name" yaml:"name"`
	// Specify whether the ConfigMap must be defined.
	Optional *bool `field:"optional" json:"optional" yaml:"optional"`
}

ConfigMapEnvSource selects a ConfigMap to populate the environment variables with.

The contents of the target ConfigMap's Data field will represent the key-value pairs as environment variables.

type ConfigMapKeySelector 

type ConfigMapKeySelector struct {
	// The key to select.
	Key *string `field:"required" json:"key" yaml:"key"`
	// Name of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
	Name *string `field:"optional" json:"name" yaml:"name"`
	// Specify whether the ConfigMap or its key must be defined.
	Optional *bool `field:"optional" json:"optional" yaml:"optional"`
}

Selects a key from a ConfigMap.

type ConfigMapNodeConfigSource 

type ConfigMapNodeConfigSource struct {
	// KubeletConfigKey declares which key of the referenced ConfigMap corresponds to the KubeletConfiguration structure This field is required in all cases.
	KubeletConfigKey *string `field:"required" json:"kubeletConfigKey" yaml:"kubeletConfigKey"`
	// Name is the metadata.name of the referenced ConfigMap. This field is required in all cases.
	Name *string `field:"required" json:"name" yaml:"name"`
	// Namespace is the metadata.namespace of the referenced ConfigMap. This field is required in all cases.
	Namespace *string `field:"required" json:"namespace" yaml:"namespace"`
	// ResourceVersion is the metadata.ResourceVersion of the referenced ConfigMap. This field is forbidden in Node.Spec, and required in Node.Status.
	ResourceVersion *string `field:"optional" json:"resourceVersion" yaml:"resourceVersion"`
	// UID is the metadata.UID of the referenced ConfigMap. This field is forbidden in Node.Spec, and required in Node.Status.
	Uid *string `field:"optional" json:"uid" yaml:"uid"`
}

ConfigMapNodeConfigSource contains the information to reference a ConfigMap as a config source for the Node.

This API is deprecated since 1.22: https://git.k8s.io/enhancements/keps/sig-node/281-dynamic-kubelet-configuration

type ConfigMapProjection 

type ConfigMapProjection struct {
	// items if unspecified, each key-value pair in the Data field of the referenced ConfigMap will be projected into the volume as a file whose name is the key and content is the value.
	//
	// If specified, the listed keys will be projected into the specified paths, and unlisted keys will not be present. If a key is specified which is not present in the ConfigMap, the volume setup will error unless it is marked optional. Paths must be relative and may not contain the '..' path or start with '..'.
	Items *[]*KeyToPath `field:"optional" json:"items" yaml:"items"`
	// Name of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
	Name *string `field:"optional" json:"name" yaml:"name"`
	// optional specify whether the ConfigMap or its keys must be defined.
	Optional *bool `field:"optional" json:"optional" yaml:"optional"`
}

Adapts a ConfigMap into a projected volume.

The contents of the target ConfigMap's Data field will be presented in a projected volume as files using the keys in the Data field as the file names, unless the items element is populated with specific mappings of keys to paths. Note that this is identical to a configmap volume source without the default mode.

type ConfigMapVolumeSource 

type ConfigMapVolumeSource struct {
	// defaultMode is optional: mode bits used to set permissions on created files by default.
	//
	// Must be an octal value between 0000 and 0777 or a decimal value between 0 and 511. YAML accepts both octal and decimal values, JSON requires decimal values for mode bits. Defaults to 0644. Directories within the path are not affected by this setting. This might be in conflict with other options that affect the file mode, like fsGroup, and the result can be other mode bits set.
	// Default: 0644. Directories within the path are not affected by this setting. This might be in conflict with other options that affect the file mode, like fsGroup, and the result can be other mode bits set.
	//
	DefaultMode *float64 `field:"optional" json:"defaultMode" yaml:"defaultMode"`
	// items if unspecified, each key-value pair in the Data field of the referenced ConfigMap will be projected into the volume as a file whose name is the key and content is the value.
	//
	// If specified, the listed keys will be projected into the specified paths, and unlisted keys will not be present. If a key is specified which is not present in the ConfigMap, the volume setup will error unless it is marked optional. Paths must be relative and may not contain the '..' path or start with '..'.
	Items *[]*KeyToPath `field:"optional" json:"items" yaml:"items"`
	// Name of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
	Name *string `field:"optional" json:"name" yaml:"name"`
	// optional specify whether the ConfigMap or its keys must be defined.
	Optional *bool `field:"optional" json:"optional" yaml:"optional"`
}

Adapts a ConfigMap into a volume.

The contents of the target ConfigMap's Data field will be presented in a volume as files using the keys in the Data field as the file names, unless the items element is populated with specific mappings of keys to paths. ConfigMap volumes support ownership management and SELinux relabeling.

type Container 

type Container struct {
	// Name of the container specified as a DNS_LABEL.
	//
	// Each container in a pod must have a unique name (DNS_LABEL). Cannot be updated.
	Name *string `field:"required" json:"name" yaml:"name"`
	// Arguments to the entrypoint.
	//
	// The container image's CMD is used if this is not provided. Variable references $(VAR_NAME) are expanded using the container's environment. If a variable cannot be resolved, the reference in the input string will be unchanged. Double $$ are reduced to a single $, which allows for escaping the $(VAR_NAME) syntax: i.e. "$$(VAR_NAME)" will produce the string literal "$(VAR_NAME)". Escaped references will never be expanded, regardless of whether the variable exists or not. Cannot be updated. More info: https://kubernetes.io/docs/tasks/inject-data-application/define-command-argument-container/#running-a-command-in-a-shell
	Args *[]*string `field:"optional" json:"args" yaml:"args"`
	// Entrypoint array.
	//
	// Not executed within a shell. The container image's ENTRYPOINT is used if this is not provided. Variable references $(VAR_NAME) are expanded using the container's environment. If a variable cannot be resolved, the reference in the input string will be unchanged. Double $$ are reduced to a single $, which allows for escaping the $(VAR_NAME) syntax: i.e. "$$(VAR_NAME)" will produce the string literal "$(VAR_NAME)". Escaped references will never be expanded, regardless of whether the variable exists or not. Cannot be updated. More info: https://kubernetes.io/docs/tasks/inject-data-application/define-command-argument-container/#running-a-command-in-a-shell
	Command *[]*string `field:"optional" json:"command" yaml:"command"`
	// List of environment variables to set in the container.
	//
	// Cannot be updated.
	Env *[]*EnvVar `field:"optional" json:"env" yaml:"env"`
	// List of sources to populate environment variables in the container.
	//
	// The keys defined within a source must be a C_IDENTIFIER. All invalid keys will be reported as an event when the container is starting. When a key exists in multiple sources, the value associated with the last source will take precedence. Values defined by an Env with a duplicate key will take precedence. Cannot be updated.
	EnvFrom *[]*EnvFromSource `field:"optional" json:"envFrom" yaml:"envFrom"`
	// Container image name.
	//
	// More info: https://kubernetes.io/docs/concepts/containers/images This field is optional to allow higher level config management to default or override container images in workload controllers like Deployments and StatefulSets.
	Image *string `field:"optional" json:"image" yaml:"image"`
	// Image pull policy.
	//
	// One of Always, Never, IfNotPresent. Defaults to Always if :latest tag is specified, or IfNotPresent otherwise. Cannot be updated. More info: https://kubernetes.io/docs/concepts/containers/images#updating-images
	// Default: Always if :latest tag is specified, or IfNotPresent otherwise. Cannot be updated. More info: https://kubernetes.io/docs/concepts/containers/images#updating-images
	//
	ImagePullPolicy *string `field:"optional" json:"imagePullPolicy" yaml:"imagePullPolicy"`
	// Actions that the management system should take in response to container lifecycle events.
	//
	// Cannot be updated.
	Lifecycle *Lifecycle `field:"optional" json:"lifecycle" yaml:"lifecycle"`
	// Periodic probe of container liveness.
	//
	// Container will be restarted if the probe fails. Cannot be updated. More info: https://kubernetes.io/docs/concepts/workloads/pods/pod-lifecycle#container-probes
	LivenessProbe *Probe `field:"optional" json:"livenessProbe" yaml:"livenessProbe"`
	// List of ports to expose from the container.
	//
	// Not specifying a port here DOES NOT prevent that port from being exposed. Any port which is listening on the default "0.0.0.0" address inside a container will be accessible from the network. Modifying this array with strategic merge patch may corrupt the data. For more information See https://github.com/kubernetes/kubernetes/issues/108255. Cannot be updated.
	Ports *[]*ContainerPort `field:"optional" json:"ports" yaml:"ports"`
	// Periodic probe of container service readiness.
	//
	// Container will be removed from service endpoints if the probe fails. Cannot be updated. More info: https://kubernetes.io/docs/concepts/workloads/pods/pod-lifecycle#container-probes
	ReadinessProbe *Probe `field:"optional" json:"readinessProbe" yaml:"readinessProbe"`
	// Resources resize policy for the container.
	ResizePolicy *[]*ContainerResizePolicy `field:"optional" json:"resizePolicy" yaml:"resizePolicy"`
	// Compute Resources required by this container.
	//
	// Cannot be updated. More info: https://kubernetes.io/docs/concepts/configuration/manage-resources-containers/
	Resources *ResourceRequirements `field:"optional" json:"resources" yaml:"resources"`
	// SecurityContext defines the security options the container should be run with.
	//
	// If set, the fields of SecurityContext override the equivalent fields of PodSecurityContext. More info: https://kubernetes.io/docs/tasks/configure-pod-container/security-context/
	SecurityContext *SecurityContext `field:"optional" json:"securityContext" yaml:"securityContext"`
	// StartupProbe indicates that the Pod has successfully initialized.
	//
	// If specified, no other probes are executed until this completes successfully. If this probe fails, the Pod will be restarted, just as if the livenessProbe failed. This can be used to provide different probe parameters at the beginning of a Pod's lifecycle, when it might take a long time to load data or warm a cache, than during steady-state operation. This cannot be updated. More info: https://kubernetes.io/docs/concepts/workloads/pods/pod-lifecycle#container-probes
	StartupProbe *Probe `field:"optional" json:"startupProbe" yaml:"startupProbe"`
	// Whether this container should allocate a buffer for stdin in the container runtime.
	//
	// If this is not set, reads from stdin in the container will always result in EOF. Default is false.
	// Default: false.
	//
	Stdin *bool `field:"optional" json:"stdin" yaml:"stdin"`
	// Whether the container runtime should close the stdin channel after it has been opened by a single attach.
	//
	// When stdin is true the stdin stream will remain open across multiple attach sessions. If stdinOnce is set to true, stdin is opened on container start, is empty until the first client attaches to stdin, and then remains open and accepts data until the client disconnects, at which time stdin is closed and remains closed until the container is restarted. If this flag is false, a container processes that reads from stdin will never receive an EOF. Default is false
	// Default: false.
	//
	StdinOnce *bool `field:"optional" json:"stdinOnce" yaml:"stdinOnce"`
	// Optional: Path at which the file to which the container's termination message will be written is mounted into the container's filesystem.
	//
	// Message written is intended to be brief final status, such as an assertion failure message. Will be truncated by the node if greater than 4096 bytes. The total message length across all containers will be limited to 12kb. Defaults to /dev/termination-log. Cannot be updated.
	// Default: dev/termination-log. Cannot be updated.
	//
	TerminationMessagePath *string `field:"optional" json:"terminationMessagePath" yaml:"terminationMessagePath"`
	// Indicate how the termination message should be populated.
	//
	// File will use the contents of terminationMessagePath to populate the container status message on both success and failure. FallbackToLogsOnError will use the last chunk of container log output if the termination message file is empty and the container exited with an error. The log output is limited to 2048 bytes or 80 lines, whichever is smaller. Defaults to File. Cannot be updated.
	// Default: File. Cannot be updated.
	//
	TerminationMessagePolicy *string `field:"optional" json:"terminationMessagePolicy" yaml:"terminationMessagePolicy"`
	// Whether this container should allocate a TTY for itself, also requires 'stdin' to be true.
	//
	// Default is false.
	// Default: false.
	//
	Tty *bool `field:"optional" json:"tty" yaml:"tty"`
	// volumeDevices is the list of block devices to be used by the container.
	VolumeDevices *[]*VolumeDevice `field:"optional" json:"volumeDevices" yaml:"volumeDevices"`
	// Pod volumes to mount into the container's filesystem.
	//
	// Cannot be updated.
	VolumeMounts *[]*VolumeMount `field:"optional" json:"volumeMounts" yaml:"volumeMounts"`
	// Container's working directory.
	//
	// If not specified, the container runtime's default will be used, which might be configured in the container image. Cannot be updated.
	WorkingDir *string `field:"optional" json:"workingDir" yaml:"workingDir"`
}

A single application container that you want to run within a pod.

type ContainerPort 

type ContainerPort struct {
	// Number of port to expose on the pod's IP address.
	//
	// This must be a valid port number, 0 < x < 65536.
	ContainerPort *float64 `field:"required" json:"containerPort" yaml:"containerPort"`
	// What host IP to bind the external port to.
	HostIp *string `field:"optional" json:"hostIp" yaml:"hostIp"`
	// Number of port to expose on the host.
	//
	// If specified, this must be a valid port number, 0 < x < 65536. If HostNetwork is specified, this must match ContainerPort. Most containers do not need this.
	HostPort *float64 `field:"optional" json:"hostPort" yaml:"hostPort"`
	// If specified, this must be an IANA_SVC_NAME and unique within the pod.
	//
	// Each named port in a pod must have a unique name. Name for the port that can be referred to by services.
	Name *string `field:"optional" json:"name" yaml:"name"`
	// Protocol for port.
	//
	// Must be UDP, TCP, or SCTP. Defaults to "TCP".
	// Default: TCP".
	//
	Protocol *string `field:"optional" json:"protocol" yaml:"protocol"`
}

ContainerPort represents a network port in a single container.

type ContainerResizePolicy 

type ContainerResizePolicy struct {
	// Name of the resource to which this resource resize policy applies.
	//
	// Supported values: cpu, memory.
	ResourceName *string `field:"required" json:"resourceName" yaml:"resourceName"`
	// Restart policy to apply when specified resource is resized.
	//
	// If not specified, it defaults to NotRequired.
	RestartPolicy *string `field:"required" json:"restartPolicy" yaml:"restartPolicy"`
}

ContainerResizePolicy represents resource resize policy for the container.

type ContainerResourceMetricSourceV2 

type ContainerResourceMetricSourceV2 struct {
	// container is the name of the container in the pods of the scaling target.
	Container *string `field:"required" json:"container" yaml:"container"`
	// name is the name of the resource in question.
	Name *string `field:"required" json:"name" yaml:"name"`
	// target specifies the target value for the given metric.
	Target *MetricTargetV2 `field:"required" json:"target" yaml:"target"`
}

ContainerResourceMetricSource indicates how to scale on a resource metric known to Kubernetes, as specified in requests and limits, describing each pod in the current scale target (e.g. CPU or memory). The values will be averaged together before being compared to the target. Such metrics are built in to Kubernetes, and have special scaling options on top of those available to normal per-pod metrics using the "pods" source. Only one "target" type should be set.

type CronJobSpec 

type CronJobSpec struct {
	// Specifies the job that will be created when executing a CronJob.
	JobTemplate *JobTemplateSpec `field:"required" json:"jobTemplate" yaml:"jobTemplate"`
	// The schedule in Cron format, see https://en.wikipedia.org/wiki/Cron.
	Schedule *string `field:"required" json:"schedule" yaml:"schedule"`
	// Specifies how to treat concurrent executions of a Job. Valid values are:.
	//
	// - "Allow" (default): allows CronJobs to run concurrently; - "Forbid": forbids concurrent runs, skipping next run if previous run hasn't finished yet; - "Replace": cancels currently running job and replaces it with a new one.
	ConcurrencyPolicy *string `field:"optional" json:"concurrencyPolicy" yaml:"concurrencyPolicy"`
	// The number of failed finished jobs to retain.
	//
	// Value must be non-negative integer. Defaults to 1.
	// Default: 1.
	//
	FailedJobsHistoryLimit *float64 `field:"optional" json:"failedJobsHistoryLimit" yaml:"failedJobsHistoryLimit"`
	// Optional deadline in seconds for starting the job if it misses scheduled time for any reason.
	//
	// Missed jobs executions will be counted as failed ones.
	StartingDeadlineSeconds *float64 `field:"optional" json:"startingDeadlineSeconds" yaml:"startingDeadlineSeconds"`
	// The number of successful finished jobs to retain.
	//
	// Value must be non-negative integer. Defaults to 3.
	// Default: 3.
	//
	SuccessfulJobsHistoryLimit *float64 `field:"optional" json:"successfulJobsHistoryLimit" yaml:"successfulJobsHistoryLimit"`
	// This flag tells the controller to suspend subsequent executions, it does not apply to already started executions.
	//
	// Defaults to false.
	// Default: false.
	//
	Suspend *bool `field:"optional" json:"suspend" yaml:"suspend"`
	// The time zone name for the given schedule, see https://en.wikipedia.org/wiki/List_of_tz_database_time_zones. If not specified, this will default to the time zone of the kube-controller-manager process. The set of valid time zone names and the time zone offset is loaded from the system-wide time zone database by the API server during CronJob validation and the controller manager during execution. If no system-wide time zone database can be found a bundled version of the database is used instead. If the time zone name becomes invalid during the lifetime of a CronJob or due to a change in host configuration, the controller will stop creating new new Jobs and will create a system event with the reason UnknownTimeZone. More information can be found in https://kubernetes.io/docs/concepts/workloads/controllers/cron-jobs/#time-zones.
	TimeZone *string `field:"optional" json:"timeZone" yaml:"timeZone"`
}

CronJobSpec describes how the job execution will look like and when it will actually run.

type CrossVersionObjectReference 

type CrossVersionObjectReference struct {
	// kind is the kind of the referent;
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// name is the name of the referent;
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
	Name *string `field:"required" json:"name" yaml:"name"`
	// apiVersion is the API version of the referent.
	ApiVersion *string `field:"optional" json:"apiVersion" yaml:"apiVersion"`
}

CrossVersionObjectReference contains enough information to let you identify the referred resource.

type CrossVersionObjectReferenceV2 

type CrossVersionObjectReferenceV2 struct {
	// kind is the kind of the referent;
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// name is the name of the referent;
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
	Name *string `field:"required" json:"name" yaml:"name"`
	// apiVersion is the API version of the referent.
	ApiVersion *string `field:"optional" json:"apiVersion" yaml:"apiVersion"`
}

CrossVersionObjectReference contains enough information to let you identify the referred resource.

type CsiDriverSpec 

type CsiDriverSpec struct {
	// attachRequired indicates this CSI volume driver requires an attach operation (because it implements the CSI ControllerPublishVolume() method), and that the Kubernetes attach detach controller should call the attach volume interface which checks the volumeattachment status and waits until the volume is attached before proceeding to mounting.
	//
	// The CSI external-attacher coordinates with CSI volume driver and updates the volumeattachment status when the attach operation is complete. If the CSIDriverRegistry feature gate is enabled and the value is specified to false, the attach operation will be skipped. Otherwise the attach operation will be called.
	//
	// This field is immutable.
	AttachRequired *bool `field:"optional" json:"attachRequired" yaml:"attachRequired"`
	// fsGroupPolicy defines if the underlying volume supports changing ownership and permission of the volume before being mounted.
	//
	// Refer to the specific FSGroupPolicy values for additional details.
	//
	// This field is immutable.
	//
	// Defaults to ReadWriteOnceWithFSType, which will examine each volume to determine if Kubernetes should modify ownership and permissions of the volume. With the default policy the defined fsGroup will only be applied if a fstype is defined and the volume's access mode contains ReadWriteOnce.
	// Default: ReadWriteOnceWithFSType, which will examine each volume to determine if Kubernetes should modify ownership and permissions of the volume. With the default policy the defined fsGroup will only be applied if a fstype is defined and the volume's access mode contains ReadWriteOnce.
	//
	FsGroupPolicy *string `field:"optional" json:"fsGroupPolicy" yaml:"fsGroupPolicy"`
	// podInfoOnMount indicates this CSI volume driver requires additional pod information (like podName, podUID, etc.) during mount operations, if set to true. If set to false, pod information will not be passed on mount. Default is false.
	//
	// The CSI driver specifies podInfoOnMount as part of driver deployment. If true, Kubelet will pass pod information as VolumeContext in the CSI NodePublishVolume() calls. The CSI driver is responsible for parsing and validating the information passed in as VolumeContext.
	//
	// The following VolumeConext will be passed if podInfoOnMount is set to true. This list might grow, but the prefix will be used. "csi.storage.k8s.io/pod.name": pod.Name "csi.storage.k8s.io/pod.namespace": pod.Namespace "csi.storage.k8s.io/pod.uid": string(pod.UID) "csi.storage.k8s.io/ephemeral": "true" if the volume is an ephemeral inline volume
	// defined by a CSIVolumeSource, otherwise "false"
	//
	// "csi.storage.k8s.io/ephemeral" is a new feature in Kubernetes 1.16. It is only required for drivers which support both the "Persistent" and "Ephemeral" VolumeLifecycleMode. Other drivers can leave pod info disabled and/or ignore this field. As Kubernetes 1.15 doesn't support this field, drivers can only support one mode when deployed on such a cluster and the deployment determines which mode that is, for example via a command line parameter of the driver.
	//
	// This field is immutable.
	// Default: false.
	//
	PodInfoOnMount *bool `field:"optional" json:"podInfoOnMount" yaml:"podInfoOnMount"`
	// requiresRepublish indicates the CSI driver wants `NodePublishVolume` being periodically called to reflect any possible change in the mounted volume.
	//
	// This field defaults to false.
	//
	// Note: After a successful initial NodePublishVolume call, subsequent calls to NodePublishVolume should only update the contents of the volume. New mount points will not be seen by a running container.
	RequiresRepublish *bool `field:"optional" json:"requiresRepublish" yaml:"requiresRepublish"`
	// seLinuxMount specifies if the CSI driver supports "-o context" mount option.
	//
	// When "true", the CSI driver must ensure that all volumes provided by this CSI driver can be mounted separately with different `-o context` options. This is typical for storage backends that provide volumes as filesystems on block devices or as independent shared volumes. Kubernetes will call NodeStage / NodePublish with "-o context=xyz" mount option when mounting a ReadWriteOncePod volume used in Pod that has explicitly set SELinux context. In the future, it may be expanded to other volume AccessModes. In any case, Kubernetes will ensure that the volume is mounted only with a single SELinux context.
	//
	// When "false", Kubernetes won't pass any special SELinux mount options to the driver. This is typical for volumes that represent subdirectories of a bigger shared filesystem.
	//
	// Default is "false".
	// Default: false".
	//
	SeLinuxMount *bool `field:"optional" json:"seLinuxMount" yaml:"seLinuxMount"`
	// storageCapacity indicates that the CSI volume driver wants pod scheduling to consider the storage capacity that the driver deployment will report by creating CSIStorageCapacity objects with capacity information, if set to true.
	//
	// The check can be enabled immediately when deploying a driver. In that case, provisioning new volumes with late binding will pause until the driver deployment has published some suitable CSIStorageCapacity object.
	//
	// Alternatively, the driver can be deployed with the field unset or false and it can be flipped later when storage capacity information has been published.
	//
	// This field was immutable in Kubernetes <= 1.22 and now is mutable.
	StorageCapacity *bool `field:"optional" json:"storageCapacity" yaml:"storageCapacity"`
	// tokenRequests indicates the CSI driver needs pods' service account tokens it is mounting volume for to do necessary authentication.
	//
	// Kubelet will pass the tokens in VolumeContext in the CSI NodePublishVolume calls. The CSI driver should parse and validate the following VolumeContext: "csi.storage.k8s.io/serviceAccount.tokens": {
	// "<audience>": {
	// "token": <token>,
	// "expirationTimestamp": <expiration timestamp in RFC3339>,
	// },
	// ...
	// }
	//
	// Note: Audience in each TokenRequest should be different and at most one token is empty string. To receive a new token after expiry, RequiresRepublish can be used to trigger NodePublishVolume periodically.
	TokenRequests *[]*TokenRequest `field:"optional" json:"tokenRequests" yaml:"tokenRequests"`
	// volumeLifecycleModes defines what kind of volumes this CSI volume driver supports.
	//
	// The default if the list is empty is "Persistent", which is the usage defined by the CSI specification and implemented in Kubernetes via the usual PV/PVC mechanism.
	//
	// The other mode is "Ephemeral". In this mode, volumes are defined inline inside the pod spec with CSIVolumeSource and their lifecycle is tied to the lifecycle of that pod. A driver has to be aware of this because it is only going to get a NodePublishVolume call for such a volume.
	//
	// For more information about implementing this mode, see https://kubernetes-csi.github.io/docs/ephemeral-local-volumes.html A driver can support one or more of these modes and more modes may be added in the future.
	//
	// This field is beta. This field is immutable.
	VolumeLifecycleModes *[]*string `field:"optional" json:"volumeLifecycleModes" yaml:"volumeLifecycleModes"`
}

CSIDriverSpec is the specification of a CSIDriver.

type CsiNodeDriver 

type CsiNodeDriver struct {
	// name represents the name of the CSI driver that this object refers to.
	//
	// This MUST be the same name returned by the CSI GetPluginName() call for that driver.
	Name *string `field:"required" json:"name" yaml:"name"`
	// nodeID of the node from the driver point of view.
	//
	// This field enables Kubernetes to communicate with storage systems that do not share the same nomenclature for nodes. For example, Kubernetes may refer to a given node as "node1", but the storage system may refer to the same node as "nodeA". When Kubernetes issues a command to the storage system to attach a volume to a specific node, it can use this field to refer to the node name using the ID that the storage system will understand, e.g. "nodeA" instead of "node1". This field is required.
	NodeId *string `field:"required" json:"nodeId" yaml:"nodeId"`
	// allocatable represents the volume resources of a node that are available for scheduling.
	//
	// This field is beta.
	Allocatable *VolumeNodeResources `field:"optional" json:"allocatable" yaml:"allocatable"`
	// topologyKeys is the list of keys supported by the driver.
	//
	// When a driver is initialized on a cluster, it provides a set of topology keys that it understands (e.g. "company.com/zone", "company.com/region"). When a driver is initialized on a node, it provides the same topology keys along with values. Kubelet will expose these topology keys as labels on its own node object. When Kubernetes does topology aware provisioning, it can use this list to determine which labels it should retrieve from the node object and pass back to the driver. It is possible for different nodes to use different topology keys. This can be empty if driver does not support topology.
	TopologyKeys *[]*string `field:"optional" json:"topologyKeys" yaml:"topologyKeys"`
}

CSINodeDriver holds information about the specification of one CSI driver installed on a node.

type CsiNodeSpec 

type CsiNodeSpec struct {
	// drivers is a list of information of all CSI Drivers existing on a node.
	//
	// If all drivers in the list are uninstalled, this can become empty.
	Drivers *[]*CsiNodeDriver `field:"required" json:"drivers" yaml:"drivers"`
}

CSINodeSpec holds information about the specification of all CSI drivers installed on a node.

type CsiPersistentVolumeSource 

type CsiPersistentVolumeSource struct {
	// driver is the name of the driver to use for this volume.
	//
	// Required.
	Driver *string `field:"required" json:"driver" yaml:"driver"`
	// volumeHandle is the unique volume name returned by the CSI volume plugin’s CreateVolume to refer to the volume on all subsequent calls.
	//
	// Required.
	VolumeHandle *string `field:"required" json:"volumeHandle" yaml:"volumeHandle"`
	// controllerExpandSecretRef is a reference to the secret object containing sensitive information to pass to the CSI driver to complete the CSI ControllerExpandVolume call.
	//
	// This field is optional, and may be empty if no secret is required. If the secret object contains more than one secret, all secrets are passed.
	ControllerExpandSecretRef *SecretReference `field:"optional" json:"controllerExpandSecretRef" yaml:"controllerExpandSecretRef"`
	// controllerPublishSecretRef is a reference to the secret object containing sensitive information to pass to the CSI driver to complete the CSI ControllerPublishVolume and ControllerUnpublishVolume calls.
	//
	// This field is optional, and may be empty if no secret is required. If the secret object contains more than one secret, all secrets are passed.
	ControllerPublishSecretRef *SecretReference `field:"optional" json:"controllerPublishSecretRef" yaml:"controllerPublishSecretRef"`
	// fsType to mount.
	//
	// Must be a filesystem type supported by the host operating system. Ex. "ext4", "xfs", "ntfs".
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// nodeExpandSecretRef is a reference to the secret object containing sensitive information to pass to the CSI driver to complete the CSI NodeExpandVolume call.
	//
	// This is a beta field which is enabled default by CSINodeExpandSecret feature gate. This field is optional, may be omitted if no secret is required. If the secret object contains more than one secret, all secrets are passed.
	NodeExpandSecretRef *SecretReference `field:"optional" json:"nodeExpandSecretRef" yaml:"nodeExpandSecretRef"`
	// nodePublishSecretRef is a reference to the secret object containing sensitive information to pass to the CSI driver to complete the CSI NodePublishVolume and NodeUnpublishVolume calls.
	//
	// This field is optional, and may be empty if no secret is required. If the secret object contains more than one secret, all secrets are passed.
	NodePublishSecretRef *SecretReference `field:"optional" json:"nodePublishSecretRef" yaml:"nodePublishSecretRef"`
	// nodeStageSecretRef is a reference to the secret object containing sensitive information to pass to the CSI driver to complete the CSI NodeStageVolume and NodeStageVolume and NodeUnstageVolume calls.
	//
	// This field is optional, and may be empty if no secret is required. If the secret object contains more than one secret, all secrets are passed.
	NodeStageSecretRef *SecretReference `field:"optional" json:"nodeStageSecretRef" yaml:"nodeStageSecretRef"`
	// readOnly value to pass to ControllerPublishVolumeRequest.
	//
	// Defaults to false (read/write).
	// Default: false (read/write).
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// volumeAttributes of the volume to publish.
	VolumeAttributes *map[string]*string `field:"optional" json:"volumeAttributes" yaml:"volumeAttributes"`
}

Represents storage that is managed by an external CSI volume driver (Beta feature).

type CsiVolumeSource 

type CsiVolumeSource struct {
	// driver is the name of the CSI driver that handles this volume.
	//
	// Consult with your admin for the correct name as registered in the cluster.
	Driver *string `field:"required" json:"driver" yaml:"driver"`
	// fsType to mount.
	//
	// Ex. "ext4", "xfs", "ntfs". If not provided, the empty value is passed to the associated CSI driver which will determine the default filesystem to apply.
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// nodePublishSecretRef is a reference to the secret object containing sensitive information to pass to the CSI driver to complete the CSI NodePublishVolume and NodeUnpublishVolume calls.
	//
	// This field is optional, and  may be empty if no secret is required. If the secret object contains more than one secret, all secret references are passed.
	NodePublishSecretRef *LocalObjectReference `field:"optional" json:"nodePublishSecretRef" yaml:"nodePublishSecretRef"`
	// readOnly specifies a read-only configuration for the volume.
	//
	// Defaults to false (read/write).
	// Default: false (read/write).
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// volumeAttributes stores driver-specific properties that are passed to the CSI driver.
	//
	// Consult your driver's documentation for supported values.
	VolumeAttributes *map[string]*string `field:"optional" json:"volumeAttributes" yaml:"volumeAttributes"`
}

Represents a source location of a volume to mount, managed by an external CSI driver.

type CustomResourceColumnDefinition 

type CustomResourceColumnDefinition struct {
	// jsonPath is a simple JSON path (i.e. with array notation) which is evaluated against each custom resource to produce the value for this column.
	JsonPath *string `field:"required" json:"jsonPath" yaml:"jsonPath"`
	// name is a human readable name for the column.
	Name *string `field:"required" json:"name" yaml:"name"`
	// type is an OpenAPI type definition for this column.
	//
	// See https://github.com/OAI/OpenAPI-Specification/blob/master/versions/2.0.md#data-types for details.
	Type *string `field:"required" json:"type" yaml:"type"`
	// description is a human readable description of this column.
	Description *string `field:"optional" json:"description" yaml:"description"`
	// format is an optional OpenAPI type definition for this column.
	//
	// The 'name' format is applied to the primary identifier column to assist in clients identifying column is the resource name. See https://github.com/OAI/OpenAPI-Specification/blob/master/versions/2.0.md#data-types for details.
	Format *string `field:"optional" json:"format" yaml:"format"`
	// priority is an integer defining the relative importance of this column compared to others.
	//
	// Lower numbers are considered higher priority. Columns that may be omitted in limited space scenarios should be given a priority greater than 0.
	Priority *float64 `field:"optional" json:"priority" yaml:"priority"`
}

CustomResourceColumnDefinition specifies a column for server side printing.

type CustomResourceConversion 

type CustomResourceConversion struct {
	// strategy specifies how custom resources are converted between versions.
	//
	// Allowed values are: - `"None"`: The converter only change the apiVersion and would not touch any other field in the custom resource. - `"Webhook"`: API Server will call to an external webhook to do the conversion. Additional information
	// is needed for this option. This requires spec.preserveUnknownFields to be false, and spec.conversion.webhook to be set.
	Strategy *string `field:"required" json:"strategy" yaml:"strategy"`
	// webhook describes how to call the conversion webhook.
	//
	// Required when `strategy` is set to `"Webhook"`.
	Webhook *WebhookConversion `field:"optional" json:"webhook" yaml:"webhook"`
}

CustomResourceConversion describes how to convert different versions of a CR.

type CustomResourceDefinitionNames 

type CustomResourceDefinitionNames struct {
	// kind is the serialized kind of the resource.
	//
	// It is normally CamelCase and singular. Custom resource instances will use this value as the `kind` attribute in API calls.
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// plural is the plural name of the resource to serve.
	//
	// The custom resources are served under `/apis/<group>/<version>/.../<plural>`. Must match the name of the CustomResourceDefinition (in the form `<names.plural>.<group>`). Must be all lowercase.
	Plural *string `field:"required" json:"plural" yaml:"plural"`
	// categories is a list of grouped resources this custom resource belongs to (e.g. 'all'). This is published in API discovery documents, and used by clients to support invocations like `kubectl get all`.
	Categories *[]*string `field:"optional" json:"categories" yaml:"categories"`
	// listKind is the serialized kind of the list for this resource.
	//
	// Defaults to "`kind`List".
	// Default: kind`List".
	//
	ListKind *string `field:"optional" json:"listKind" yaml:"listKind"`
	// shortNames are short names for the resource, exposed in API discovery documents, and used by clients to support invocations like `kubectl get <shortname>`.
	//
	// It must be all lowercase.
	ShortNames *[]*string `field:"optional" json:"shortNames" yaml:"shortNames"`
	// singular is the singular name of the resource.
	//
	// It must be all lowercase. Defaults to lowercased `kind`.
	// Default: lowercased `kind`.
	//
	Singular *string `field:"optional" json:"singular" yaml:"singular"`
}

CustomResourceDefinitionNames indicates the names to serve this CustomResourceDefinition.

type CustomResourceDefinitionSpec 

type CustomResourceDefinitionSpec struct {
	// group is the API group of the defined custom resource.
	//
	// The custom resources are served under `/apis/<group>/...`. Must match the name of the CustomResourceDefinition (in the form `<names.plural>.<group>`).
	Group *string `field:"required" json:"group" yaml:"group"`
	// names specify the resource and kind names for the custom resource.
	Names *CustomResourceDefinitionNames `field:"required" json:"names" yaml:"names"`
	// scope indicates whether the defined custom resource is cluster- or namespace-scoped.
	//
	// Allowed values are `Cluster` and `Namespaced`.
	Scope *string `field:"required" json:"scope" yaml:"scope"`
	// versions is the list of all API versions of the defined custom resource.
	//
	// Version names are used to compute the order in which served versions are listed in API discovery. If the version string is "kube-like", it will sort above non "kube-like" version strings, which are ordered lexicographically. "Kube-like" versions start with a "v", then are followed by a number (the major version), then optionally the string "alpha" or "beta" and another number (the minor version). These are sorted first by GA > beta > alpha (where GA is a version with no suffix such as beta or alpha), and then by comparing major version, then minor version. An example sorted list of versions: v10, v2, v1, v11beta2, v10beta3, v3beta1, v12alpha1, v11alpha2, foo1, foo10.
	Versions *[]*CustomResourceDefinitionVersion `field:"required" json:"versions" yaml:"versions"`
	// conversion defines conversion settings for the CRD.
	Conversion *CustomResourceConversion `field:"optional" json:"conversion" yaml:"conversion"`
	// preserveUnknownFields indicates that object fields which are not specified in the OpenAPI schema should be preserved when persisting to storage.
	//
	// apiVersion, kind, metadata and known fields inside metadata are always preserved. This field is deprecated in favor of setting `x-preserve-unknown-fields` to true in `spec.versions[*].schema.openAPIV3Schema`. See https://kubernetes.io/docs/tasks/extend-kubernetes/custom-resources/custom-resource-definitions/#field-pruning for details.
	PreserveUnknownFields *bool `field:"optional" json:"preserveUnknownFields" yaml:"preserveUnknownFields"`
}

CustomResourceDefinitionSpec describes how a user wants their resource to appear.

type CustomResourceDefinitionVersion 

type CustomResourceDefinitionVersion struct {
	// name is the version name, e.g. “v1”, “v2beta1”, etc. The custom resources are served under this version at `/apis/<group>/<version>/...` if `served` is true.
	Name *string `field:"required" json:"name" yaml:"name"`
	// served is a flag enabling/disabling this version from being served via REST APIs.
	Served *bool `field:"required" json:"served" yaml:"served"`
	// storage indicates this version should be used when persisting custom resources to storage.
	//
	// There must be exactly one version with storage=true.
	Storage *bool `field:"required" json:"storage" yaml:"storage"`
	// additionalPrinterColumns specifies additional columns returned in Table output.
	//
	// See https://kubernetes.io/docs/reference/using-api/api-concepts/#receiving-resources-as-tables for details. If no columns are specified, a single column displaying the age of the custom resource is used.
	AdditionalPrinterColumns *[]*CustomResourceColumnDefinition `field:"optional" json:"additionalPrinterColumns" yaml:"additionalPrinterColumns"`
	// deprecated indicates this version of the custom resource API is deprecated.
	//
	// When set to true, API requests to this version receive a warning header in the server response. Defaults to false.
	// Default: false.
	//
	Deprecated *bool `field:"optional" json:"deprecated" yaml:"deprecated"`
	// deprecationWarning overrides the default warning returned to API clients.
	//
	// May only be set when `deprecated` is true. The default warning indicates this version is deprecated and recommends use of the newest served version of equal or greater stability, if one exists.
	DeprecationWarning *string `field:"optional" json:"deprecationWarning" yaml:"deprecationWarning"`
	// schema describes the schema used for validation, pruning, and defaulting of this version of the custom resource.
	Schema *CustomResourceValidation `field:"optional" json:"schema" yaml:"schema"`
	// subresources specify what subresources this version of the defined custom resource have.
	Subresources *CustomResourceSubresources `field:"optional" json:"subresources" yaml:"subresources"`
}

CustomResourceDefinitionVersion describes a version for CRD.

type CustomResourceSubresourceScale 

type CustomResourceSubresourceScale struct {
	// specReplicasPath defines the JSON path inside of a custom resource that corresponds to Scale `spec.replicas`. Only JSON paths without the array notation are allowed. Must be a JSON Path under `.spec`. If there is no value under the given path in the custom resource, the `/scale` subresource will return an error on GET.
	SpecReplicasPath *string `field:"required" json:"specReplicasPath" yaml:"specReplicasPath"`
	// statusReplicasPath defines the JSON path inside of a custom resource that corresponds to Scale `status.replicas`. Only JSON paths without the array notation are allowed. Must be a JSON Path under `.status`. If there is no value under the given path in the custom resource, the `status.replicas` value in the `/scale` subresource will default to 0.
	StatusReplicasPath *string `field:"required" json:"statusReplicasPath" yaml:"statusReplicasPath"`
	// labelSelectorPath defines the JSON path inside of a custom resource that corresponds to Scale `status.selector`. Only JSON paths without the array notation are allowed. Must be a JSON Path under `.status` or `.spec`. Must be set to work with HorizontalPodAutoscaler. The field pointed by this JSON path must be a string field (not a complex selector struct) which contains a serialized label selector in string form. More info: https://kubernetes.io/docs/tasks/access-kubernetes-api/custom-resources/custom-resource-definitions#scale-subresource If there is no value under the given path in the custom resource, the `status.selector` value in the `/scale` subresource will default to the empty string.
	LabelSelectorPath *string `field:"optional" json:"labelSelectorPath" yaml:"labelSelectorPath"`
}

CustomResourceSubresourceScale defines how to serve the scale subresource for CustomResources.

type CustomResourceSubresources 

type CustomResourceSubresources struct {
	// scale indicates the custom resource should serve a `/scale` subresource that returns an `autoscaling/v1` Scale object.
	Scale *CustomResourceSubresourceScale `field:"optional" json:"scale" yaml:"scale"`
	// status indicates the custom resource should serve a `/status` subresource.
	//
	// When enabled: 1. requests to the custom resource primary endpoint ignore changes to the `status` stanza of the object. 2. requests to the custom resource `/status` subresource ignore changes to anything other than the `status` stanza of the object.
	Status interface{} `field:"optional" json:"status" yaml:"status"`
}

CustomResourceSubresources defines the status and scale subresources for CustomResources.

type CustomResourceValidation 

type CustomResourceValidation struct {
	// openAPIV3Schema is the OpenAPI v3 schema to use for validation and pruning.
	OpenApiv3Schema *JsonSchemaProps `field:"optional" json:"openApiv3Schema" yaml:"openApiv3Schema"`
}

CustomResourceValidation is a list of validation methods for CustomResources.

type DaemonSetSpec 

type DaemonSetSpec struct {
	// A label query over pods that are managed by the daemon set.
	//
	// Must match in order to be controlled. It must match the pod template's labels. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/#label-selectors
	Selector *LabelSelector `field:"required" json:"selector" yaml:"selector"`
	// An object that describes the pod that will be created.
	//
	// The DaemonSet will create exactly one copy of this pod on every node that matches the template's node selector (or on every node if no node selector is specified). The only allowed template.spec.restartPolicy value is "Always". More info: https://kubernetes.io/docs/concepts/workloads/controllers/replicationcontroller#pod-template
	Template *PodTemplateSpec `field:"required" json:"template" yaml:"template"`
	// The minimum number of seconds for which a newly created DaemonSet pod should be ready without any of its container crashing, for it to be considered available.
	//
	// Defaults to 0 (pod will be considered available as soon as it is ready).
	// Default: 0 (pod will be considered available as soon as it is ready).
	//
	MinReadySeconds *float64 `field:"optional" json:"minReadySeconds" yaml:"minReadySeconds"`
	// The number of old history to retain to allow rollback.
	//
	// This is a pointer to distinguish between explicit zero and not specified. Defaults to 10.
	// Default: 10.
	//
	RevisionHistoryLimit *float64 `field:"optional" json:"revisionHistoryLimit" yaml:"revisionHistoryLimit"`
	// An update strategy to replace existing DaemonSet pods with new pods.
	UpdateStrategy *DaemonSetUpdateStrategy `field:"optional" json:"updateStrategy" yaml:"updateStrategy"`
}

DaemonSetSpec is the specification of a daemon set.

type DaemonSetUpdateStrategy 

type DaemonSetUpdateStrategy struct {
	// Rolling update config params.
	//
	// Present only if type = "RollingUpdate".
	RollingUpdate *RollingUpdateDaemonSet `field:"optional" json:"rollingUpdate" yaml:"rollingUpdate"`
	// Type of daemon set update.
	//
	// Can be "RollingUpdate" or "OnDelete". Default is RollingUpdate.
	// Default: RollingUpdate.
	//
	Type *string `field:"optional" json:"type" yaml:"type"`
}

DaemonSetUpdateStrategy is a struct used to control the update strategy for a DaemonSet.

type DeleteOptions 

type DeleteOptions struct {
	// APIVersion defines the versioned schema of this representation of an object.
	//
	// Servers should convert recognized schemas to the latest internal value, and may reject unrecognized values. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#resources
	ApiVersion *string `field:"optional" json:"apiVersion" yaml:"apiVersion"`
	// When present, indicates that modifications should not be persisted.
	//
	// An invalid or unrecognized dryRun directive will result in an error response and no further processing of the request. Valid values are: - All: all dry run stages will be processed
	DryRun *[]*string `field:"optional" json:"dryRun" yaml:"dryRun"`
	// The duration in seconds before the object should be deleted.
	//
	// Value must be non-negative integer. The value zero indicates delete immediately. If this value is nil, the default grace period for the specified type will be used. Defaults to a per object value if not specified. zero means delete immediately.
	// Default: a per object value if not specified. zero means delete immediately.
	//
	GracePeriodSeconds *float64 `field:"optional" json:"gracePeriodSeconds" yaml:"gracePeriodSeconds"`
	// Kind is a string value representing the REST resource this object represents.
	//
	// Servers may infer this from the endpoint the client submits requests to. Cannot be updated. In CamelCase. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Kind IoK8SApimachineryPkgApisMetaV1DeleteOptionsKind `field:"optional" json:"kind" yaml:"kind"`
	// Deprecated: please use the PropagationPolicy, this field will be deprecated in 1.7. Should the dependent objects be orphaned. If true/false, the "orphan" finalizer will be added to/removed from the object's finalizers list. Either this field or PropagationPolicy may be set, but not both.
	OrphanDependents *bool `field:"optional" json:"orphanDependents" yaml:"orphanDependents"`
	// Must be fulfilled before a deletion is carried out.
	//
	// If not possible, a 409 Conflict status will be returned.
	Preconditions *Preconditions `field:"optional" json:"preconditions" yaml:"preconditions"`
	// Whether and how garbage collection will be performed.
	//
	// Either this field or OrphanDependents may be set, but not both. The default policy is decided by the existing finalizer set in the metadata.finalizers and the resource-specific default policy. Acceptable values are: 'Orphan' - orphan the dependents; 'Background' - allow the garbage collector to delete the dependents in the background; 'Foreground' - a cascading policy that deletes all dependents in the foreground.
	PropagationPolicy *string `field:"optional" json:"propagationPolicy" yaml:"propagationPolicy"`
}

DeleteOptions may be provided when deleting an API object.

type DeploymentSpec 

type DeploymentSpec struct {
	// Label selector for pods.
	//
	// Existing ReplicaSets whose pods are selected by this will be the ones affected by this deployment. It must match the pod template's labels.
	Selector *LabelSelector `field:"required" json:"selector" yaml:"selector"`
	// Template describes the pods that will be created.
	//
	// The only allowed template.spec.restartPolicy value is "Always".
	Template *PodTemplateSpec `field:"required" json:"template" yaml:"template"`
	// Minimum number of seconds for which a newly created pod should be ready without any of its container crashing, for it to be considered available.
	//
	// Defaults to 0 (pod will be considered available as soon as it is ready).
	// Default: 0 (pod will be considered available as soon as it is ready).
	//
	MinReadySeconds *float64 `field:"optional" json:"minReadySeconds" yaml:"minReadySeconds"`
	// Indicates that the deployment is paused.
	Paused *bool `field:"optional" json:"paused" yaml:"paused"`
	// The maximum time in seconds for a deployment to make progress before it is considered to be failed.
	//
	// The deployment controller will continue to process failed deployments and a condition with a ProgressDeadlineExceeded reason will be surfaced in the deployment status. Note that progress will not be estimated during the time a deployment is paused. Defaults to 600s.
	// Default: 600s.
	//
	ProgressDeadlineSeconds *float64 `field:"optional" json:"progressDeadlineSeconds" yaml:"progressDeadlineSeconds"`
	// Number of desired pods.
	//
	// This is a pointer to distinguish between explicit zero and not specified. Defaults to 1.
	// Default: 1.
	//
	Replicas *float64 `field:"optional" json:"replicas" yaml:"replicas"`
	// The number of old ReplicaSets to retain to allow rollback.
	//
	// This is a pointer to distinguish between explicit zero and not specified. Defaults to 10.
	// Default: 10.
	//
	RevisionHistoryLimit *float64 `field:"optional" json:"revisionHistoryLimit" yaml:"revisionHistoryLimit"`
	// The deployment strategy to use to replace existing pods with new ones.
	Strategy *DeploymentStrategy `field:"optional" json:"strategy" yaml:"strategy"`
}

DeploymentSpec is the specification of the desired behavior of the Deployment.

type DeploymentStrategy 

type DeploymentStrategy struct {
	// Rolling update config params.
	//
	// Present only if DeploymentStrategyType = RollingUpdate.
	RollingUpdate *RollingUpdateDeployment `field:"optional" json:"rollingUpdate" yaml:"rollingUpdate"`
	// Type of deployment.
	//
	// Can be "Recreate" or "RollingUpdate". Default is RollingUpdate.
	// Default: RollingUpdate.
	//
	Type *string `field:"optional" json:"type" yaml:"type"`
}

DeploymentStrategy describes how to replace existing pods with new ones.

type DownwardApiProjection 

type DownwardApiProjection struct {
	// Items is a list of DownwardAPIVolume file.
	Items *[]*DownwardApiVolumeFile `field:"optional" json:"items" yaml:"items"`
}

Represents downward API info for projecting into a projected volume.

Note that this is identical to a downwardAPI volume source without the default mode.

type DownwardApiVolumeFile 

type DownwardApiVolumeFile struct {
	// Required: Path is  the relative path name of the file to be created.
	//
	// Must not be absolute or contain the '..' path. Must be utf-8 encoded. The first item of the relative path must not start with '..'
	Path *string `field:"required" json:"path" yaml:"path"`
	// Required: Selects a field of the pod: only annotations, labels, name and namespace are supported.
	FieldRef *ObjectFieldSelector `field:"optional" json:"fieldRef" yaml:"fieldRef"`
	// Optional: mode bits used to set permissions on this file, must be an octal value between 0000 and 0777 or a decimal value between 0 and 511.
	//
	// YAML accepts both octal and decimal values, JSON requires decimal values for mode bits. If not specified, the volume defaultMode will be used. This might be in conflict with other options that affect the file mode, like fsGroup, and the result can be other mode bits set.
	Mode *float64 `field:"optional" json:"mode" yaml:"mode"`
	// Selects a resource of the container: only resources limits and requests (limits.cpu, limits.memory, requests.cpu and requests.memory) are currently supported.
	ResourceFieldRef *ResourceFieldSelector `field:"optional" json:"resourceFieldRef" yaml:"resourceFieldRef"`
}

DownwardAPIVolumeFile represents information to create the file containing the pod field.

type DownwardApiVolumeSource 

type DownwardApiVolumeSource struct {
	// Optional: mode bits to use on created files by default.
	//
	// Must be a Optional: mode bits used to set permissions on created files by default. Must be an octal value between 0000 and 0777 or a decimal value between 0 and 511. YAML accepts both octal and decimal values, JSON requires decimal values for mode bits. Defaults to 0644. Directories within the path are not affected by this setting. This might be in conflict with other options that affect the file mode, like fsGroup, and the result can be other mode bits set.
	// Default: 0644. Directories within the path are not affected by this setting. This might be in conflict with other options that affect the file mode, like fsGroup, and the result can be other mode bits set.
	//
	DefaultMode *float64 `field:"optional" json:"defaultMode" yaml:"defaultMode"`
	// Items is a list of downward API volume file.
	Items *[]*DownwardApiVolumeFile `field:"optional" json:"items" yaml:"items"`
}

DownwardAPIVolumeSource represents a volume containing downward API info.

Downward API volumes support ownership management and SELinux relabeling.

type EmptyDirVolumeSource 

type EmptyDirVolumeSource struct {
	// medium represents what type of storage medium should back this directory.
	//
	// The default is "" which means to use the node's default medium. Must be an empty string (default) or Memory. More info: https://kubernetes.io/docs/concepts/storage/volumes#emptydir
	Medium *string `field:"optional" json:"medium" yaml:"medium"`
	// sizeLimit is the total amount of local storage required for this EmptyDir volume.
	//
	// The size limit is also applicable for memory medium. The maximum usage on memory medium EmptyDir would be the minimum value between the SizeLimit specified here and the sum of memory limits of all containers in a pod. The default is nil which means that the limit is undefined. More info: https://kubernetes.io/docs/concepts/storage/volumes#emptydir
	SizeLimit Quantity `field:"optional" json:"sizeLimit" yaml:"sizeLimit"`
}

Represents an empty directory for a pod.

Empty directory volumes support ownership management and SELinux relabeling.

type Endpoint 

type Endpoint struct {
	// addresses of this endpoint.
	//
	// The contents of this field are interpreted according to the corresponding EndpointSlice addressType field. Consumers must handle different types of addresses in the context of their own capabilities. This must contain at least one address but no more than 100. These are all assumed to be fungible and clients may choose to only use the first element. Refer to: https://issue.k8s.io/106267
	Addresses *[]*string `field:"required" json:"addresses" yaml:"addresses"`
	// conditions contains information about the current status of the endpoint.
	Conditions *EndpointConditions `field:"optional" json:"conditions" yaml:"conditions"`
	// deprecatedTopology contains topology information part of the v1beta1 API.
	//
	// This field is deprecated, and will be removed when the v1beta1 API is removed (no sooner than kubernetes v1.24).  While this field can hold values, it is not writable through the v1 API, and any attempts to write to it will be silently ignored. Topology information can be found in the zone and nodeName fields instead.
	DeprecatedTopology *map[string]*string `field:"optional" json:"deprecatedTopology" yaml:"deprecatedTopology"`
	// hints contains information associated with how an endpoint should be consumed.
	Hints *EndpointHints `field:"optional" json:"hints" yaml:"hints"`
	// hostname of this endpoint.
	//
	// This field may be used by consumers of endpoints to distinguish endpoints from each other (e.g. in DNS names). Multiple endpoints which use the same hostname should be considered fungible (e.g. multiple A values in DNS). Must be lowercase and pass DNS Label (RFC 1123) validation.
	Hostname *string `field:"optional" json:"hostname" yaml:"hostname"`
	// nodeName represents the name of the Node hosting this endpoint.
	//
	// This can be used to determine endpoints local to a Node.
	NodeName *string `field:"optional" json:"nodeName" yaml:"nodeName"`
	// targetRef is a reference to a Kubernetes object that represents this endpoint.
	TargetRef *ObjectReference `field:"optional" json:"targetRef" yaml:"targetRef"`
	// zone is the name of the Zone this endpoint exists in.
	Zone *string `field:"optional" json:"zone" yaml:"zone"`
}

Endpoint represents a single logical "backend" implementing a service.

type EndpointAddress 

type EndpointAddress struct {
	// The IP of this endpoint.
	//
	// May not be loopback (127.0.0.0/8 or ::1), link-local (169.254.0.0/16 or fe80::/10), or link-local multicast (224.0.0.0/24 or ff02::/16).
	Ip *string `field:"required" json:"ip" yaml:"ip"`
	// The Hostname of this endpoint.
	Hostname *string `field:"optional" json:"hostname" yaml:"hostname"`
	// Optional: Node hosting this endpoint.
	//
	// This can be used to determine endpoints local to a node.
	NodeName *string `field:"optional" json:"nodeName" yaml:"nodeName"`
	// Reference to object providing the endpoint.
	TargetRef *ObjectReference `field:"optional" json:"targetRef" yaml:"targetRef"`
}

EndpointAddress is a tuple that describes single IP address.

type EndpointConditions 

type EndpointConditions struct {
	// ready indicates that this endpoint is prepared to receive traffic, according to whatever system is managing the endpoint.
	//
	// A nil value indicates an unknown state. In most cases consumers should interpret this unknown state as ready. For compatibility reasons, ready should never be "true" for terminating endpoints, except when the normal readiness behavior is being explicitly overridden, for example when the associated Service has set the publishNotReadyAddresses flag.
	Ready *bool `field:"optional" json:"ready" yaml:"ready"`
	// serving is identical to ready except that it is set regardless of the terminating state of endpoints.
	//
	// This condition should be set to true for a ready endpoint that is terminating. If nil, consumers should defer to the ready condition.
	Serving *bool `field:"optional" json:"serving" yaml:"serving"`
	// terminating indicates that this endpoint is terminating.
	//
	// A nil value indicates an unknown state. Consumers should interpret this unknown state to mean that the endpoint is not terminating.
	Terminating *bool `field:"optional" json:"terminating" yaml:"terminating"`
}

EndpointConditions represents the current condition of an endpoint.

type EndpointHints 

type EndpointHints struct {
	// forZones indicates the zone(s) this endpoint should be consumed by to enable topology aware routing.
	ForZones *[]*ForZone `field:"optional" json:"forZones" yaml:"forZones"`
}

EndpointHints provides hints describing how an endpoint should be consumed.

type EndpointPort 

type EndpointPort struct {
	// The port number of the endpoint.
	Port *float64 `field:"required" json:"port" yaml:"port"`
	// The application protocol for this port.
	//
	// This is used as a hint for implementations to offer richer behavior for protocols that they understand. This field follows standard Kubernetes label syntax. Valid values are either:
	//
	// * Un-prefixed protocol names - reserved for IANA standard service names (as per RFC-6335 and https://www.iana.org/assignments/service-names).
	//
	// * Kubernetes-defined prefixed names:
	// * 'kubernetes.io/h2c' - HTTP/2 over cleartext as described in https://www.rfc-editor.org/rfc/rfc7540
	//
	// * Other protocols should use implementation-defined prefixed names such as mycompany.com/my-custom-protocol.
	AppProtocol *string `field:"optional" json:"appProtocol" yaml:"appProtocol"`
	// The name of this port.
	//
	// This must match the 'name' field in the corresponding ServicePort. Must be a DNS_LABEL. Optional only if one port is defined.
	Name *string `field:"optional" json:"name" yaml:"name"`
	// The IP protocol for this port.
	//
	// Must be UDP, TCP, or SCTP. Default is TCP.
	// Default: TCP.
	//
	Protocol *string `field:"optional" json:"protocol" yaml:"protocol"`
}

EndpointPort is a tuple that describes a single port.

type EndpointSubset 

type EndpointSubset struct {
	// IP addresses which offer the related ports that are marked as ready.
	//
	// These endpoints should be considered safe for load balancers and clients to utilize.
	Addresses *[]*EndpointAddress `field:"optional" json:"addresses" yaml:"addresses"`
	// IP addresses which offer the related ports but are not currently marked as ready because they have not yet finished starting, have recently failed a readiness check, or have recently failed a liveness check.
	NotReadyAddresses *[]*EndpointAddress `field:"optional" json:"notReadyAddresses" yaml:"notReadyAddresses"`
	// Port numbers available on the related IP addresses.
	Ports *[]*EndpointPort `field:"optional" json:"ports" yaml:"ports"`
}

EndpointSubset is a group of addresses with a common set of ports.

The expanded set of endpoints is the Cartesian product of Addresses x Ports. For example, given:

{ Addresses: [{"ip": "10.10.1.1"}, {"ip": "10.10.2.2"}], Ports: [{"name": "a", "port": 8675}, {"name": "b", "port": 309}] }

The resulting set of endpoints can be viewed as:

a: [ 10.10.1.1:8675, 10.10.2.2:8675 ], b: [ 10.10.1.1:309, 10.10.2.2:309 ]

type EnvFromSource 

type EnvFromSource struct {
	// The ConfigMap to select from.
	ConfigMapRef *ConfigMapEnvSource `field:"optional" json:"configMapRef" yaml:"configMapRef"`
	// An optional identifier to prepend to each key in the ConfigMap.
	//
	// Must be a C_IDENTIFIER.
	Prefix *string `field:"optional" json:"prefix" yaml:"prefix"`
	// The Secret to select from.
	SecretRef *SecretEnvSource `field:"optional" json:"secretRef" yaml:"secretRef"`
}

EnvFromSource represents the source of a set of ConfigMaps.

type EnvVar 

type EnvVar struct {
	// Name of the environment variable.
	//
	// Must be a C_IDENTIFIER.
	Name *string `field:"required" json:"name" yaml:"name"`
	// Variable references $(VAR_NAME) are expanded using the previously defined environment variables in the container and any service environment variables.
	//
	// If a variable cannot be resolved, the reference in the input string will be unchanged. Double $$ are reduced to a single $, which allows for escaping the $(VAR_NAME) syntax: i.e. "$$(VAR_NAME)" will produce the string literal "$(VAR_NAME)". Escaped references will never be expanded, regardless of whether the variable exists or not. Defaults to "".
	// Default: .
	//
	Value *string `field:"optional" json:"value" yaml:"value"`
	// Source for the environment variable's value.
	//
	// Cannot be used if value is not empty.
	ValueFrom *EnvVarSource `field:"optional" json:"valueFrom" yaml:"valueFrom"`
}

EnvVar represents an environment variable present in a Container.

type EnvVarSource 

type EnvVarSource struct {
	// Selects a key of a ConfigMap.
	ConfigMapKeyRef *ConfigMapKeySelector `field:"optional" json:"configMapKeyRef" yaml:"configMapKeyRef"`
	// Selects a field of the pod: supports metadata.name, metadata.namespace, `metadata.labels['<KEY>']`, `metadata.annotations['<KEY>']`, spec.nodeName, spec.serviceAccountName, status.hostIP, status.podIP, status.podIPs.
	FieldRef *ObjectFieldSelector `field:"optional" json:"fieldRef" yaml:"fieldRef"`
	// Selects a resource of the container: only resources limits and requests (limits.cpu, limits.memory, limits.ephemeral-storage, requests.cpu, requests.memory and requests.ephemeral-storage) are currently supported.
	ResourceFieldRef *ResourceFieldSelector `field:"optional" json:"resourceFieldRef" yaml:"resourceFieldRef"`
	// Selects a key of a secret in the pod's namespace.
	SecretKeyRef *SecretKeySelector `field:"optional" json:"secretKeyRef" yaml:"secretKeyRef"`
}

EnvVarSource represents a source for the value of an EnvVar.

type EphemeralContainer 

type EphemeralContainer struct {
	// Name of the ephemeral container specified as a DNS_LABEL.
	//
	// This name must be unique among all containers, init containers and ephemeral containers.
	Name *string `field:"required" json:"name" yaml:"name"`
	// Arguments to the entrypoint.
	//
	// The image's CMD is used if this is not provided. Variable references $(VAR_NAME) are expanded using the container's environment. If a variable cannot be resolved, the reference in the input string will be unchanged. Double $$ are reduced to a single $, which allows for escaping the $(VAR_NAME) syntax: i.e. "$$(VAR_NAME)" will produce the string literal "$(VAR_NAME)". Escaped references will never be expanded, regardless of whether the variable exists or not. Cannot be updated. More info: https://kubernetes.io/docs/tasks/inject-data-application/define-command-argument-container/#running-a-command-in-a-shell
	Args *[]*string `field:"optional" json:"args" yaml:"args"`
	// Entrypoint array.
	//
	// Not executed within a shell. The image's ENTRYPOINT is used if this is not provided. Variable references $(VAR_NAME) are expanded using the container's environment. If a variable cannot be resolved, the reference in the input string will be unchanged. Double $$ are reduced to a single $, which allows for escaping the $(VAR_NAME) syntax: i.e. "$$(VAR_NAME)" will produce the string literal "$(VAR_NAME)". Escaped references will never be expanded, regardless of whether the variable exists or not. Cannot be updated. More info: https://kubernetes.io/docs/tasks/inject-data-application/define-command-argument-container/#running-a-command-in-a-shell
	Command *[]*string `field:"optional" json:"command" yaml:"command"`
	// List of environment variables to set in the container.
	//
	// Cannot be updated.
	Env *[]*EnvVar `field:"optional" json:"env" yaml:"env"`
	// List of sources to populate environment variables in the container.
	//
	// The keys defined within a source must be a C_IDENTIFIER. All invalid keys will be reported as an event when the container is starting. When a key exists in multiple sources, the value associated with the last source will take precedence. Values defined by an Env with a duplicate key will take precedence. Cannot be updated.
	EnvFrom *[]*EnvFromSource `field:"optional" json:"envFrom" yaml:"envFrom"`
	// Container image name.
	//
	// More info: https://kubernetes.io/docs/concepts/containers/images
	Image *string `field:"optional" json:"image" yaml:"image"`
	// Image pull policy.
	//
	// One of Always, Never, IfNotPresent. Defaults to Always if :latest tag is specified, or IfNotPresent otherwise. Cannot be updated. More info: https://kubernetes.io/docs/concepts/containers/images#updating-images
	// Default: Always if :latest tag is specified, or IfNotPresent otherwise. Cannot be updated. More info: https://kubernetes.io/docs/concepts/containers/images#updating-images
	//
	ImagePullPolicy *string `field:"optional" json:"imagePullPolicy" yaml:"imagePullPolicy"`
	// Lifecycle is not allowed for ephemeral containers.
	Lifecycle *Lifecycle `field:"optional" json:"lifecycle" yaml:"lifecycle"`
	// Probes are not allowed for ephemeral containers.
	LivenessProbe *Probe `field:"optional" json:"livenessProbe" yaml:"livenessProbe"`
	// Ports are not allowed for ephemeral containers.
	Ports *[]*ContainerPort `field:"optional" json:"ports" yaml:"ports"`
	// Probes are not allowed for ephemeral containers.
	ReadinessProbe *Probe `field:"optional" json:"readinessProbe" yaml:"readinessProbe"`
	// Resources resize policy for the container.
	ResizePolicy *[]*ContainerResizePolicy `field:"optional" json:"resizePolicy" yaml:"resizePolicy"`
	// Resources are not allowed for ephemeral containers.
	//
	// Ephemeral containers use spare resources already allocated to the pod.
	Resources *ResourceRequirements `field:"optional" json:"resources" yaml:"resources"`
	// Optional: SecurityContext defines the security options the ephemeral container should be run with.
	//
	// If set, the fields of SecurityContext override the equivalent fields of PodSecurityContext.
	SecurityContext *SecurityContext `field:"optional" json:"securityContext" yaml:"securityContext"`
	// Probes are not allowed for ephemeral containers.
	StartupProbe *Probe `field:"optional" json:"startupProbe" yaml:"startupProbe"`
	// Whether this container should allocate a buffer for stdin in the container runtime.
	//
	// If this is not set, reads from stdin in the container will always result in EOF. Default is false.
	// Default: false.
	//
	Stdin *bool `field:"optional" json:"stdin" yaml:"stdin"`
	// Whether the container runtime should close the stdin channel after it has been opened by a single attach.
	//
	// When stdin is true the stdin stream will remain open across multiple attach sessions. If stdinOnce is set to true, stdin is opened on container start, is empty until the first client attaches to stdin, and then remains open and accepts data until the client disconnects, at which time stdin is closed and remains closed until the container is restarted. If this flag is false, a container processes that reads from stdin will never receive an EOF. Default is false
	// Default: false.
	//
	StdinOnce *bool `field:"optional" json:"stdinOnce" yaml:"stdinOnce"`
	// If set, the name of the container from PodSpec that this ephemeral container targets.
	//
	// The ephemeral container will be run in the namespaces (IPC, PID, etc) of this container. If not set then the ephemeral container uses the namespaces configured in the Pod spec.
	//
	// The container runtime must implement support for this feature. If the runtime does not support namespace targeting then the result of setting this field is undefined.
	TargetContainerName *string `field:"optional" json:"targetContainerName" yaml:"targetContainerName"`
	// Optional: Path at which the file to which the container's termination message will be written is mounted into the container's filesystem.
	//
	// Message written is intended to be brief final status, such as an assertion failure message. Will be truncated by the node if greater than 4096 bytes. The total message length across all containers will be limited to 12kb. Defaults to /dev/termination-log. Cannot be updated.
	// Default: dev/termination-log. Cannot be updated.
	//
	TerminationMessagePath *string `field:"optional" json:"terminationMessagePath" yaml:"terminationMessagePath"`
	// Indicate how the termination message should be populated.
	//
	// File will use the contents of terminationMessagePath to populate the container status message on both success and failure. FallbackToLogsOnError will use the last chunk of container log output if the termination message file is empty and the container exited with an error. The log output is limited to 2048 bytes or 80 lines, whichever is smaller. Defaults to File. Cannot be updated.
	// Default: File. Cannot be updated.
	//
	TerminationMessagePolicy *string `field:"optional" json:"terminationMessagePolicy" yaml:"terminationMessagePolicy"`
	// Whether this container should allocate a TTY for itself, also requires 'stdin' to be true.
	//
	// Default is false.
	// Default: false.
	//
	Tty *bool `field:"optional" json:"tty" yaml:"tty"`
	// volumeDevices is the list of block devices to be used by the container.
	VolumeDevices *[]*VolumeDevice `field:"optional" json:"volumeDevices" yaml:"volumeDevices"`
	// Pod volumes to mount into the container's filesystem.
	//
	// Subpath mounts are not allowed for ephemeral containers. Cannot be updated.
	VolumeMounts *[]*VolumeMount `field:"optional" json:"volumeMounts" yaml:"volumeMounts"`
	// Container's working directory.
	//
	// If not specified, the container runtime's default will be used, which might be configured in the container image. Cannot be updated.
	WorkingDir *string `field:"optional" json:"workingDir" yaml:"workingDir"`
}

An EphemeralContainer is a temporary container that you may add to an existing Pod for user-initiated activities such as debugging.

Ephemeral containers have no resource or scheduling guarantees, and they will not be restarted when they exit or when a Pod is removed or restarted. The kubelet may evict a Pod if an ephemeral container causes the Pod to exceed its resource allocation.

To add an ephemeral container, use the ephemeralcontainers subresource of an existing Pod. Ephemeral containers may not be removed or restarted.

type EphemeralVolumeSource 

type EphemeralVolumeSource struct {
	// Will be used to create a stand-alone PVC to provision the volume.
	//
	// The pod in which this EphemeralVolumeSource is embedded will be the owner of the PVC, i.e. the PVC will be deleted together with the pod.  The name of the PVC will be `<pod name>-<volume name>` where `<volume name>` is the name from the `PodSpec.Volumes` array entry. Pod validation will reject the pod if the concatenated name is not valid for a PVC (for example, too long).
	//
	// An existing PVC with that name that is not owned by the pod will *not* be used for the pod to avoid using an unrelated volume by mistake. Starting the pod is then blocked until the unrelated PVC is removed. If such a pre-created PVC is meant to be used by the pod, the PVC has to updated with an owner reference to the pod once the pod exists. Normally this should not be necessary, but it may be useful when manually reconstructing a broken cluster.
	//
	// This field is read-only and no changes will be made by Kubernetes to the PVC after it has been created.
	//
	// Required, must not be nil.
	VolumeClaimTemplate *PersistentVolumeClaimTemplate `field:"optional" json:"volumeClaimTemplate" yaml:"volumeClaimTemplate"`
}

Represents an ephemeral volume that is handled by a normal storage driver.

type EventSeries 

type EventSeries struct {
	// count is the number of occurrences in this series up to the last heartbeat time.
	Count *float64 `field:"required" json:"count" yaml:"count"`
	// lastObservedTime is the time when last Event from the series was seen before last heartbeat.
	LastObservedTime *time.Time `field:"required" json:"lastObservedTime" yaml:"lastObservedTime"`
}

EventSeries contain information on series of events, i.e. thing that was/is happening continuously for some time. How often to update the EventSeries is up to the event reporters. The default event reporter in "k8s.io/client-go/tools/events/event_broadcaster.go" shows how this struct is updated on heartbeats and can guide customized reporter implementations.

type EventSource 

type EventSource struct {
	// Component from which the event is generated.
	Component *string `field:"optional" json:"component" yaml:"component"`
	// Node name on which the event is generated.
	Host *string `field:"optional" json:"host" yaml:"host"`
}

EventSource contains information for an event.

type ExecAction 

type ExecAction struct {
	// Command is the command line to execute inside the container, the working directory for the command  is root ('/') in the container's filesystem.
	//
	// The command is simply exec'd, it is not run inside a shell, so traditional shell instructions ('|', etc) won't work. To use a shell, you need to explicitly call out to that shell. Exit status of 0 is treated as live/healthy and non-zero is unhealthy.
	Command *[]*string `field:"optional" json:"command" yaml:"command"`
}

ExecAction describes a "run in container" action.

type ExternalDocumentation 

type ExternalDocumentation struct {
	Description *string `field:"optional" json:"description" yaml:"description"`
	Url         *string `field:"optional" json:"url" yaml:"url"`
}

ExternalDocumentation allows referencing an external resource for extended documentation.

type ExternalMetricSourceV2 

type ExternalMetricSourceV2 struct {
	// metric identifies the target metric by name and selector.
	Metric *MetricIdentifierV2 `field:"required" json:"metric" yaml:"metric"`
	// target specifies the target value for the given metric.
	Target *MetricTargetV2 `field:"required" json:"target" yaml:"target"`
}

ExternalMetricSource indicates how to scale on a metric not associated with any Kubernetes object (for example length of queue in cloud messaging service, or QPS from loadbalancer running outside of cluster).

type FcVolumeSource 

type FcVolumeSource struct {
	// fsType is the filesystem type to mount.
	//
	// Must be a filesystem type supported by the host operating system. Ex. "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified.
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// lun is Optional: FC target lun number.
	Lun *float64 `field:"optional" json:"lun" yaml:"lun"`
	// readOnly is Optional: Defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts.
	// Default: false (read/write). ReadOnly here will force the ReadOnly setting in VolumeMounts.
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// targetWWNs is Optional: FC target worldwide names (WWNs).
	TargetWwNs *[]*string `field:"optional" json:"targetWwNs" yaml:"targetWwNs"`
	// wwids Optional: FC volume world wide identifiers (wwids) Either wwids or combination of targetWWNs and lun must be set, but not both simultaneously.
	Wwids *[]*string `field:"optional" json:"wwids" yaml:"wwids"`
}

Represents a Fibre Channel volume.

Fibre Channel volumes can only be mounted as read/write once. Fibre Channel volumes support ownership management and SELinux relabeling.

type FlexPersistentVolumeSource 

type FlexPersistentVolumeSource struct {
	// driver is the name of the driver to use for this volume.
	Driver *string `field:"required" json:"driver" yaml:"driver"`
	// fsType is the Filesystem type to mount.
	//
	// Must be a filesystem type supported by the host operating system. Ex. "ext4", "xfs", "ntfs". The default filesystem depends on FlexVolume script.
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// options is Optional: this field holds extra command options if any.
	Options *map[string]*string `field:"optional" json:"options" yaml:"options"`
	// readOnly is Optional: defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts.
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretRef is Optional: SecretRef is reference to the secret object containing sensitive information to pass to the plugin scripts.
	//
	// This may be empty if no secret object is specified. If the secret object contains more than one secret, all secrets are passed to the plugin scripts.
	SecretRef *SecretReference `field:"optional" json:"secretRef" yaml:"secretRef"`
}

FlexPersistentVolumeSource represents a generic persistent volume resource that is provisioned/attached using an exec based plugin.

type FlexVolumeSource 

type FlexVolumeSource struct {
	// driver is the name of the driver to use for this volume.
	Driver *string `field:"required" json:"driver" yaml:"driver"`
	// fsType is the filesystem type to mount.
	//
	// Must be a filesystem type supported by the host operating system. Ex. "ext4", "xfs", "ntfs". The default filesystem depends on FlexVolume script.
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// options is Optional: this field holds extra command options if any.
	Options *map[string]*string `field:"optional" json:"options" yaml:"options"`
	// readOnly is Optional: defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts.
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretRef is Optional: secretRef is reference to the secret object containing sensitive information to pass to the plugin scripts.
	//
	// This may be empty if no secret object is specified. If the secret object contains more than one secret, all secrets are passed to the plugin scripts.
	SecretRef *LocalObjectReference `field:"optional" json:"secretRef" yaml:"secretRef"`
}

FlexVolume represents a generic volume resource that is provisioned/attached using an exec based plugin.

type FlockerVolumeSource 

type FlockerVolumeSource struct {
	// datasetName is Name of the dataset stored as metadata -> name on the dataset for Flocker should be considered as deprecated.
	DatasetName *string `field:"optional" json:"datasetName" yaml:"datasetName"`
	// datasetUUID is the UUID of the dataset.
	//
	// This is unique identifier of a Flocker dataset.
	DatasetUuid *string `field:"optional" json:"datasetUuid" yaml:"datasetUuid"`
}

Represents a Flocker volume mounted by the Flocker agent.

One and only one of datasetName and datasetUUID should be set. Flocker volumes do not support ownership management or SELinux relabeling.

type FlowDistinguisherMethodV1Beta2 

type FlowDistinguisherMethodV1Beta2 struct {
	// `type` is the type of flow distinguisher method The supported types are "ByUser" and "ByNamespace".
	//
	// Required.
	Type *string `field:"required" json:"type" yaml:"type"`
}

FlowDistinguisherMethod specifies the method of a flow distinguisher.

type FlowDistinguisherMethodV1Beta3 

type FlowDistinguisherMethodV1Beta3 struct {
	// `type` is the type of flow distinguisher method The supported types are "ByUser" and "ByNamespace".
	//
	// Required.
	Type *string `field:"required" json:"type" yaml:"type"`
}

FlowDistinguisherMethod specifies the method of a flow distinguisher.

type FlowSchemaSpecV1Beta2 

type FlowSchemaSpecV1Beta2 struct {
	// `priorityLevelConfiguration` should reference a PriorityLevelConfiguration in the cluster.
	//
	// If the reference cannot be resolved, the FlowSchema will be ignored and marked as invalid in its status. Required.
	PriorityLevelConfiguration *PriorityLevelConfigurationReferenceV1Beta2 `field:"required" json:"priorityLevelConfiguration" yaml:"priorityLevelConfiguration"`
	// `distinguisherMethod` defines how to compute the flow distinguisher for requests that match this schema.
	//
	// `nil` specifies that the distinguisher is disabled and thus will always be the empty string.
	DistinguisherMethod *FlowDistinguisherMethodV1Beta2 `field:"optional" json:"distinguisherMethod" yaml:"distinguisherMethod"`
	// `matchingPrecedence` is used to choose among the FlowSchemas that match a given request.
	//
	// The chosen FlowSchema is among those with the numerically lowest (which we take to be logically highest) MatchingPrecedence.  Each MatchingPrecedence value must be ranged in [1,10000]. Note that if the precedence is not specified, it will be set to 1000 as default.
	MatchingPrecedence *float64 `field:"optional" json:"matchingPrecedence" yaml:"matchingPrecedence"`
	// `rules` describes which requests will match this flow schema.
	//
	// This FlowSchema matches a request if and only if at least one member of rules matches the request. if it is an empty slice, there will be no requests matching the FlowSchema.
	Rules *[]*PolicyRulesWithSubjectsV1Beta2 `field:"optional" json:"rules" yaml:"rules"`
}

FlowSchemaSpec describes how the FlowSchema's specification looks like.

type FlowSchemaSpecV1Beta3 

type FlowSchemaSpecV1Beta3 struct {
	// `priorityLevelConfiguration` should reference a PriorityLevelConfiguration in the cluster.
	//
	// If the reference cannot be resolved, the FlowSchema will be ignored and marked as invalid in its status. Required.
	PriorityLevelConfiguration *PriorityLevelConfigurationReferenceV1Beta3 `field:"required" json:"priorityLevelConfiguration" yaml:"priorityLevelConfiguration"`
	// `distinguisherMethod` defines how to compute the flow distinguisher for requests that match this schema.
	//
	// `nil` specifies that the distinguisher is disabled and thus will always be the empty string.
	DistinguisherMethod *FlowDistinguisherMethodV1Beta3 `field:"optional" json:"distinguisherMethod" yaml:"distinguisherMethod"`
	// `matchingPrecedence` is used to choose among the FlowSchemas that match a given request.
	//
	// The chosen FlowSchema is among those with the numerically lowest (which we take to be logically highest) MatchingPrecedence.  Each MatchingPrecedence value must be ranged in [1,10000]. Note that if the precedence is not specified, it will be set to 1000 as default.
	MatchingPrecedence *float64 `field:"optional" json:"matchingPrecedence" yaml:"matchingPrecedence"`
	// `rules` describes which requests will match this flow schema.
	//
	// This FlowSchema matches a request if and only if at least one member of rules matches the request. if it is an empty slice, there will be no requests matching the FlowSchema.
	Rules *[]*PolicyRulesWithSubjectsV1Beta3 `field:"optional" json:"rules" yaml:"rules"`
}

FlowSchemaSpec describes how the FlowSchema's specification looks like.

type ForZone 

type ForZone struct {
	// name represents the name of the zone.
	Name *string `field:"required" json:"name" yaml:"name"`
}

ForZone provides information about which zones should consume this endpoint.

type GcePersistentDiskVolumeSource 

type GcePersistentDiskVolumeSource struct {
	// pdName is unique name of the PD resource in GCE.
	//
	// Used to identify the disk in GCE. More info: https://kubernetes.io/docs/concepts/storage/volumes#gcepersistentdisk
	PdName *string `field:"required" json:"pdName" yaml:"pdName"`
	// fsType is filesystem type of the volume that you want to mount.
	//
	// Tip: Ensure that the filesystem type is supported by the host operating system. Examples: "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified. More info: https://kubernetes.io/docs/concepts/storage/volumes#gcepersistentdisk
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// partition is the partition in the volume that you want to mount.
	//
	// If omitted, the default is to mount by volume name. Examples: For volume /dev/sda1, you specify the partition as "1". Similarly, the volume partition for /dev/sda is "0" (or you can leave the property empty). More info: https://kubernetes.io/docs/concepts/storage/volumes#gcepersistentdisk
	Partition *float64 `field:"optional" json:"partition" yaml:"partition"`
	// readOnly here will force the ReadOnly setting in VolumeMounts.
	//
	// Defaults to false. More info: https://kubernetes.io/docs/concepts/storage/volumes#gcepersistentdisk
	// Default: false. More info: https://kubernetes.io/docs/concepts/storage/volumes#gcepersistentdisk
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
}

Represents a Persistent Disk resource in Google Compute Engine.

A GCE PD must exist before mounting to a container. The disk must also be in the same GCE project and zone as the kubelet. A GCE PD can only be mounted as read/write once or read-only many times. GCE PDs support ownership management and SELinux relabeling.

type GitRepoVolumeSource 

type GitRepoVolumeSource struct {
	// repository is the URL.
	Repository *string `field:"required" json:"repository" yaml:"repository"`
	// directory is the target directory name.
	//
	// Must not contain or start with '..'.  If '.' is supplied, the volume directory will be the git repository.  Otherwise, if specified, the volume will contain the git repository in the subdirectory with the given name.
	Directory *string `field:"optional" json:"directory" yaml:"directory"`
	// revision is the commit hash for the specified revision.
	Revision *string `field:"optional" json:"revision" yaml:"revision"`
}

Represents a volume that is populated with the contents of a git repository.

Git repo volumes do not support ownership management. Git repo volumes support SELinux relabeling.

DEPRECATED: GitRepo is deprecated. To provision a container with a git repo, mount an EmptyDir into an InitContainer that clones the repo using git, then mount the EmptyDir into the Pod's container.

type GlusterfsPersistentVolumeSource 

type GlusterfsPersistentVolumeSource struct {
	// endpoints is the endpoint name that details Glusterfs topology.
	//
	// More info: https://examples.k8s.io/volumes/glusterfs/README.md#create-a-pod
	Endpoints *string `field:"required" json:"endpoints" yaml:"endpoints"`
	// path is the Glusterfs volume path.
	//
	// More info: https://examples.k8s.io/volumes/glusterfs/README.md#create-a-pod
	Path *string `field:"required" json:"path" yaml:"path"`
	// endpointsNamespace is the namespace that contains Glusterfs endpoint.
	//
	// If this field is empty, the EndpointNamespace defaults to the same namespace as the bound PVC. More info: https://examples.k8s.io/volumes/glusterfs/README.md#create-a-pod
	EndpointsNamespace *string `field:"optional" json:"endpointsNamespace" yaml:"endpointsNamespace"`
	// readOnly here will force the Glusterfs volume to be mounted with read-only permissions.
	//
	// Defaults to false. More info: https://examples.k8s.io/volumes/glusterfs/README.md#create-a-pod
	// Default: false. More info: https://examples.k8s.io/volumes/glusterfs/README.md#create-a-pod
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
}

Represents a Glusterfs mount that lasts the lifetime of a pod.

Glusterfs volumes do not support ownership management or SELinux relabeling.

type GlusterfsVolumeSource 

type GlusterfsVolumeSource struct {
	// endpoints is the endpoint name that details Glusterfs topology.
	//
	// More info: https://examples.k8s.io/volumes/glusterfs/README.md#create-a-pod
	Endpoints *string `field:"required" json:"endpoints" yaml:"endpoints"`
	// path is the Glusterfs volume path.
	//
	// More info: https://examples.k8s.io/volumes/glusterfs/README.md#create-a-pod
	Path *string `field:"required" json:"path" yaml:"path"`
	// readOnly here will force the Glusterfs volume to be mounted with read-only permissions.
	//
	// Defaults to false. More info: https://examples.k8s.io/volumes/glusterfs/README.md#create-a-pod
	// Default: false. More info: https://examples.k8s.io/volumes/glusterfs/README.md#create-a-pod
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
}

Represents a Glusterfs mount that lasts the lifetime of a pod.

Glusterfs volumes do not support ownership management or SELinux relabeling.

type GroupSubjectV1Beta2 

type GroupSubjectV1Beta2 struct {
	// name is the user group that matches, or "*" to match all user groups.
	//
	// See https://github.com/kubernetes/apiserver/blob/master/pkg/authentication/user/user.go for some well-known group names. Required.
	Name *string `field:"required" json:"name" yaml:"name"`
}

GroupSubject holds detailed information for group-kind subject.

type GroupSubjectV1Beta3 

type GroupSubjectV1Beta3 struct {
	// name is the user group that matches, or "*" to match all user groups.
	//
	// See https://github.com/kubernetes/apiserver/blob/master/pkg/authentication/user/user.go for some well-known group names. Required.
	Name *string `field:"required" json:"name" yaml:"name"`
}

GroupSubject holds detailed information for group-kind subject.

type GrpcAction 

type GrpcAction struct {
	// Port number of the gRPC service.
	//
	// Number must be in the range 1 to 65535.
	Port *float64 `field:"required" json:"port" yaml:"port"`
	// Service is the name of the service to place in the gRPC HealthCheckRequest (see https://github.com/grpc/grpc/blob/master/doc/health-checking.md).
	//
	// If this is not specified, the default behavior is defined by gRPC.
	Service *string `field:"optional" json:"service" yaml:"service"`
}

type HorizontalPodAutoscalerBehaviorV2 

type HorizontalPodAutoscalerBehaviorV2 struct {
	// scaleDown is scaling policy for scaling Down.
	//
	// If not set, the default value is to allow to scale down to minReplicas pods, with a 300 second stabilization window (i.e., the highest recommendation for the last 300sec is used).
	ScaleDown *HpaScalingRulesV2 `field:"optional" json:"scaleDown" yaml:"scaleDown"`
	// scaleUp is scaling policy for scaling Up.
	//
	// If not set, the default value is the higher of:
	// * increase no more than 4 pods per 60 seconds
	// * double the number of pods per 60 seconds
	// No stabilization is used.
	ScaleUp *HpaScalingRulesV2 `field:"optional" json:"scaleUp" yaml:"scaleUp"`
}

HorizontalPodAutoscalerBehavior configures the scaling behavior of the target in both Up and Down directions (scaleUp and scaleDown fields respectively).

type HorizontalPodAutoscalerSpec 

type HorizontalPodAutoscalerSpec struct {
	// maxReplicas is the upper limit for the number of pods that can be set by the autoscaler;
	//
	// cannot be smaller than MinReplicas.
	MaxReplicas *float64 `field:"required" json:"maxReplicas" yaml:"maxReplicas"`
	// reference to scaled resource;
	//
	// horizontal pod autoscaler will learn the current resource consumption and will set the desired number of pods by using its Scale subresource.
	ScaleTargetRef *CrossVersionObjectReference `field:"required" json:"scaleTargetRef" yaml:"scaleTargetRef"`
	// minReplicas is the lower limit for the number of replicas to which the autoscaler can scale down.
	//
	// It defaults to 1 pod.  minReplicas is allowed to be 0 if the alpha feature gate HPAScaleToZero is enabled and at least one Object or External metric is configured.  Scaling is active as long as at least one metric value is available.
	MinReplicas *float64 `field:"optional" json:"minReplicas" yaml:"minReplicas"`
	// targetCPUUtilizationPercentage is the target average CPU utilization (represented as a percentage of requested CPU) over all the pods;
	//
	// if not specified the default autoscaling policy will be used.
	TargetCpuUtilizationPercentage *float64 `field:"optional" json:"targetCpuUtilizationPercentage" yaml:"targetCpuUtilizationPercentage"`
}

specification of a horizontal pod autoscaler.

type HorizontalPodAutoscalerSpecV2 

type HorizontalPodAutoscalerSpecV2 struct {
	// maxReplicas is the upper limit for the number of replicas to which the autoscaler can scale up.
	//
	// It cannot be less that minReplicas.
	MaxReplicas *float64 `field:"required" json:"maxReplicas" yaml:"maxReplicas"`
	// scaleTargetRef points to the target resource to scale, and is used to the pods for which metrics should be collected, as well as to actually change the replica count.
	ScaleTargetRef *CrossVersionObjectReferenceV2 `field:"required" json:"scaleTargetRef" yaml:"scaleTargetRef"`
	// behavior configures the scaling behavior of the target in both Up and Down directions (scaleUp and scaleDown fields respectively).
	//
	// If not set, the default HPAScalingRules for scale up and scale down are used.
	Behavior *HorizontalPodAutoscalerBehaviorV2 `field:"optional" json:"behavior" yaml:"behavior"`
	// metrics contains the specifications for which to use to calculate the desired replica count (the maximum replica count across all metrics will be used).
	//
	// The desired replica count is calculated multiplying the ratio between the target value and the current value by the current number of pods.  Ergo, metrics used must decrease as the pod count is increased, and vice-versa.  See the individual metric source types for more information about how each type of metric must respond. If not set, the default metric will be set to 80% average CPU utilization.
	Metrics *[]*MetricSpecV2 `field:"optional" json:"metrics" yaml:"metrics"`
	// minReplicas is the lower limit for the number of replicas to which the autoscaler can scale down.
	//
	// It defaults to 1 pod.  minReplicas is allowed to be 0 if the alpha feature gate HPAScaleToZero is enabled and at least one Object or External metric is configured.  Scaling is active as long as at least one metric value is available.
	MinReplicas *float64 `field:"optional" json:"minReplicas" yaml:"minReplicas"`
}

HorizontalPodAutoscalerSpec describes the desired functionality of the HorizontalPodAutoscaler.

type HostAlias 

type HostAlias struct {
	// Hostnames for the above IP address.
	Hostnames *[]*string `field:"optional" json:"hostnames" yaml:"hostnames"`
	// IP address of the host file entry.
	Ip *string `field:"optional" json:"ip" yaml:"ip"`
}

HostAlias holds the mapping between IP and hostnames that will be injected as an entry in the pod's hosts file.

type HostPathVolumeSource 

type HostPathVolumeSource struct {
	// path of the directory on the host.
	//
	// If the path is a symlink, it will follow the link to the real path. More info: https://kubernetes.io/docs/concepts/storage/volumes#hostpath
	Path *string `field:"required" json:"path" yaml:"path"`
	// type for HostPath Volume Defaults to "" More info: https://kubernetes.io/docs/concepts/storage/volumes#hostpath.
	// Default: More info: https://kubernetes.io/docs/concepts/storage/volumes#hostpath
	//
	Type *string `field:"optional" json:"type" yaml:"type"`
}

Represents a host path mapped into a pod.

Host path volumes do not support ownership management or SELinux relabeling.

type HpaScalingPolicyV2 

type HpaScalingPolicyV2 struct {
	// periodSeconds specifies the window of time for which the policy should hold true.
	//
	// PeriodSeconds must be greater than zero and less than or equal to 1800 (30 min).
	PeriodSeconds *float64 `field:"required" json:"periodSeconds" yaml:"periodSeconds"`
	// type is used to specify the scaling policy.
	Type *string `field:"required" json:"type" yaml:"type"`
	// value contains the amount of change which is permitted by the policy.
	//
	// It must be greater than zero.
	Value *float64 `field:"required" json:"value" yaml:"value"`
}

HPAScalingPolicy is a single policy which must hold true for a specified past interval.

type HpaScalingRulesV2 

type HpaScalingRulesV2 struct {
	// policies is a list of potential scaling polices which can be used during scaling.
	//
	// At least one policy must be specified, otherwise the HPAScalingRules will be discarded as invalid.
	Policies *[]*HpaScalingPolicyV2 `field:"optional" json:"policies" yaml:"policies"`
	// selectPolicy is used to specify which policy should be used.
	//
	// If not set, the default value Max is used.
	SelectPolicy *string `field:"optional" json:"selectPolicy" yaml:"selectPolicy"`
	// stabilizationWindowSeconds is the number of seconds for which past recommendations should be considered while scaling up or scaling down.
	//
	// StabilizationWindowSeconds must be greater than or equal to zero and less than or equal to 3600 (one hour). If not set, use the default values: - For scale up: 0 (i.e. no stabilization is done). - For scale down: 300 (i.e. the stabilization window is 300 seconds long).
	StabilizationWindowSeconds *float64 `field:"optional" json:"stabilizationWindowSeconds" yaml:"stabilizationWindowSeconds"`
}

HPAScalingRules configures the scaling behavior for one direction.

These Rules are applied after calculating DesiredReplicas from metrics for the HPA. They can limit the scaling velocity by specifying scaling policies. They can prevent flapping by specifying the stabilization window, so that the number of replicas is not set instantly, instead, the safest value from the stabilization window is chosen.

type HttpGetAction 

type HttpGetAction struct {
	// Name or number of the port to access on the container.
	//
	// Number must be in the range 1 to 65535. Name must be an IANA_SVC_NAME.
	Port IntOrString `field:"required" json:"port" yaml:"port"`
	// Host name to connect to, defaults to the pod IP.
	//
	// You probably want to set "Host" in httpHeaders instead.
	Host *string `field:"optional" json:"host" yaml:"host"`
	// Custom headers to set in the request.
	//
	// HTTP allows repeated headers.
	HttpHeaders *[]*HttpHeader `field:"optional" json:"httpHeaders" yaml:"httpHeaders"`
	// Path to access on the HTTP server.
	Path *string `field:"optional" json:"path" yaml:"path"`
	// Scheme to use for connecting to the host.
	//
	// Defaults to HTTP.
	// Default: HTTP.
	//
	Scheme *string `field:"optional" json:"scheme" yaml:"scheme"`
}

HTTPGetAction describes an action based on HTTP Get requests.

type HttpHeader 

type HttpHeader struct {
	// The header field name.
	Name *string `field:"required" json:"name" yaml:"name"`
	// The header field value.
	Value *string `field:"required" json:"value" yaml:"value"`
}

HTTPHeader describes a custom header to be used in HTTP probes.

type HttpIngressPath 

type HttpIngressPath struct {
	// backend defines the referenced service endpoint to which the traffic will be forwarded to.
	Backend *IngressBackend `field:"required" json:"backend" yaml:"backend"`
	// pathType determines the interpretation of the path matching.
	//
	// PathType can be one of the following values: * Exact: Matches the URL path exactly. * Prefix: Matches based on a URL path prefix split by '/'. Matching is
	// done on a path element by element basis. A path element refers is the
	// list of labels in the path split by the '/' separator. A request is a
	// match for path p if every p is an element-wise prefix of p of the
	// request path. Note that if the last element of the path is a substring
	// of the last element in request path, it is not a match (e.g. /foo/bar
	// matches /foo/bar/baz, but does not match /foo/barbaz).
	// * ImplementationSpecific: Interpretation of the Path matching is up to
	// the IngressClass. Implementations can treat this as a separate PathType
	// or treat it identically to Prefix or Exact path types.
	// Implementations are required to support all path types.
	PathType *string `field:"required" json:"pathType" yaml:"pathType"`
	// path is matched against the path of an incoming request.
	//
	// Currently it can contain characters disallowed from the conventional "path" part of a URL as defined by RFC 3986. Paths must begin with a '/' and must be present when using PathType with value "Exact" or "Prefix".
	Path *string `field:"optional" json:"path" yaml:"path"`
}

HTTPIngressPath associates a path with a backend.

Incoming urls matching the path are forwarded to the backend.

type HttpIngressRuleValue 

type HttpIngressRuleValue struct {
	// paths is a collection of paths that map requests to backends.
	Paths *[]*HttpIngressPath `field:"required" json:"paths" yaml:"paths"`
}

HTTPIngressRuleValue is a list of http selectors pointing to backends.

In the example: http://<host>/<path>?<searchpart> -> backend where where parts of the url correspond to RFC 3986, this resource will be used to match against everything after the last '/' and before the first '?' or '#'.

type IngressBackend 

type IngressBackend struct {
	// resource is an ObjectRef to another Kubernetes resource in the namespace of the Ingress object.
	//
	// If resource is specified, a service.Name and service.Port must not be specified. This is a mutually exclusive setting with "Service".
	Resource *TypedLocalObjectReference `field:"optional" json:"resource" yaml:"resource"`
	// service references a service as a backend.
	//
	// This is a mutually exclusive setting with "Resource".
	Service *IngressServiceBackend `field:"optional" json:"service" yaml:"service"`
}

IngressBackend describes all endpoints for a given service and port.

type IngressClassParametersReference 

type IngressClassParametersReference struct {
	// kind is the type of resource being referenced.
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// name is the name of resource being referenced.
	Name *string `field:"required" json:"name" yaml:"name"`
	// apiGroup is the group for the resource being referenced.
	//
	// If APIGroup is not specified, the specified Kind must be in the core API group. For any other third-party types, APIGroup is required.
	ApiGroup *string `field:"optional" json:"apiGroup" yaml:"apiGroup"`
	// namespace is the namespace of the resource being referenced.
	//
	// This field is required when scope is set to "Namespace" and must be unset when scope is set to "Cluster".
	Namespace *string `field:"optional" json:"namespace" yaml:"namespace"`
	// scope represents if this refers to a cluster or namespace scoped resource.
	//
	// This may be set to "Cluster" (default) or "Namespace".
	Scope *string `field:"optional" json:"scope" yaml:"scope"`
}

IngressClassParametersReference identifies an API object.

This can be used to specify a cluster or namespace-scoped resource.

type IngressClassSpec 

type IngressClassSpec struct {
	// controller refers to the name of the controller that should handle this class.
	//
	// This allows for different "flavors" that are controlled by the same controller. For example, you may have different parameters for the same implementing controller. This should be specified as a domain-prefixed path no more than 250 characters in length, e.g. "acme.io/ingress-controller". This field is immutable.
	Controller *string `field:"optional" json:"controller" yaml:"controller"`
	// parameters is a link to a custom resource containing additional configuration for the controller.
	//
	// This is optional if the controller does not require extra parameters.
	Parameters *IngressClassParametersReference `field:"optional" json:"parameters" yaml:"parameters"`
}

IngressClassSpec provides information about the class of an Ingress.

type IngressRule 

type IngressRule struct {
	// host is the fully qualified domain name of a network host, as defined by RFC 3986.
	//
	// Note the following deviations from the "host" part of the URI as defined in RFC 3986: 1. IPs are not allowed. Currently an IngressRuleValue can only apply to
	// the IP in the Spec of the parent Ingress.
	// 2. The `:` delimiter is not respected because ports are not allowed.
	// Currently the port of an Ingress is implicitly :80 for http and
	// :443 for https.
	// Both these may change in the future. Incoming requests are matched against the host before the IngressRuleValue. If the host is unspecified, the Ingress routes all traffic based on the specified IngressRuleValue.
	//
	// host can be "precise" which is a domain name without the terminating dot of a network host (e.g. "foo.bar.com") or "wildcard", which is a domain name prefixed with a single wildcard label (e.g. "*.foo.com"). The wildcard character '*' must appear by itself as the first DNS label and matches only a single label. You cannot have a wildcard label by itself (e.g. Host == "*"). Requests will be matched against the Host field in the following way: 1. If host is precise, the request matches this rule if the http host header is equal to Host. 2. If host is a wildcard, then the request matches this rule if the http host header is to equal to the suffix (removing the first label) of the wildcard rule.
	Host *string               `field:"optional" json:"host" yaml:"host"`
	Http *HttpIngressRuleValue `field:"optional" json:"http" yaml:"http"`
}

IngressRule represents the rules mapping the paths under a specified host to the related backend services.

Incoming requests are first evaluated for a host match, then routed to the backend associated with the matching IngressRuleValue.

type IngressServiceBackend 

type IngressServiceBackend struct {
	// name is the referenced service.
	//
	// The service must exist in the same namespace as the Ingress object.
	Name *string `field:"required" json:"name" yaml:"name"`
	// port of the referenced service.
	//
	// A port name or port number is required for a IngressServiceBackend.
	Port *ServiceBackendPort `field:"optional" json:"port" yaml:"port"`
}

IngressServiceBackend references a Kubernetes Service as a Backend.

type IngressSpec 

type IngressSpec struct {
	// defaultBackend is the backend that should handle requests that don't match any rule.
	//
	// If Rules are not specified, DefaultBackend must be specified. If DefaultBackend is not set, the handling of requests that do not match any of the rules will be up to the Ingress controller.
	DefaultBackend *IngressBackend `field:"optional" json:"defaultBackend" yaml:"defaultBackend"`
	// ingressClassName is the name of an IngressClass cluster resource.
	//
	// Ingress controller implementations use this field to know whether they should be serving this Ingress resource, by a transitive connection (controller -> IngressClass -> Ingress resource). Although the `kubernetes.io/ingress.class` annotation (simple constant name) was never formally defined, it was widely supported by Ingress controllers to create a direct binding between Ingress controller and Ingress resources. Newly created Ingress resources should prefer using the field. However, even though the annotation is officially deprecated, for backwards compatibility reasons, ingress controllers should still honor that annotation if present.
	IngressClassName *string `field:"optional" json:"ingressClassName" yaml:"ingressClassName"`
	// rules is a list of host rules used to configure the Ingress.
	//
	// If unspecified, or no rule matches, all traffic is sent to the default backend.
	Rules *[]*IngressRule `field:"optional" json:"rules" yaml:"rules"`
	// tls represents the TLS configuration.
	//
	// Currently the Ingress only supports a single TLS port, 443. If multiple members of this list specify different hosts, they will be multiplexed on the same port according to the hostname specified through the SNI TLS extension, if the ingress controller fulfilling the ingress supports SNI.
	Tls *[]*IngressTls `field:"optional" json:"tls" yaml:"tls"`
}

IngressSpec describes the Ingress the user wishes to exist.

type IngressTls 

type IngressTls struct {
	// hosts is a list of hosts included in the TLS certificate.
	//
	// The values in this list must match the name/s used in the tlsSecret. Defaults to the wildcard host setting for the loadbalancer controller fulfilling this Ingress, if left unspecified.
	// Default: the wildcard host setting for the loadbalancer controller fulfilling this Ingress, if left unspecified.
	//
	Hosts *[]*string `field:"optional" json:"hosts" yaml:"hosts"`
	// secretName is the name of the secret used to terminate TLS traffic on port 443.
	//
	// Field is left optional to allow TLS routing based on SNI hostname alone. If the SNI host in a listener conflicts with the "Host" header field used by an IngressRule, the SNI host is used for termination and value of the "Host" header is used for routing.
	SecretName *string `field:"optional" json:"secretName" yaml:"secretName"`
}

IngressTLS describes the transport layer security associated with an ingress.

type IntOrString 

type IntOrString interface {
	Value() interface{}
}

func IntOrString_FromNumber 

func IntOrString_FromNumber(value *float64) IntOrString

func IntOrString_FromString 

func IntOrString_FromString(value *string) IntOrString

type IoK8SApimachineryPkgApisMetaV1DeleteOptionsKind 

type IoK8SApimachineryPkgApisMetaV1DeleteOptionsKind string

Kind is a string value representing the REST resource this object represents.

Servers may infer this from the endpoint the client submits requests to. Cannot be updated. In CamelCase. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds 

const (
	// DeleteOptions.
	IoK8SApimachineryPkgApisMetaV1DeleteOptionsKind_DELETE_OPTIONS IoK8SApimachineryPkgApisMetaV1DeleteOptionsKind = "DELETE_OPTIONS"
)

type IpAddressSpecV1Alpha1 

type IpAddressSpecV1Alpha1 struct {
	// ParentRef references the resource that an IPAddress is attached to.
	//
	// An IPAddress must reference a parent object.
	ParentRef *ParentReferenceV1Alpha1 `field:"optional" json:"parentRef" yaml:"parentRef"`
}

IPAddressSpec describe the attributes in an IP Address.

type IpBlock 

type IpBlock struct {
	// cidr is a string representing the IPBlock Valid examples are "192.168.1.0/24" or "2001:db8::/64".
	Cidr *string `field:"required" json:"cidr" yaml:"cidr"`
	// except is a slice of CIDRs that should not be included within an IPBlock Valid examples are "192.168.1.0/24" or "2001:db8::/64" Except values will be rejected if they are outside the cidr range.
	Except *[]*string `field:"optional" json:"except" yaml:"except"`
}

IPBlock describes a particular CIDR (Ex.

"192.168.1.0/24","2001:db8::/64") that is allowed to the pods matched by a NetworkPolicySpec's podSelector. The except entry describes CIDRs that should not be included within this rule.

type IscsiPersistentVolumeSource 

type IscsiPersistentVolumeSource struct {
	// iqn is Target iSCSI Qualified Name.
	Iqn *string `field:"required" json:"iqn" yaml:"iqn"`
	// lun is iSCSI Target Lun number.
	Lun *float64 `field:"required" json:"lun" yaml:"lun"`
	// targetPortal is iSCSI Target Portal.
	//
	// The Portal is either an IP or ip_addr:port if the port is other than default (typically TCP ports 860 and 3260).
	TargetPortal *string `field:"required" json:"targetPortal" yaml:"targetPortal"`
	// chapAuthDiscovery defines whether support iSCSI Discovery CHAP authentication.
	ChapAuthDiscovery *bool `field:"optional" json:"chapAuthDiscovery" yaml:"chapAuthDiscovery"`
	// chapAuthSession defines whether support iSCSI Session CHAP authentication.
	ChapAuthSession *bool `field:"optional" json:"chapAuthSession" yaml:"chapAuthSession"`
	// fsType is the filesystem type of the volume that you want to mount.
	//
	// Tip: Ensure that the filesystem type is supported by the host operating system. Examples: "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified. More info: https://kubernetes.io/docs/concepts/storage/volumes#iscsi
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// initiatorName is the custom iSCSI Initiator Name.
	//
	// If initiatorName is specified with iscsiInterface simultaneously, new iSCSI interface <target portal>:<volume name> will be created for the connection.
	InitiatorName *string `field:"optional" json:"initiatorName" yaml:"initiatorName"`
	// iscsiInterface is the interface Name that uses an iSCSI transport.
	//
	// Defaults to 'default' (tcp).
	// Default: default' (tcp).
	//
	IscsiInterface *string `field:"optional" json:"iscsiInterface" yaml:"iscsiInterface"`
	// portals is the iSCSI Target Portal List.
	//
	// The Portal is either an IP or ip_addr:port if the port is other than default (typically TCP ports 860 and 3260).
	Portals *[]*string `field:"optional" json:"portals" yaml:"portals"`
	// readOnly here will force the ReadOnly setting in VolumeMounts.
	//
	// Defaults to false.
	// Default: false.
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretRef is the CHAP Secret for iSCSI target and initiator authentication.
	SecretRef *SecretReference `field:"optional" json:"secretRef" yaml:"secretRef"`
}

ISCSIPersistentVolumeSource represents an ISCSI disk.

ISCSI volumes can only be mounted as read/write once. ISCSI volumes support ownership management and SELinux relabeling.

type IscsiVolumeSource 

type IscsiVolumeSource struct {
	// iqn is the target iSCSI Qualified Name.
	Iqn *string `field:"required" json:"iqn" yaml:"iqn"`
	// lun represents iSCSI Target Lun number.
	Lun *float64 `field:"required" json:"lun" yaml:"lun"`
	// targetPortal is iSCSI Target Portal.
	//
	// The Portal is either an IP or ip_addr:port if the port is other than default (typically TCP ports 860 and 3260).
	TargetPortal *string `field:"required" json:"targetPortal" yaml:"targetPortal"`
	// chapAuthDiscovery defines whether support iSCSI Discovery CHAP authentication.
	ChapAuthDiscovery *bool `field:"optional" json:"chapAuthDiscovery" yaml:"chapAuthDiscovery"`
	// chapAuthSession defines whether support iSCSI Session CHAP authentication.
	ChapAuthSession *bool `field:"optional" json:"chapAuthSession" yaml:"chapAuthSession"`
	// fsType is the filesystem type of the volume that you want to mount.
	//
	// Tip: Ensure that the filesystem type is supported by the host operating system. Examples: "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified. More info: https://kubernetes.io/docs/concepts/storage/volumes#iscsi
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// initiatorName is the custom iSCSI Initiator Name.
	//
	// If initiatorName is specified with iscsiInterface simultaneously, new iSCSI interface <target portal>:<volume name> will be created for the connection.
	InitiatorName *string `field:"optional" json:"initiatorName" yaml:"initiatorName"`
	// iscsiInterface is the interface Name that uses an iSCSI transport.
	//
	// Defaults to 'default' (tcp).
	// Default: default' (tcp).
	//
	IscsiInterface *string `field:"optional" json:"iscsiInterface" yaml:"iscsiInterface"`
	// portals is the iSCSI Target Portal List.
	//
	// The portal is either an IP or ip_addr:port if the port is other than default (typically TCP ports 860 and 3260).
	Portals *[]*string `field:"optional" json:"portals" yaml:"portals"`
	// readOnly here will force the ReadOnly setting in VolumeMounts.
	//
	// Defaults to false.
	// Default: false.
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretRef is the CHAP Secret for iSCSI target and initiator authentication.
	SecretRef *LocalObjectReference `field:"optional" json:"secretRef" yaml:"secretRef"`
}

Represents an ISCSI disk.

ISCSI volumes can only be mounted as read/write once. ISCSI volumes support ownership management and SELinux relabeling.

type JobSpec 

type JobSpec struct {
	// Describes the pod that will be created when executing a job.
	//
	// The only allowed template.spec.restartPolicy values are "Never" or "OnFailure". More info: https://kubernetes.io/docs/concepts/workloads/controllers/jobs-run-to-completion/
	Template *PodTemplateSpec `field:"required" json:"template" yaml:"template"`
	// Specifies the duration in seconds relative to the startTime that the job may be continuously active before the system tries to terminate it;
	//
	// value must be positive integer. If a Job is suspended (at creation or through an update), this timer will effectively be stopped and reset when the Job is resumed again.
	ActiveDeadlineSeconds *float64 `field:"optional" json:"activeDeadlineSeconds" yaml:"activeDeadlineSeconds"`
	// Specifies the number of retries before marking this job failed.
	//
	// Defaults to 6.
	// Default: 6.
	//
	BackoffLimit *float64 `field:"optional" json:"backoffLimit" yaml:"backoffLimit"`
	// completionMode specifies how Pod completions are tracked. It can be `NonIndexed` (default) or `Indexed`.
	//
	// `NonIndexed` means that the Job is considered complete when there have been .spec.completions successfully completed Pods. Each Pod completion is homologous to each other.
	//
	// `Indexed` means that the Pods of a Job get an associated completion index from 0 to (.spec.completions - 1), available in the annotation batch.kubernetes.io/job-completion-index. The Job is considered complete when there is one successfully completed Pod for each index. When value is `Indexed`, .spec.completions must be specified and `.spec.parallelism` must be less than or equal to 10^5. In addition, The Pod name takes the form `$(job-name)-$(index)-$(random-string)`, the Pod hostname takes the form `$(job-name)-$(index)`.
	//
	// More completion modes can be added in the future. If the Job controller observes a mode that it doesn't recognize, which is possible during upgrades due to version skew, the controller skips updates for the Job.
	CompletionMode *string `field:"optional" json:"completionMode" yaml:"completionMode"`
	// Specifies the desired number of successfully finished pods the job should be run with.
	//
	// Setting to null means that the success of any pod signals the success of all pods, and allows parallelism to have any positive value.  Setting to 1 means that parallelism is limited to 1 and the success of that pod signals the success of the job. More info: https://kubernetes.io/docs/concepts/workloads/controllers/jobs-run-to-completion/
	Completions *float64 `field:"optional" json:"completions" yaml:"completions"`
	// manualSelector controls generation of pod labels and pod selectors.
	//
	// Leave `manualSelector` unset unless you are certain what you are doing. When false or unset, the system pick labels unique to this job and appends those labels to the pod template.  When true, the user is responsible for picking unique labels and specifying the selector.  Failure to pick a unique label may cause this and other jobs to not function correctly.  However, You may see `manualSelector=true` in jobs that were created with the old `extensions/v1beta1` API. More info: https://kubernetes.io/docs/concepts/workloads/controllers/jobs-run-to-completion/#specifying-your-own-pod-selector
	ManualSelector *bool `field:"optional" json:"manualSelector" yaml:"manualSelector"`
	// Specifies the maximum desired number of pods the job should run at any given time.
	//
	// The actual number of pods running in steady state will be less than this number when ((.spec.completions - .status.successful) < .spec.parallelism), i.e. when the work left to do is less than max parallelism. More info: https://kubernetes.io/docs/concepts/workloads/controllers/jobs-run-to-completion/
	Parallelism *float64 `field:"optional" json:"parallelism" yaml:"parallelism"`
	// Specifies the policy of handling failed pods.
	//
	// In particular, it allows to specify the set of actions and conditions which need to be satisfied to take the associated action. If empty, the default behaviour applies - the counter of failed pods, represented by the jobs's .status.failed field, is incremented and it is checked against the backoffLimit. This field cannot be used in combination with restartPolicy=OnFailure.
	//
	// This field is alpha-level. To use this field, you must enable the `JobPodFailurePolicy` feature gate (disabled by default).
	PodFailurePolicy *PodFailurePolicy `field:"optional" json:"podFailurePolicy" yaml:"podFailurePolicy"`
	// A label query over pods that should match the pod count.
	//
	// Normally, the system sets this field for you. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/#label-selectors
	Selector *LabelSelector `field:"optional" json:"selector" yaml:"selector"`
	// suspend specifies whether the Job controller should create Pods or not.
	//
	// If a Job is created with suspend set to true, no Pods are created by the Job controller. If a Job is suspended after creation (i.e. the flag goes from false to true), the Job controller will delete all active Pods associated with this Job. Users must design their workload to gracefully handle this. Suspending a Job will reset the StartTime field of the Job, effectively resetting the ActiveDeadlineSeconds timer too. Defaults to false.
	// Default: false.
	//
	Suspend *bool `field:"optional" json:"suspend" yaml:"suspend"`
	// ttlSecondsAfterFinished limits the lifetime of a Job that has finished execution (either Complete or Failed).
	//
	// If this field is set, ttlSecondsAfterFinished after the Job finishes, it is eligible to be automatically deleted. When the Job is being deleted, its lifecycle guarantees (e.g. finalizers) will be honored. If this field is unset, the Job won't be automatically deleted. If this field is set to zero, the Job becomes eligible to be deleted immediately after it finishes.
	TtlSecondsAfterFinished *float64 `field:"optional" json:"ttlSecondsAfterFinished" yaml:"ttlSecondsAfterFinished"`
}

JobSpec describes how the job execution will look like.

type JobTemplateSpec 

type JobTemplateSpec struct {
	// Standard object's metadata of the jobs created from this template.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Specification of the desired behavior of the job.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *JobSpec `field:"optional" json:"spec" yaml:"spec"`
}

JobTemplateSpec describes the data a Job should have when created from a template.

type JsonSchemaProps 

type JsonSchemaProps struct {
	AdditionalItems      interface{}         `field:"optional" json:"additionalItems" yaml:"additionalItems"`
	AdditionalProperties interface{}         `field:"optional" json:"additionalProperties" yaml:"additionalProperties"`
	AllOf                *[]*JsonSchemaProps `field:"optional" json:"allOf" yaml:"allOf"`
	AnyOf                *[]*JsonSchemaProps `field:"optional" json:"anyOf" yaml:"anyOf"`
	// default is a default value for undefined object fields.
	//
	// Defaulting is a beta feature under the CustomResourceDefaulting feature gate. Defaulting requires spec.preserveUnknownFields to be false.
	Default          interface{}                  `field:"optional" json:"default" yaml:"default"`
	Definitions      *map[string]*JsonSchemaProps `field:"optional" json:"definitions" yaml:"definitions"`
	Dependencies     *map[string]interface{}      `field:"optional" json:"dependencies" yaml:"dependencies"`
	Description      *string                      `field:"optional" json:"description" yaml:"description"`
	Enum             *[]interface{}               `field:"optional" json:"enum" yaml:"enum"`
	Example          interface{}                  `field:"optional" json:"example" yaml:"example"`
	ExclusiveMaximum *bool                        `field:"optional" json:"exclusiveMaximum" yaml:"exclusiveMaximum"`
	ExclusiveMinimum *bool                        `field:"optional" json:"exclusiveMinimum" yaml:"exclusiveMinimum"`
	ExternalDocs     *ExternalDocumentation       `field:"optional" json:"externalDocs" yaml:"externalDocs"`
	// format is an OpenAPI v3 format string. Unknown formats are ignored. The following formats are validated:.
	//
	// - bsonobjectid: a bson object ID, i.e. a 24 characters hex string - uri: an URI as parsed by Golang net/url.ParseRequestURI - email: an email address as parsed by Golang net/mail.ParseAddress - hostname: a valid representation for an Internet host name, as defined by RFC 1034, section 3.1 [RFC1034]. - ipv4: an IPv4 IP as parsed by Golang net.ParseIP - ipv6: an IPv6 IP as parsed by Golang net.ParseIP - cidr: a CIDR as parsed by Golang net.ParseCIDR - mac: a MAC address as parsed by Golang net.ParseMAC - uuid: an UUID that allows uppercase defined by the regex (?i)^[0-9a-f]{8}-?[0-9a-f]{4}-?[0-9a-f]{4}-?[0-9a-f]{4}-?[0-9a-f]{12}$ - uuid3: an UUID3 that allows uppercase defined by the regex (?i)^[0-9a-f]{8}-?[0-9a-f]{4}-?3[0-9a-f]{3}-?[0-9a-f]{4}-?[0-9a-f]{12}$ - uuid4: an UUID4 that allows uppercase defined by the regex (?i)^[0-9a-f]{8}-?[0-9a-f]{4}-?4[0-9a-f]{3}-?[89ab][0-9a-f]{3}-?[0-9a-f]{12}$ - uuid5: an UUID5 that allows uppercase defined by the regex (?i)^[0-9a-f]{8}-?[0-9a-f]{4}-?5[0-9a-f]{3}-?[89ab][0-9a-f]{3}-?[0-9a-f]{12}$ - isbn: an ISBN10 or ISBN13 number string like "0321751043" or "978-0321751041" - isbn10: an ISBN10 number string like "0321751043" - isbn13: an ISBN13 number string like "978-0321751041" - creditcard: a credit card number defined by the regex ^(?:4[0-9]{12}(?:[0-9]{3})?|5[1-5][0-9]{14}|6(?:011|5[0-9][0-9])[0-9]{12}|3[47][0-9]{13}|3(?:0[0-5]|[68][0-9])[0-9]{11}|(?:2131|1800|35\d{3})\d{11})$ with any non digit characters mixed in - ssn: a U.S. social security number following the regex ^\d{3}[- ]?\d{2}[- ]?\d{4}$ - hexcolor: an hexadecimal color code like "#FFFFFF: following the regex ^#?([0-9a-fA-F]{3}|[0-9a-fA-F]{6})$ - rgbcolor: an RGB color code like rgb like "rgb(255,255,2559" - byte: base64 encoded binary data - password: any kind of string - date: a date string like "2006-01-02" as defined by full-date in RFC3339 - duration: a duration string like "22 ns" as parsed by Golang time.ParseDuration or compatible with Scala duration format - datetime: a date time string like "2014-12-15T19:30:20.000Z" as defined by date-time in RFC3339.
	Format            *string                      `field:"optional" json:"format" yaml:"format"`
	Id                *string                      `field:"optional" json:"id" yaml:"id"`
	Items             interface{}                  `field:"optional" json:"items" yaml:"items"`
	Maximum           *float64                     `field:"optional" json:"maximum" yaml:"maximum"`
	MaxItems          *float64                     `field:"optional" json:"maxItems" yaml:"maxItems"`
	MaxLength         *float64                     `field:"optional" json:"maxLength" yaml:"maxLength"`
	MaxProperties     *float64                     `field:"optional" json:"maxProperties" yaml:"maxProperties"`
	Minimum           *float64                     `field:"optional" json:"minimum" yaml:"minimum"`
	MinItems          *float64                     `field:"optional" json:"minItems" yaml:"minItems"`
	MinLength         *float64                     `field:"optional" json:"minLength" yaml:"minLength"`
	MinProperties     *float64                     `field:"optional" json:"minProperties" yaml:"minProperties"`
	MultipleOf        *float64                     `field:"optional" json:"multipleOf" yaml:"multipleOf"`
	Not               **JsonSchemaProps            `field:"optional" json:"not" yaml:"not"`
	Nullable          *bool                        `field:"optional" json:"nullable" yaml:"nullable"`
	OneOf             *[]*JsonSchemaProps          `field:"optional" json:"oneOf" yaml:"oneOf"`
	Pattern           *string                      `field:"optional" json:"pattern" yaml:"pattern"`
	PatternProperties *map[string]*JsonSchemaProps `field:"optional" json:"patternProperties" yaml:"patternProperties"`
	Properties        *map[string]*JsonSchemaProps `field:"optional" json:"properties" yaml:"properties"`
	Ref               *string                      `field:"optional" json:"ref" yaml:"ref"`
	Required          *[]*string                   `field:"optional" json:"required" yaml:"required"`
	Schema            *string                      `field:"optional" json:"schema" yaml:"schema"`
	Title             *string                      `field:"optional" json:"title" yaml:"title"`
	Type              *string                      `field:"optional" json:"type" yaml:"type"`
	UniqueItems       *bool                        `field:"optional" json:"uniqueItems" yaml:"uniqueItems"`
	// x-kubernetes-embedded-resource defines that the value is an embedded Kubernetes runtime.Object, with TypeMeta and ObjectMeta. The type must be object. It is allowed to further restrict the embedded object. kind, apiVersion and metadata are validated automatically. x-kubernetes-preserve-unknown-fields is allowed to be true, but does not have to be if the object is fully specified (up to kind, apiVersion, metadata).
	XKubernetesEmbeddedResource *bool `field:"optional" json:"xKubernetesEmbeddedResource" yaml:"xKubernetesEmbeddedResource"`
	// x-kubernetes-int-or-string specifies that this value is either an integer or a string.
	//
	// If this is true, an empty type is allowed and type as child of anyOf is permitted if following one of the following patterns:
	//
	// 1) anyOf:
	// - type: integer
	// - type: string
	// 2) allOf:
	// - anyOf:
	// - type: integer
	// - type: string
	// - ... zero or more
	XKubernetesIntOrString *bool `field:"optional" json:"xKubernetesIntOrString" yaml:"xKubernetesIntOrString"`
	// x-kubernetes-list-map-keys annotates an array with the x-kubernetes-list-type `map` by specifying the keys used as the index of the map.
	//
	// This tag MUST only be used on lists that have the "x-kubernetes-list-type" extension set to "map". Also, the values specified for this attribute must be a scalar typed field of the child structure (no nesting is supported).
	//
	// The properties specified must either be required or have a default value, to ensure those properties are present for all list items.
	XKubernetesListMapKeys *[]*string `field:"optional" json:"xKubernetesListMapKeys" yaml:"xKubernetesListMapKeys"`
	// x-kubernetes-list-type annotates an array to further describe its topology.
	//
	// This extension must only be used on lists and may have 3 possible values:
	//
	// 1) `atomic`: the list is treated as a single entity, like a scalar.
	// Atomic lists will be entirely replaced when updated. This extension
	// may be used on any type of list (struct, scalar, ...).
	// 2) `set`:
	// Sets are lists that must not have multiple items with the same value. Each
	// value must be a scalar, an object with x-kubernetes-map-type `atomic` or an
	// array with x-kubernetes-list-type `atomic`.
	// 3) `map`:
	// These lists are like maps in that their elements have a non-index key
	// used to identify them. Order is preserved upon merge. The map tag
	// must only be used on a list with elements of type object.
	// Defaults to atomic for arrays.
	// Default: atomic for arrays.
	//
	XKubernetesListType *string `field:"optional" json:"xKubernetesListType" yaml:"xKubernetesListType"`
	// x-kubernetes-map-type annotates an object to further describe its topology.
	//
	// This extension must only be used when type is object and may have 2 possible values:
	//
	// 1) `granular`:
	// These maps are actual maps (key-value pairs) and each fields are independent
	// from each other (they can each be manipulated by separate actors). This is
	// the default behaviour for all maps.
	// 2) `atomic`: the list is treated as a single entity, like a scalar.
	// Atomic maps will be entirely replaced when updated.
	XKubernetesMapType *string `field:"optional" json:"xKubernetesMapType" yaml:"xKubernetesMapType"`
	// x-kubernetes-preserve-unknown-fields stops the API server decoding step from pruning fields which are not specified in the validation schema.
	//
	// This affects fields recursively, but switches back to normal pruning behaviour if nested properties or additionalProperties are specified in the schema. This can either be true or undefined. False is forbidden.
	XKubernetesPreserveUnknownFields *bool `field:"optional" json:"xKubernetesPreserveUnknownFields" yaml:"xKubernetesPreserveUnknownFields"`
	// x-kubernetes-validations describes a list of validation rules written in the CEL expression language.
	//
	// This field is an alpha-level. Using this field requires the feature gate `CustomResourceValidationExpressions` to be enabled.
	XKubernetesValidations *[]*ValidationRule `field:"optional" json:"xKubernetesValidations" yaml:"xKubernetesValidations"`
}

JSONSchemaProps is a JSON-Schema following Specification Draft 4 (http://json-schema.org/).

type KeyToPath 

type KeyToPath struct {
	// key is the key to project.
	Key *string `field:"required" json:"key" yaml:"key"`
	// path is the relative path of the file to map the key to.
	//
	// May not be an absolute path. May not contain the path element '..'. May not start with the string '..'.
	Path *string `field:"required" json:"path" yaml:"path"`
	// mode is Optional: mode bits used to set permissions on this file.
	//
	// Must be an octal value between 0000 and 0777 or a decimal value between 0 and 511. YAML accepts both octal and decimal values, JSON requires decimal values for mode bits. If not specified, the volume defaultMode will be used. This might be in conflict with other options that affect the file mode, like fsGroup, and the result can be other mode bits set.
	Mode *float64 `field:"optional" json:"mode" yaml:"mode"`
}

Maps a string key to a path within a volume.

type KubeApiService 

type KubeApiService interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

APIService represents a server for a particular GroupVersion.

Name must be "version.group".

func NewKubeApiService 

func NewKubeApiService(scope constructs.Construct, id *string, props *KubeApiServiceProps) KubeApiService

Defines a "io.k8s.kube-aggregator.pkg.apis.apiregistration.v1.APIService" API object.

type KubeApiServiceList 

type KubeApiServiceList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

APIServiceList is a list of APIService objects.

func NewKubeApiServiceList 

func NewKubeApiServiceList(scope constructs.Construct, id *string, props *KubeApiServiceListProps) KubeApiServiceList

Defines a "io.k8s.kube-aggregator.pkg.apis.apiregistration.v1.APIServiceList" API object.

type KubeApiServiceListProps 

type KubeApiServiceListProps struct {
	// Items is the list of APIService.
	Items *[]*KubeApiServiceProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

APIServiceList is a list of APIService objects.

type KubeApiServiceProps 

type KubeApiServiceProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Spec contains information for locating and communicating with a server.
	Spec *ApiServiceSpec `field:"optional" json:"spec" yaml:"spec"`
}

APIService represents a server for a particular GroupVersion.

Name must be "version.group".

type KubeBinding 

type KubeBinding interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Binding ties one object to another;

for example, a pod is bound to a node by a scheduler. Deprecated in 1.7, please use the bindings subresource of pods instead.

func NewKubeBinding 

func NewKubeBinding(scope constructs.Construct, id *string, props *KubeBindingProps) KubeBinding

Defines a "io.k8s.api.core.v1.Binding" API object.

type KubeBindingProps 

type KubeBindingProps struct {
	// The target object that you want to bind to the standard object.
	Target *ObjectReference `field:"required" json:"target" yaml:"target"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

Binding ties one object to another;

for example, a pod is bound to a node by a scheduler. Deprecated in 1.7, please use the bindings subresource of pods instead.

type KubeCertificateSigningRequest 

type KubeCertificateSigningRequest interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

CertificateSigningRequest objects provide a mechanism to obtain x509 certificates by submitting a certificate signing request, and having it asynchronously approved and issued.

Kubelets use this API to obtain: 1. client certificates to authenticate to kube-apiserver (with the "kubernetes.io/kube-apiserver-client-kubelet" signerName). 2. serving certificates for TLS endpoints kube-apiserver can connect to securely (with the "kubernetes.io/kubelet-serving" signerName).

This API can be used to request client certificates to authenticate to kube-apiserver (with the "kubernetes.io/kube-apiserver-client" signerName), or to obtain certificates from custom non-Kubernetes signers.

func NewKubeCertificateSigningRequest 

func NewKubeCertificateSigningRequest(scope constructs.Construct, id *string, props *KubeCertificateSigningRequestProps) KubeCertificateSigningRequest

Defines a "io.k8s.api.certificates.v1.CertificateSigningRequest" API object.

type KubeCertificateSigningRequestList 

type KubeCertificateSigningRequestList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

CertificateSigningRequestList is a collection of CertificateSigningRequest objects.

func NewKubeCertificateSigningRequestList 

func NewKubeCertificateSigningRequestList(scope constructs.Construct, id *string, props *KubeCertificateSigningRequestListProps) KubeCertificateSigningRequestList

Defines a "io.k8s.api.certificates.v1.CertificateSigningRequestList" API object.

type KubeCertificateSigningRequestListProps 

type KubeCertificateSigningRequestListProps struct {
	// items is a collection of CertificateSigningRequest objects.
	Items    *[]*KubeCertificateSigningRequestProps `field:"required" json:"items" yaml:"items"`
	Metadata *ListMeta                              `field:"optional" json:"metadata" yaml:"metadata"`
}

CertificateSigningRequestList is a collection of CertificateSigningRequest objects.

type KubeCertificateSigningRequestProps 

type KubeCertificateSigningRequestProps struct {
	// spec contains the certificate request, and is immutable after creation.
	//
	// Only the request, signerName, expirationSeconds, and usages fields can be set on creation. Other fields are derived by Kubernetes and cannot be modified by users.
	Spec     *CertificateSigningRequestSpec `field:"required" json:"spec" yaml:"spec"`
	Metadata *ObjectMeta                    `field:"optional" json:"metadata" yaml:"metadata"`
}

CertificateSigningRequest objects provide a mechanism to obtain x509 certificates by submitting a certificate signing request, and having it asynchronously approved and issued.

Kubelets use this API to obtain: 1. client certificates to authenticate to kube-apiserver (with the "kubernetes.io/kube-apiserver-client-kubelet" signerName). 2. serving certificates for TLS endpoints kube-apiserver can connect to securely (with the "kubernetes.io/kubelet-serving" signerName).

This API can be used to request client certificates to authenticate to kube-apiserver (with the "kubernetes.io/kube-apiserver-client" signerName), or to obtain certificates from custom non-Kubernetes signers.

type KubeClusterCidrListV1Alpha1 

type KubeClusterCidrListV1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ClusterCIDRList contains a list of ClusterCIDR.

func NewKubeClusterCidrListV1Alpha1 

func NewKubeClusterCidrListV1Alpha1(scope constructs.Construct, id *string, props *KubeClusterCidrListV1Alpha1Props) KubeClusterCidrListV1Alpha1

Defines a "io.k8s.api.networking.v1alpha1.ClusterCIDRList" API object.

type KubeClusterCidrListV1Alpha1Props 

type KubeClusterCidrListV1Alpha1Props struct {
	// items is the list of ClusterCIDRs.
	Items *[]*KubeClusterCidrv1Alpha1Props `field:"required" json:"items" yaml:"items"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ClusterCIDRList contains a list of ClusterCIDR.

type KubeClusterCidrv1Alpha1 

type KubeClusterCidrv1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ClusterCIDR represents a single configuration for per-Node Pod CIDR allocations when the MultiCIDRRangeAllocator is enabled (see the config for kube-controller-manager).

A cluster may have any number of ClusterCIDR resources, all of which will be considered when allocating a CIDR for a Node. A ClusterCIDR is eligible to be used for a given Node when the node selector matches the node in question and has free CIDRs to allocate. In case of multiple matching ClusterCIDR resources, the allocator will attempt to break ties using internal heuristics, but any ClusterCIDR whose node selector matches the Node may be used.

func NewKubeClusterCidrv1Alpha1 

func NewKubeClusterCidrv1Alpha1(scope constructs.Construct, id *string, props *KubeClusterCidrv1Alpha1Props) KubeClusterCidrv1Alpha1

Defines a "io.k8s.api.networking.v1alpha1.ClusterCIDR" API object.

type KubeClusterCidrv1Alpha1Props 

type KubeClusterCidrv1Alpha1Props struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// spec is the desired state of the ClusterCIDR.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *ClusterCidrSpecV1Alpha1 `field:"optional" json:"spec" yaml:"spec"`
}

ClusterCIDR represents a single configuration for per-Node Pod CIDR allocations when the MultiCIDRRangeAllocator is enabled (see the config for kube-controller-manager).

A cluster may have any number of ClusterCIDR resources, all of which will be considered when allocating a CIDR for a Node. A ClusterCIDR is eligible to be used for a given Node when the node selector matches the node in question and has free CIDRs to allocate. In case of multiple matching ClusterCIDR resources, the allocator will attempt to break ties using internal heuristics, but any ClusterCIDR whose node selector matches the Node may be used.

type KubeClusterRole 

type KubeClusterRole interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ClusterRole is a cluster level, logical grouping of PolicyRules that can be referenced as a unit by a RoleBinding or ClusterRoleBinding.

func NewKubeClusterRole 

func NewKubeClusterRole(scope constructs.Construct, id *string, props *KubeClusterRoleProps) KubeClusterRole

Defines a "io.k8s.api.rbac.v1.ClusterRole" API object.

type KubeClusterRoleBinding 

type KubeClusterRoleBinding interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ClusterRoleBinding references a ClusterRole, but not contain it.

It can reference a ClusterRole in the global namespace, and adds who information via Subject.

func NewKubeClusterRoleBinding 

func NewKubeClusterRoleBinding(scope constructs.Construct, id *string, props *KubeClusterRoleBindingProps) KubeClusterRoleBinding

Defines a "io.k8s.api.rbac.v1.ClusterRoleBinding" API object.

type KubeClusterRoleBindingList 

type KubeClusterRoleBindingList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ClusterRoleBindingList is a collection of ClusterRoleBindings.

func NewKubeClusterRoleBindingList 

func NewKubeClusterRoleBindingList(scope constructs.Construct, id *string, props *KubeClusterRoleBindingListProps) KubeClusterRoleBindingList

Defines a "io.k8s.api.rbac.v1.ClusterRoleBindingList" API object.

type KubeClusterRoleBindingListProps 

type KubeClusterRoleBindingListProps struct {
	// Items is a list of ClusterRoleBindings.
	Items *[]*KubeClusterRoleBindingProps `field:"required" json:"items" yaml:"items"`
	// Standard object's metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ClusterRoleBindingList is a collection of ClusterRoleBindings.

type KubeClusterRoleBindingProps 

type KubeClusterRoleBindingProps struct {
	// RoleRef can only reference a ClusterRole in the global namespace.
	//
	// If the RoleRef cannot be resolved, the Authorizer must return an error.
	RoleRef *RoleRef `field:"required" json:"roleRef" yaml:"roleRef"`
	// Standard object's metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Subjects holds references to the objects the role applies to.
	Subjects *[]*Subject `field:"optional" json:"subjects" yaml:"subjects"`
}

ClusterRoleBinding references a ClusterRole, but not contain it.

It can reference a ClusterRole in the global namespace, and adds who information via Subject.

type KubeClusterRoleList 

type KubeClusterRoleList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ClusterRoleList is a collection of ClusterRoles.

func NewKubeClusterRoleList 

func NewKubeClusterRoleList(scope constructs.Construct, id *string, props *KubeClusterRoleListProps) KubeClusterRoleList

Defines a "io.k8s.api.rbac.v1.ClusterRoleList" API object.

type KubeClusterRoleListProps 

type KubeClusterRoleListProps struct {
	// Items is a list of ClusterRoles.
	Items *[]*KubeClusterRoleProps `field:"required" json:"items" yaml:"items"`
	// Standard object's metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ClusterRoleList is a collection of ClusterRoles.

type KubeClusterRoleProps 

type KubeClusterRoleProps struct {
	// AggregationRule is an optional field that describes how to build the Rules for this ClusterRole.
	//
	// If AggregationRule is set, then the Rules are controller managed and direct changes to Rules will be stomped by the controller.
	AggregationRule *AggregationRule `field:"optional" json:"aggregationRule" yaml:"aggregationRule"`
	// Standard object's metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Rules holds all the PolicyRules for this ClusterRole.
	Rules *[]*PolicyRule `field:"optional" json:"rules" yaml:"rules"`
}

ClusterRole is a cluster level, logical grouping of PolicyRules that can be referenced as a unit by a RoleBinding or ClusterRoleBinding.

type KubeClusterTrustBundleListV1Alpha1 

type KubeClusterTrustBundleListV1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ClusterTrustBundleList is a collection of ClusterTrustBundle objects.

func NewKubeClusterTrustBundleListV1Alpha1 

func NewKubeClusterTrustBundleListV1Alpha1(scope constructs.Construct, id *string, props *KubeClusterTrustBundleListV1Alpha1Props) KubeClusterTrustBundleListV1Alpha1

Defines a "io.k8s.api.certificates.v1alpha1.ClusterTrustBundleList" API object.

type KubeClusterTrustBundleListV1Alpha1Props 

type KubeClusterTrustBundleListV1Alpha1Props struct {
	// items is a collection of ClusterTrustBundle objects.
	Items *[]*KubeClusterTrustBundleV1Alpha1Props `field:"required" json:"items" yaml:"items"`
	// metadata contains the list metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ClusterTrustBundleList is a collection of ClusterTrustBundle objects.

type KubeClusterTrustBundleV1Alpha1 

type KubeClusterTrustBundleV1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ClusterTrustBundle is a cluster-scoped container for X.509 trust anchors (root certificates).

ClusterTrustBundle objects are considered to be readable by any authenticated user in the cluster, because they can be mounted by pods using the `clusterTrustBundle` projection. All service accounts have read access to ClusterTrustBundles by default. Users who only have namespace-level access to a cluster can read ClusterTrustBundles by impersonating a serviceaccount that they have access to.

It can be optionally associated with a particular assigner, in which case it contains one valid set of trust anchors for that signer. Signers may have multiple associated ClusterTrustBundles; each is an independent set of trust anchors for that signer. Admission control is used to enforce that only users with permissions on the signer can create or modify the corresponding bundle.

func NewKubeClusterTrustBundleV1Alpha1 

func NewKubeClusterTrustBundleV1Alpha1(scope constructs.Construct, id *string, props *KubeClusterTrustBundleV1Alpha1Props) KubeClusterTrustBundleV1Alpha1

Defines a "io.k8s.api.certificates.v1alpha1.ClusterTrustBundle" API object.

type KubeClusterTrustBundleV1Alpha1Props 

type KubeClusterTrustBundleV1Alpha1Props struct {
	// spec contains the signer (if any) and trust anchors.
	Spec *ClusterTrustBundleSpecV1Alpha1 `field:"required" json:"spec" yaml:"spec"`
	// metadata contains the object metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ClusterTrustBundle is a cluster-scoped container for X.509 trust anchors (root certificates).

ClusterTrustBundle objects are considered to be readable by any authenticated user in the cluster, because they can be mounted by pods using the `clusterTrustBundle` projection. All service accounts have read access to ClusterTrustBundles by default. Users who only have namespace-level access to a cluster can read ClusterTrustBundles by impersonating a serviceaccount that they have access to.

It can be optionally associated with a particular assigner, in which case it contains one valid set of trust anchors for that signer. Signers may have multiple associated ClusterTrustBundles; each is an independent set of trust anchors for that signer. Admission control is used to enforce that only users with permissions on the signer can create or modify the corresponding bundle.

type KubeComponentStatus deprecated 

type KubeComponentStatus interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ComponentStatus (and ComponentStatusList) holds the cluster validation info.

Deprecated: This API is deprecated in v1.19+

func NewKubeComponentStatus 

func NewKubeComponentStatus(scope constructs.Construct, id *string, props *KubeComponentStatusProps) KubeComponentStatus

Defines a "io.k8s.api.core.v1.ComponentStatus" API object.

type KubeComponentStatusList deprecated 

type KubeComponentStatusList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Status of all the conditions for the component as a list of ComponentStatus objects.

Deprecated: This API is deprecated in v1.19+

func NewKubeComponentStatusList 

func NewKubeComponentStatusList(scope constructs.Construct, id *string, props *KubeComponentStatusListProps) KubeComponentStatusList

Defines a "io.k8s.api.core.v1.ComponentStatusList" API object.

type KubeComponentStatusListProps deprecated 

type KubeComponentStatusListProps struct {
	// List of ComponentStatus objects.
	Items *[]*KubeComponentStatusProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

Status of all the conditions for the component as a list of ComponentStatus objects.

Deprecated: This API is deprecated in v1.19+

type KubeComponentStatusProps deprecated 

type KubeComponentStatusProps struct {
	// List of component conditions observed.
	Conditions *[]*ComponentCondition `field:"optional" json:"conditions" yaml:"conditions"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ComponentStatus (and ComponentStatusList) holds the cluster validation info.

Deprecated: This API is deprecated in v1.19+

type KubeConfigMap 

type KubeConfigMap interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ConfigMap holds configuration data for pods to consume.

func NewKubeConfigMap 

func NewKubeConfigMap(scope constructs.Construct, id *string, props *KubeConfigMapProps) KubeConfigMap

Defines a "io.k8s.api.core.v1.ConfigMap" API object.

type KubeConfigMapList 

type KubeConfigMapList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ConfigMapList is a resource containing a list of ConfigMap objects.

func NewKubeConfigMapList 

func NewKubeConfigMapList(scope constructs.Construct, id *string, props *KubeConfigMapListProps) KubeConfigMapList

Defines a "io.k8s.api.core.v1.ConfigMapList" API object.

type KubeConfigMapListProps 

type KubeConfigMapListProps struct {
	// Items is the list of ConfigMaps.
	Items *[]*KubeConfigMapProps `field:"required" json:"items" yaml:"items"`
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ConfigMapList is a resource containing a list of ConfigMap objects.

type KubeConfigMapProps 

type KubeConfigMapProps struct {
	// BinaryData contains the binary data.
	//
	// Each key must consist of alphanumeric characters, '-', '_' or '.'. BinaryData can contain byte sequences that are not in the UTF-8 range. The keys stored in BinaryData must not overlap with the ones in the Data field, this is enforced during validation process. Using this field will require 1.10+ apiserver and kubelet.
	BinaryData *map[string]*string `field:"optional" json:"binaryData" yaml:"binaryData"`
	// Data contains the configuration data.
	//
	// Each key must consist of alphanumeric characters, '-', '_' or '.'. Values with non-UTF-8 byte sequences must use the BinaryData field. The keys stored in Data must not overlap with the keys in the BinaryData field, this is enforced during validation process.
	Data *map[string]*string `field:"optional" json:"data" yaml:"data"`
	// Immutable, if set to true, ensures that data stored in the ConfigMap cannot be updated (only object metadata can be modified).
	//
	// If not set to true, the field can be modified at any time. Defaulted to nil.
	Immutable *bool `field:"optional" json:"immutable" yaml:"immutable"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ConfigMap holds configuration data for pods to consume.

type KubeControllerRevision 

type KubeControllerRevision interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ControllerRevision implements an immutable snapshot of state data.

Clients are responsible for serializing and deserializing the objects that contain their internal state. Once a ControllerRevision has been successfully created, it can not be updated. The API Server will fail validation of all requests that attempt to mutate the Data field. ControllerRevisions may, however, be deleted. Note that, due to its use by both the DaemonSet and StatefulSet controllers for update and rollback, this object is beta. However, it may be subject to name and representation changes in future releases, and clients should not depend on its stability. It is primarily for internal use by controllers.

func NewKubeControllerRevision 

func NewKubeControllerRevision(scope constructs.Construct, id *string, props *KubeControllerRevisionProps) KubeControllerRevision

Defines a "io.k8s.api.apps.v1.ControllerRevision" API object.

type KubeControllerRevisionList 

type KubeControllerRevisionList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ControllerRevisionList is a resource containing a list of ControllerRevision objects.

func NewKubeControllerRevisionList 

func NewKubeControllerRevisionList(scope constructs.Construct, id *string, props *KubeControllerRevisionListProps) KubeControllerRevisionList

Defines a "io.k8s.api.apps.v1.ControllerRevisionList" API object.

type KubeControllerRevisionListProps 

type KubeControllerRevisionListProps struct {
	// Items is the list of ControllerRevisions.
	Items *[]*KubeControllerRevisionProps `field:"required" json:"items" yaml:"items"`
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ControllerRevisionList is a resource containing a list of ControllerRevision objects.

type KubeControllerRevisionProps 

type KubeControllerRevisionProps struct {
	// Revision indicates the revision of the state represented by Data.
	Revision *float64 `field:"required" json:"revision" yaml:"revision"`
	// Data is the serialized representation of the state.
	Data interface{} `field:"optional" json:"data" yaml:"data"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ControllerRevision implements an immutable snapshot of state data.

Clients are responsible for serializing and deserializing the objects that contain their internal state. Once a ControllerRevision has been successfully created, it can not be updated. The API Server will fail validation of all requests that attempt to mutate the Data field. ControllerRevisions may, however, be deleted. Note that, due to its use by both the DaemonSet and StatefulSet controllers for update and rollback, this object is beta. However, it may be subject to name and representation changes in future releases, and clients should not depend on its stability. It is primarily for internal use by controllers.

type KubeCronJob 

type KubeCronJob interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

CronJob represents the configuration of a single cron job.

func NewKubeCronJob 

func NewKubeCronJob(scope constructs.Construct, id *string, props *KubeCronJobProps) KubeCronJob

Defines a "io.k8s.api.batch.v1.CronJob" API object.

type KubeCronJobList 

type KubeCronJobList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

CronJobList is a collection of cron jobs.

func NewKubeCronJobList 

func NewKubeCronJobList(scope constructs.Construct, id *string, props *KubeCronJobListProps) KubeCronJobList

Defines a "io.k8s.api.batch.v1.CronJobList" API object.

type KubeCronJobListProps 

type KubeCronJobListProps struct {
	// items is the list of CronJobs.
	Items *[]*KubeCronJobProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

CronJobList is a collection of cron jobs.

type KubeCronJobProps 

type KubeCronJobProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Specification of the desired behavior of a cron job, including the schedule.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *CronJobSpec `field:"optional" json:"spec" yaml:"spec"`
}

CronJob represents the configuration of a single cron job.

type KubeCsiDriver 

type KubeCsiDriver interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

CSIDriver captures information about a Container Storage Interface (CSI) volume driver deployed on the cluster.

Kubernetes attach detach controller uses this object to determine whether attach is required. Kubelet uses this object to determine whether pod information needs to be passed on mount. CSIDriver objects are non-namespaced.

func NewKubeCsiDriver 

func NewKubeCsiDriver(scope constructs.Construct, id *string, props *KubeCsiDriverProps) KubeCsiDriver

Defines a "io.k8s.api.storage.v1.CSIDriver" API object.

type KubeCsiDriverList 

type KubeCsiDriverList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

CSIDriverList is a collection of CSIDriver objects.

func NewKubeCsiDriverList 

func NewKubeCsiDriverList(scope constructs.Construct, id *string, props *KubeCsiDriverListProps) KubeCsiDriverList

Defines a "io.k8s.api.storage.v1.CSIDriverList" API object.

type KubeCsiDriverListProps 

type KubeCsiDriverListProps struct {
	// items is the list of CSIDriver.
	Items *[]*KubeCsiDriverProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

CSIDriverList is a collection of CSIDriver objects.

type KubeCsiDriverProps 

type KubeCsiDriverProps struct {
	// spec represents the specification of the CSI Driver.
	Spec *CsiDriverSpec `field:"required" json:"spec" yaml:"spec"`
	// Standard object metadata.
	//
	// metadata.Name indicates the name of the CSI driver that this object refers to; it MUST be the same name returned by the CSI GetPluginName() call for that driver. The driver name must be 63 characters or less, beginning and ending with an alphanumeric character ([a-z0-9A-Z]) with dashes (-), dots (.), and alphanumerics between. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

CSIDriver captures information about a Container Storage Interface (CSI) volume driver deployed on the cluster.

Kubernetes attach detach controller uses this object to determine whether attach is required. Kubelet uses this object to determine whether pod information needs to be passed on mount. CSIDriver objects are non-namespaced.

type KubeCsiNode 

type KubeCsiNode interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

CSINode holds information about all CSI drivers installed on a node.

CSI drivers do not need to create the CSINode object directly. As long as they use the node-driver-registrar sidecar container, the kubelet will automatically populate the CSINode object for the CSI driver as part of kubelet plugin registration. CSINode has the same name as a node. If the object is missing, it means either there are no CSI Drivers available on the node, or the Kubelet version is low enough that it doesn't create this object. CSINode has an OwnerReference that points to the corresponding node object.

func NewKubeCsiNode 

func NewKubeCsiNode(scope constructs.Construct, id *string, props *KubeCsiNodeProps) KubeCsiNode

Defines a "io.k8s.api.storage.v1.CSINode" API object.

type KubeCsiNodeList 

type KubeCsiNodeList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

CSINodeList is a collection of CSINode objects.

func NewKubeCsiNodeList 

func NewKubeCsiNodeList(scope constructs.Construct, id *string, props *KubeCsiNodeListProps) KubeCsiNodeList

Defines a "io.k8s.api.storage.v1.CSINodeList" API object.

type KubeCsiNodeListProps 

type KubeCsiNodeListProps struct {
	// items is the list of CSINode.
	Items *[]*KubeCsiNodeProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

CSINodeList is a collection of CSINode objects.

type KubeCsiNodeProps 

type KubeCsiNodeProps struct {
	// spec is the specification of CSINode.
	Spec *CsiNodeSpec `field:"required" json:"spec" yaml:"spec"`
	// Standard object's metadata.
	//
	// metadata.name must be the Kubernetes node name.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

CSINode holds information about all CSI drivers installed on a node.

CSI drivers do not need to create the CSINode object directly. As long as they use the node-driver-registrar sidecar container, the kubelet will automatically populate the CSINode object for the CSI driver as part of kubelet plugin registration. CSINode has the same name as a node. If the object is missing, it means either there are no CSI Drivers available on the node, or the Kubelet version is low enough that it doesn't create this object. CSINode has an OwnerReference that points to the corresponding node object.

type KubeCsiStorageCapacity 

type KubeCsiStorageCapacity interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

CSIStorageCapacity stores the result of one CSI GetCapacity call.

For a given StorageClass, this describes the available capacity in a particular topology segment. This can be used when considering where to instantiate new PersistentVolumes.

For example this can express things like: - StorageClass "standard" has "1234 GiB" available in "topology.kubernetes.io/zone=us-east1" - StorageClass "localssd" has "10 GiB" available in "kubernetes.io/hostname=knode-abc123"

The following three cases all imply that no capacity is available for a certain combination: - no object exists with suitable topology and storage class name - such an object exists, but the capacity is unset - such an object exists, but the capacity is zero

The producer of these objects can decide which approach is more suitable.

They are consumed by the kube-scheduler when a CSI driver opts into capacity-aware scheduling with CSIDriverSpec.StorageCapacity. The scheduler compares the MaximumVolumeSize against the requested size of pending volumes to filter out unsuitable nodes. If MaximumVolumeSize is unset, it falls back to a comparison against the less precise Capacity. If that is also unset, the scheduler assumes that capacity is insufficient and tries some other node.

func NewKubeCsiStorageCapacity 

func NewKubeCsiStorageCapacity(scope constructs.Construct, id *string, props *KubeCsiStorageCapacityProps) KubeCsiStorageCapacity

Defines a "io.k8s.api.storage.v1.CSIStorageCapacity" API object.

type KubeCsiStorageCapacityList 

type KubeCsiStorageCapacityList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

CSIStorageCapacityList is a collection of CSIStorageCapacity objects.

func NewKubeCsiStorageCapacityList 

func NewKubeCsiStorageCapacityList(scope constructs.Construct, id *string, props *KubeCsiStorageCapacityListProps) KubeCsiStorageCapacityList

Defines a "io.k8s.api.storage.v1.CSIStorageCapacityList" API object.

type KubeCsiStorageCapacityListProps 

type KubeCsiStorageCapacityListProps struct {
	// items is the list of CSIStorageCapacity objects.
	Items *[]*KubeCsiStorageCapacityProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

CSIStorageCapacityList is a collection of CSIStorageCapacity objects.

type KubeCsiStorageCapacityProps 

type KubeCsiStorageCapacityProps struct {
	// storageClassName represents the name of the StorageClass that the reported capacity applies to.
	//
	// It must meet the same requirements as the name of a StorageClass object (non-empty, DNS subdomain). If that object no longer exists, the CSIStorageCapacity object is obsolete and should be removed by its creator. This field is immutable.
	StorageClassName *string `field:"required" json:"storageClassName" yaml:"storageClassName"`
	// capacity is the value reported by the CSI driver in its GetCapacityResponse for a GetCapacityRequest with topology and parameters that match the previous fields.
	//
	// The semantic is currently (CSI spec 1.2) defined as: The available capacity, in bytes, of the storage that can be used to provision volumes. If not set, that information is currently unavailable.
	Capacity Quantity `field:"optional" json:"capacity" yaml:"capacity"`
	// maximumVolumeSize is the value reported by the CSI driver in its GetCapacityResponse for a GetCapacityRequest with topology and parameters that match the previous fields.
	//
	// This is defined since CSI spec 1.4.0 as the largest size that may be used in a CreateVolumeRequest.capacity_range.required_bytes field to create a volume with the same parameters as those in GetCapacityRequest. The corresponding value in the Kubernetes API is ResourceRequirements.Requests in a volume claim.
	MaximumVolumeSize Quantity `field:"optional" json:"maximumVolumeSize" yaml:"maximumVolumeSize"`
	// Standard object's metadata.
	//
	// The name has no particular meaning. It must be a DNS subdomain (dots allowed, 253 characters). To ensure that there are no conflicts with other CSI drivers on the cluster, the recommendation is to use csisc-<uuid>, a generated name, or a reverse-domain name which ends with the unique CSI driver name.
	//
	// Objects are namespaced.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// nodeTopology defines which nodes have access to the storage for which capacity was reported.
	//
	// If not set, the storage is not accessible from any node in the cluster. If empty, the storage is accessible from all nodes. This field is immutable.
	NodeTopology *LabelSelector `field:"optional" json:"nodeTopology" yaml:"nodeTopology"`
}

CSIStorageCapacity stores the result of one CSI GetCapacity call.

For a given StorageClass, this describes the available capacity in a particular topology segment. This can be used when considering where to instantiate new PersistentVolumes.

For example this can express things like: - StorageClass "standard" has "1234 GiB" available in "topology.kubernetes.io/zone=us-east1" - StorageClass "localssd" has "10 GiB" available in "kubernetes.io/hostname=knode-abc123"

The following three cases all imply that no capacity is available for a certain combination: - no object exists with suitable topology and storage class name - such an object exists, but the capacity is unset - such an object exists, but the capacity is zero

The producer of these objects can decide which approach is more suitable.

They are consumed by the kube-scheduler when a CSI driver opts into capacity-aware scheduling with CSIDriverSpec.StorageCapacity. The scheduler compares the MaximumVolumeSize against the requested size of pending volumes to filter out unsuitable nodes. If MaximumVolumeSize is unset, it falls back to a comparison against the less precise Capacity. If that is also unset, the scheduler assumes that capacity is insufficient and tries some other node.

type KubeCustomResourceDefinition 

type KubeCustomResourceDefinition interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

CustomResourceDefinition represents a resource that should be exposed on the API server.

Its name MUST be in the format <.spec.name>.<.spec.group>.

func NewKubeCustomResourceDefinition 

func NewKubeCustomResourceDefinition(scope constructs.Construct, id *string, props *KubeCustomResourceDefinitionProps) KubeCustomResourceDefinition

Defines a "io.k8s.apiextensions-apiserver.pkg.apis.apiextensions.v1.CustomResourceDefinition" API object.

type KubeCustomResourceDefinitionList 

type KubeCustomResourceDefinitionList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

CustomResourceDefinitionList is a list of CustomResourceDefinition objects.

func NewKubeCustomResourceDefinitionList 

func NewKubeCustomResourceDefinitionList(scope constructs.Construct, id *string, props *KubeCustomResourceDefinitionListProps) KubeCustomResourceDefinitionList

Defines a "io.k8s.apiextensions-apiserver.pkg.apis.apiextensions.v1.CustomResourceDefinitionList" API object.

type KubeCustomResourceDefinitionListProps 

type KubeCustomResourceDefinitionListProps struct {
	// items list individual CustomResourceDefinition objects.
	Items *[]*KubeCustomResourceDefinitionProps `field:"required" json:"items" yaml:"items"`
	// Standard object's metadata More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

CustomResourceDefinitionList is a list of CustomResourceDefinition objects.

type KubeCustomResourceDefinitionProps 

type KubeCustomResourceDefinitionProps struct {
	// spec describes how the user wants the resources to appear.
	Spec *CustomResourceDefinitionSpec `field:"required" json:"spec" yaml:"spec"`
	// Standard object's metadata More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

CustomResourceDefinition represents a resource that should be exposed on the API server.

Its name MUST be in the format <.spec.name>.<.spec.group>.

type KubeDaemonSet 

type KubeDaemonSet interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

DaemonSet represents the configuration of a daemon set.

func NewKubeDaemonSet 

func NewKubeDaemonSet(scope constructs.Construct, id *string, props *KubeDaemonSetProps) KubeDaemonSet

Defines a "io.k8s.api.apps.v1.DaemonSet" API object.

type KubeDaemonSetList 

type KubeDaemonSetList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

DaemonSetList is a collection of daemon sets.

func NewKubeDaemonSetList 

func NewKubeDaemonSetList(scope constructs.Construct, id *string, props *KubeDaemonSetListProps) KubeDaemonSetList

Defines a "io.k8s.api.apps.v1.DaemonSetList" API object.

type KubeDaemonSetListProps 

type KubeDaemonSetListProps struct {
	// A list of daemon sets.
	Items *[]*KubeDaemonSetProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

DaemonSetList is a collection of daemon sets.

type KubeDaemonSetProps 

type KubeDaemonSetProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// The desired behavior of this daemon set.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *DaemonSetSpec `field:"optional" json:"spec" yaml:"spec"`
}

DaemonSet represents the configuration of a daemon set.

type KubeDeployment 

type KubeDeployment interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Deployment enables declarative updates for Pods and ReplicaSets.

func NewKubeDeployment 

func NewKubeDeployment(scope constructs.Construct, id *string, props *KubeDeploymentProps) KubeDeployment

Defines a "io.k8s.api.apps.v1.Deployment" API object.

type KubeDeploymentList 

type KubeDeploymentList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

DeploymentList is a list of Deployments.

func NewKubeDeploymentList 

func NewKubeDeploymentList(scope constructs.Construct, id *string, props *KubeDeploymentListProps) KubeDeploymentList

Defines a "io.k8s.api.apps.v1.DeploymentList" API object.

type KubeDeploymentListProps 

type KubeDeploymentListProps struct {
	// Items is the list of Deployments.
	Items *[]*KubeDeploymentProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

DeploymentList is a list of Deployments.

type KubeDeploymentProps 

type KubeDeploymentProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Specification of the desired behavior of the Deployment.
	Spec *DeploymentSpec `field:"optional" json:"spec" yaml:"spec"`
}

Deployment enables declarative updates for Pods and ReplicaSets.

type KubeEndpointSlice 

type KubeEndpointSlice interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

EndpointSlice represents a subset of the endpoints that implement a service.

For a given service there may be multiple EndpointSlice objects, selected by labels, which must be joined to produce the full set of endpoints.

func NewKubeEndpointSlice 

func NewKubeEndpointSlice(scope constructs.Construct, id *string, props *KubeEndpointSliceProps) KubeEndpointSlice

Defines a "io.k8s.api.discovery.v1.EndpointSlice" API object.

type KubeEndpointSliceList 

type KubeEndpointSliceList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

EndpointSliceList represents a list of endpoint slices.

func NewKubeEndpointSliceList 

func NewKubeEndpointSliceList(scope constructs.Construct, id *string, props *KubeEndpointSliceListProps) KubeEndpointSliceList

Defines a "io.k8s.api.discovery.v1.EndpointSliceList" API object.

type KubeEndpointSliceListProps 

type KubeEndpointSliceListProps struct {
	// items is the list of endpoint slices.
	Items *[]*KubeEndpointSliceProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

EndpointSliceList represents a list of endpoint slices.

type KubeEndpointSliceProps 

type KubeEndpointSliceProps struct {
	// addressType specifies the type of address carried by this EndpointSlice.
	//
	// All addresses in this slice must be the same type. This field is immutable after creation. The following address types are currently supported: * IPv4: Represents an IPv4 Address. * IPv6: Represents an IPv6 Address. * FQDN: Represents a Fully Qualified Domain Name.
	AddressType *string `field:"required" json:"addressType" yaml:"addressType"`
	// endpoints is a list of unique endpoints in this slice.
	//
	// Each slice may include a maximum of 1000 endpoints.
	Endpoints *[]*Endpoint `field:"required" json:"endpoints" yaml:"endpoints"`
	// Standard object's metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// ports specifies the list of network ports exposed by each endpoint in this slice.
	//
	// Each port must have a unique name. When ports is empty, it indicates that there are no defined ports. When a port is defined with a nil port value, it indicates "all ports". Each slice may include a maximum of 100 ports.
	Ports *[]*EndpointPort `field:"optional" json:"ports" yaml:"ports"`
}

EndpointSlice represents a subset of the endpoints that implement a service.

For a given service there may be multiple EndpointSlice objects, selected by labels, which must be joined to produce the full set of endpoints.

type KubeEndpoints 

type KubeEndpoints interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Endpoints is a collection of endpoints that implement the actual service. Example:.

Name: "mysvc", Subsets: [ 

{
  Addresses: [{"ip": "10.10.1.1"}, {"ip": "10.10.2.2"}],
  Ports: [{"name": "a", "port": 8675}, {"name": "b", "port": 309}]
},
{
  Addresses: [{"ip": "10.10.3.3"}],
  Ports: [{"name": "a", "port": 93}, {"name": "b", "port": 76}]
},

].

func NewKubeEndpoints 

func NewKubeEndpoints(scope constructs.Construct, id *string, props *KubeEndpointsProps) KubeEndpoints

Defines a "io.k8s.api.core.v1.Endpoints" API object.

type KubeEndpointsList 

type KubeEndpointsList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

EndpointsList is a list of endpoints.

func NewKubeEndpointsList 

func NewKubeEndpointsList(scope constructs.Construct, id *string, props *KubeEndpointsListProps) KubeEndpointsList

Defines a "io.k8s.api.core.v1.EndpointsList" API object.

type KubeEndpointsListProps 

type KubeEndpointsListProps struct {
	// List of endpoints.
	Items *[]*KubeEndpointsProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

EndpointsList is a list of endpoints.

type KubeEndpointsProps 

type KubeEndpointsProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// The set of all endpoints is the union of all subsets.
	//
	// Addresses are placed into subsets according to the IPs they share. A single address with multiple ports, some of which are ready and some of which are not (because they come from different containers) will result in the address being displayed in different subsets for the different ports. No address will appear in both Addresses and NotReadyAddresses in the same subset. Sets of addresses and ports that comprise a service.
	Subsets *[]*EndpointSubset `field:"optional" json:"subsets" yaml:"subsets"`
}

Endpoints is a collection of endpoints that implement the actual service. Example:.

Name: "mysvc", Subsets: [ { Addresses: [{"ip": "10.10.1.1"}, {"ip": "10.10.2.2"}], Ports: [{"name": "a", "port": 8675}, {"name": "b", "port": 309}] }, { Addresses: [{"ip": "10.10.3.3"}], Ports: [{"name": "a", "port": 93}, {"name": "b", "port": 76}] }, ].

type KubeEvent 

type KubeEvent interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Event is a report of an event somewhere in the cluster.

It generally denotes some state change in the system. Events have a limited retention time and triggers and messages may evolve with time. Event consumers should not rely on the timing of an event with a given Reason reflecting a consistent underlying trigger, or the continued existence of events with that Reason. Events should be treated as informative, best-effort, supplemental data.

func NewKubeEvent 

func NewKubeEvent(scope constructs.Construct, id *string, props *KubeEventProps) KubeEvent

Defines a "io.k8s.api.events.v1.Event" API object.

type KubeEventList 

type KubeEventList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

EventList is a list of Event objects.

func NewKubeEventList 

func NewKubeEventList(scope constructs.Construct, id *string, props *KubeEventListProps) KubeEventList

Defines a "io.k8s.api.events.v1.EventList" API object.

type KubeEventListProps 

type KubeEventListProps struct {
	// items is a list of schema objects.
	Items *[]*KubeEventProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

EventList is a list of Event objects.

type KubeEventProps 

type KubeEventProps struct {
	// eventTime is the time when this Event was first observed.
	//
	// It is required.
	EventTime *time.Time `field:"required" json:"eventTime" yaml:"eventTime"`
	// action is what action was taken/failed regarding to the regarding object.
	//
	// It is machine-readable. This field cannot be empty for new Events and it can have at most 128 characters.
	Action *string `field:"optional" json:"action" yaml:"action"`
	// deprecatedCount is the deprecated field assuring backward compatibility with core.v1 Event type.
	DeprecatedCount *float64 `field:"optional" json:"deprecatedCount" yaml:"deprecatedCount"`
	// deprecatedFirstTimestamp is the deprecated field assuring backward compatibility with core.v1 Event type.
	DeprecatedFirstTimestamp *time.Time `field:"optional" json:"deprecatedFirstTimestamp" yaml:"deprecatedFirstTimestamp"`
	// deprecatedLastTimestamp is the deprecated field assuring backward compatibility with core.v1 Event type.
	DeprecatedLastTimestamp *time.Time `field:"optional" json:"deprecatedLastTimestamp" yaml:"deprecatedLastTimestamp"`
	// deprecatedSource is the deprecated field assuring backward compatibility with core.v1 Event type.
	DeprecatedSource *EventSource `field:"optional" json:"deprecatedSource" yaml:"deprecatedSource"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// note is a human-readable description of the status of this operation.
	//
	// Maximal length of the note is 1kB, but libraries should be prepared to handle values up to 64kB.
	Note *string `field:"optional" json:"note" yaml:"note"`
	// reason is why the action was taken.
	//
	// It is human-readable. This field cannot be empty for new Events and it can have at most 128 characters.
	Reason *string `field:"optional" json:"reason" yaml:"reason"`
	// regarding contains the object this Event is about.
	//
	// In most cases it's an Object reporting controller implements, e.g. ReplicaSetController implements ReplicaSets and this event is emitted because it acts on some changes in a ReplicaSet object.
	Regarding *ObjectReference `field:"optional" json:"regarding" yaml:"regarding"`
	// related is the optional secondary object for more complex actions.
	//
	// E.g. when regarding object triggers a creation or deletion of related object.
	Related *ObjectReference `field:"optional" json:"related" yaml:"related"`
	// reportingController is the name of the controller that emitted this Event, e.g. `kubernetes.io/kubelet`. This field cannot be empty for new Events.
	ReportingController *string `field:"optional" json:"reportingController" yaml:"reportingController"`
	// reportingInstance is the ID of the controller instance, e.g. `kubelet-xyzf`. This field cannot be empty for new Events and it can have at most 128 characters.
	ReportingInstance *string `field:"optional" json:"reportingInstance" yaml:"reportingInstance"`
	// series is data about the Event series this event represents or nil if it's a singleton Event.
	Series *EventSeries `field:"optional" json:"series" yaml:"series"`
	// type is the type of this event (Normal, Warning), new types could be added in the future.
	//
	// It is machine-readable. This field cannot be empty for new Events.
	Type *string `field:"optional" json:"type" yaml:"type"`
}

Event is a report of an event somewhere in the cluster.

It generally denotes some state change in the system. Events have a limited retention time and triggers and messages may evolve with time. Event consumers should not rely on the timing of an event with a given Reason reflecting a consistent underlying trigger, or the continued existence of events with that Reason. Events should be treated as informative, best-effort, supplemental data.

type KubeEviction 

type KubeEviction interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Eviction evicts a pod from its node subject to certain policies and safety constraints.

This is a subresource of Pod. A request to cause such an eviction is created by POSTing to .../pods/<pod name>/evictions.

func NewKubeEviction 

func NewKubeEviction(scope constructs.Construct, id *string, props *KubeEvictionProps) KubeEviction

Defines a "io.k8s.api.policy.v1.Eviction" API object.

type KubeEvictionProps 

type KubeEvictionProps struct {
	// DeleteOptions may be provided.
	DeleteOptions *DeleteOptions `field:"optional" json:"deleteOptions" yaml:"deleteOptions"`
	// ObjectMeta describes the pod that is being evicted.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

Eviction evicts a pod from its node subject to certain policies and safety constraints.

This is a subresource of Pod. A request to cause such an eviction is created by POSTing to .../pods/<pod name>/evictions.

type KubeFlowSchemaListV1Beta2 

type KubeFlowSchemaListV1Beta2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

FlowSchemaList is a list of FlowSchema objects.

func NewKubeFlowSchemaListV1Beta2 

func NewKubeFlowSchemaListV1Beta2(scope constructs.Construct, id *string, props *KubeFlowSchemaListV1Beta2Props) KubeFlowSchemaListV1Beta2

Defines a "io.k8s.api.flowcontrol.v1beta2.FlowSchemaList" API object.

type KubeFlowSchemaListV1Beta2Props 

type KubeFlowSchemaListV1Beta2Props struct {
	// `items` is a list of FlowSchemas.
	Items *[]*KubeFlowSchemaV1Beta2Props `field:"required" json:"items" yaml:"items"`
	// `metadata` is the standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

FlowSchemaList is a list of FlowSchema objects.

type KubeFlowSchemaListV1Beta3 

type KubeFlowSchemaListV1Beta3 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

FlowSchemaList is a list of FlowSchema objects.

func NewKubeFlowSchemaListV1Beta3 

func NewKubeFlowSchemaListV1Beta3(scope constructs.Construct, id *string, props *KubeFlowSchemaListV1Beta3Props) KubeFlowSchemaListV1Beta3

Defines a "io.k8s.api.flowcontrol.v1beta3.FlowSchemaList" API object.

type KubeFlowSchemaListV1Beta3Props 

type KubeFlowSchemaListV1Beta3Props struct {
	// `items` is a list of FlowSchemas.
	Items *[]*KubeFlowSchemaV1Beta3Props `field:"required" json:"items" yaml:"items"`
	// `metadata` is the standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

FlowSchemaList is a list of FlowSchema objects.

type KubeFlowSchemaV1Beta2 

type KubeFlowSchemaV1Beta2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

FlowSchema defines the schema of a group of flows.

Note that a flow is made up of a set of inbound API requests with similar attributes and is identified by a pair of strings: the name of the FlowSchema and a "flow distinguisher".

func NewKubeFlowSchemaV1Beta2 

func NewKubeFlowSchemaV1Beta2(scope constructs.Construct, id *string, props *KubeFlowSchemaV1Beta2Props) KubeFlowSchemaV1Beta2

Defines a "io.k8s.api.flowcontrol.v1beta2.FlowSchema" API object.

type KubeFlowSchemaV1Beta2Props 

type KubeFlowSchemaV1Beta2Props struct {
	// `metadata` is the standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// `spec` is the specification of the desired behavior of a FlowSchema.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *FlowSchemaSpecV1Beta2 `field:"optional" json:"spec" yaml:"spec"`
}

FlowSchema defines the schema of a group of flows.

Note that a flow is made up of a set of inbound API requests with similar attributes and is identified by a pair of strings: the name of the FlowSchema and a "flow distinguisher".

type KubeFlowSchemaV1Beta3 

type KubeFlowSchemaV1Beta3 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

FlowSchema defines the schema of a group of flows.

Note that a flow is made up of a set of inbound API requests with similar attributes and is identified by a pair of strings: the name of the FlowSchema and a "flow distinguisher".

func NewKubeFlowSchemaV1Beta3 

func NewKubeFlowSchemaV1Beta3(scope constructs.Construct, id *string, props *KubeFlowSchemaV1Beta3Props) KubeFlowSchemaV1Beta3

Defines a "io.k8s.api.flowcontrol.v1beta3.FlowSchema" API object.

type KubeFlowSchemaV1Beta3Props 

type KubeFlowSchemaV1Beta3Props struct {
	// `metadata` is the standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// `spec` is the specification of the desired behavior of a FlowSchema.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *FlowSchemaSpecV1Beta3 `field:"optional" json:"spec" yaml:"spec"`
}

FlowSchema defines the schema of a group of flows.

Note that a flow is made up of a set of inbound API requests with similar attributes and is identified by a pair of strings: the name of the FlowSchema and a "flow distinguisher".

type KubeHorizontalPodAutoscaler 

type KubeHorizontalPodAutoscaler interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

configuration of a horizontal pod autoscaler.

func NewKubeHorizontalPodAutoscaler 

func NewKubeHorizontalPodAutoscaler(scope constructs.Construct, id *string, props *KubeHorizontalPodAutoscalerProps) KubeHorizontalPodAutoscaler

Defines a "io.k8s.api.autoscaling.v1.HorizontalPodAutoscaler" API object.

type KubeHorizontalPodAutoscalerList 

type KubeHorizontalPodAutoscalerList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

list of horizontal pod autoscaler objects.

func NewKubeHorizontalPodAutoscalerList 

func NewKubeHorizontalPodAutoscalerList(scope constructs.Construct, id *string, props *KubeHorizontalPodAutoscalerListProps) KubeHorizontalPodAutoscalerList

Defines a "io.k8s.api.autoscaling.v1.HorizontalPodAutoscalerList" API object.

type KubeHorizontalPodAutoscalerListProps 

type KubeHorizontalPodAutoscalerListProps struct {
	// items is the list of horizontal pod autoscaler objects.
	Items *[]*KubeHorizontalPodAutoscalerProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

list of horizontal pod autoscaler objects.

type KubeHorizontalPodAutoscalerListV2 

type KubeHorizontalPodAutoscalerListV2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

HorizontalPodAutoscalerList is a list of horizontal pod autoscaler objects.

func NewKubeHorizontalPodAutoscalerListV2 

func NewKubeHorizontalPodAutoscalerListV2(scope constructs.Construct, id *string, props *KubeHorizontalPodAutoscalerListV2Props) KubeHorizontalPodAutoscalerListV2

Defines a "io.k8s.api.autoscaling.v2.HorizontalPodAutoscalerList" API object.

type KubeHorizontalPodAutoscalerListV2Props 

type KubeHorizontalPodAutoscalerListV2Props struct {
	// items is the list of horizontal pod autoscaler objects.
	Items *[]*KubeHorizontalPodAutoscalerV2Props `field:"required" json:"items" yaml:"items"`
	// metadata is the standard list metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

HorizontalPodAutoscalerList is a list of horizontal pod autoscaler objects.

type KubeHorizontalPodAutoscalerProps 

type KubeHorizontalPodAutoscalerProps struct {
	// Standard object metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// spec defines the behaviour of autoscaler.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status.
	Spec *HorizontalPodAutoscalerSpec `field:"optional" json:"spec" yaml:"spec"`
}

configuration of a horizontal pod autoscaler.

type KubeHorizontalPodAutoscalerV2 

type KubeHorizontalPodAutoscalerV2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

HorizontalPodAutoscaler is the configuration for a horizontal pod autoscaler, which automatically manages the replica count of any resource implementing the scale subresource based on the metrics specified.

func NewKubeHorizontalPodAutoscalerV2 

func NewKubeHorizontalPodAutoscalerV2(scope constructs.Construct, id *string, props *KubeHorizontalPodAutoscalerV2Props) KubeHorizontalPodAutoscalerV2

Defines a "io.k8s.api.autoscaling.v2.HorizontalPodAutoscaler" API object.

type KubeHorizontalPodAutoscalerV2Props 

type KubeHorizontalPodAutoscalerV2Props struct {
	// metadata is the standard object metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// spec is the specification for the behaviour of the autoscaler.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status.
	Spec *HorizontalPodAutoscalerSpecV2 `field:"optional" json:"spec" yaml:"spec"`
}

HorizontalPodAutoscaler is the configuration for a horizontal pod autoscaler, which automatically manages the replica count of any resource implementing the scale subresource based on the metrics specified.

type KubeIngress 

type KubeIngress interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Ingress is a collection of rules that allow inbound connections to reach the endpoints defined by a backend.

An Ingress can be configured to give services externally-reachable urls, load balance traffic, terminate SSL, offer name based virtual hosting etc.

func NewKubeIngress 

func NewKubeIngress(scope constructs.Construct, id *string, props *KubeIngressProps) KubeIngress

Defines a "io.k8s.api.networking.v1.Ingress" API object.

type KubeIngressClass 

type KubeIngressClass interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

IngressClass represents the class of the Ingress, referenced by the Ingress Spec.

The `ingressclass.kubernetes.io/is-default-class` annotation can be used to indicate that an IngressClass should be considered default. When a single IngressClass resource has this annotation set to true, new Ingress resources without a class specified will be assigned this default class.

func NewKubeIngressClass 

func NewKubeIngressClass(scope constructs.Construct, id *string, props *KubeIngressClassProps) KubeIngressClass

Defines a "io.k8s.api.networking.v1.IngressClass" API object.

type KubeIngressClassList 

type KubeIngressClassList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

IngressClassList is a collection of IngressClasses.

func NewKubeIngressClassList 

func NewKubeIngressClassList(scope constructs.Construct, id *string, props *KubeIngressClassListProps) KubeIngressClassList

Defines a "io.k8s.api.networking.v1.IngressClassList" API object.

type KubeIngressClassListProps 

type KubeIngressClassListProps struct {
	// items is the list of IngressClasses.
	Items *[]*KubeIngressClassProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

IngressClassList is a collection of IngressClasses.

type KubeIngressClassProps 

type KubeIngressClassProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// spec is the desired state of the IngressClass.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *IngressClassSpec `field:"optional" json:"spec" yaml:"spec"`
}

IngressClass represents the class of the Ingress, referenced by the Ingress Spec.

The `ingressclass.kubernetes.io/is-default-class` annotation can be used to indicate that an IngressClass should be considered default. When a single IngressClass resource has this annotation set to true, new Ingress resources without a class specified will be assigned this default class.

type KubeIngressList 

type KubeIngressList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

IngressList is a collection of Ingress.

func NewKubeIngressList 

func NewKubeIngressList(scope constructs.Construct, id *string, props *KubeIngressListProps) KubeIngressList

Defines a "io.k8s.api.networking.v1.IngressList" API object.

type KubeIngressListProps 

type KubeIngressListProps struct {
	// items is the list of Ingress.
	Items *[]*KubeIngressProps `field:"required" json:"items" yaml:"items"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

IngressList is a collection of Ingress.

type KubeIngressProps 

type KubeIngressProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// spec is the desired state of the Ingress.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *IngressSpec `field:"optional" json:"spec" yaml:"spec"`
}

Ingress is a collection of rules that allow inbound connections to reach the endpoints defined by a backend.

An Ingress can be configured to give services externally-reachable urls, load balance traffic, terminate SSL, offer name based virtual hosting etc.

type KubeIpAddressListV1Alpha1 

type KubeIpAddressListV1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

IPAddressList contains a list of IPAddress.

func NewKubeIpAddressListV1Alpha1 

func NewKubeIpAddressListV1Alpha1(scope constructs.Construct, id *string, props *KubeIpAddressListV1Alpha1Props) KubeIpAddressListV1Alpha1

Defines a "io.k8s.api.networking.v1alpha1.IPAddressList" API object.

type KubeIpAddressListV1Alpha1Props 

type KubeIpAddressListV1Alpha1Props struct {
	// items is the list of IPAddresses.
	Items *[]*KubeIpAddressV1Alpha1Props `field:"required" json:"items" yaml:"items"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

IPAddressList contains a list of IPAddress.

type KubeIpAddressV1Alpha1 

type KubeIpAddressV1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

IPAddress represents a single IP of a single IP Family.

The object is designed to be used by APIs that operate on IP addresses. The object is used by the Service core API for allocation of IP addresses. An IP address can be represented in different formats, to guarantee the uniqueness of the IP, the name of the object is the IP address in canonical format, four decimal digits separated by dots suppressing leading zeros for IPv4 and the representation defined by RFC 5952 for IPv6. Valid: 192.168.1.5 or 2001:db8::1 or 2001:db8:aaaa:bbbb:cccc:dddd:eeee:1 Invalid: 10.01.2.3 or 2001:db8:0:0:0::1

func NewKubeIpAddressV1Alpha1 

func NewKubeIpAddressV1Alpha1(scope constructs.Construct, id *string, props *KubeIpAddressV1Alpha1Props) KubeIpAddressV1Alpha1

Defines a "io.k8s.api.networking.v1alpha1.IPAddress" API object.

type KubeIpAddressV1Alpha1Props 

type KubeIpAddressV1Alpha1Props struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// spec is the desired state of the IPAddress.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *IpAddressSpecV1Alpha1 `field:"optional" json:"spec" yaml:"spec"`
}

IPAddress represents a single IP of a single IP Family.

The object is designed to be used by APIs that operate on IP addresses. The object is used by the Service core API for allocation of IP addresses. An IP address can be represented in different formats, to guarantee the uniqueness of the IP, the name of the object is the IP address in canonical format, four decimal digits separated by dots suppressing leading zeros for IPv4 and the representation defined by RFC 5952 for IPv6. Valid: 192.168.1.5 or 2001:db8::1 or 2001:db8:aaaa:bbbb:cccc:dddd:eeee:1 Invalid: 10.01.2.3 or 2001:db8:0:0:0::1

type KubeJob 

type KubeJob interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Job represents the configuration of a single job.

func NewKubeJob 

func NewKubeJob(scope constructs.Construct, id *string, props *KubeJobProps) KubeJob

Defines a "io.k8s.api.batch.v1.Job" API object.

type KubeJobList 

type KubeJobList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

JobList is a collection of jobs.

func NewKubeJobList 

func NewKubeJobList(scope constructs.Construct, id *string, props *KubeJobListProps) KubeJobList

Defines a "io.k8s.api.batch.v1.JobList" API object.

type KubeJobListProps 

type KubeJobListProps struct {
	// items is the list of Jobs.
	Items *[]*KubeJobProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

JobList is a collection of jobs.

type KubeJobProps 

type KubeJobProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Specification of the desired behavior of a job.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *JobSpec `field:"optional" json:"spec" yaml:"spec"`
}

Job represents the configuration of a single job.

type KubeLease 

type KubeLease interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Lease defines a lease concept.

func NewKubeLease 

func NewKubeLease(scope constructs.Construct, id *string, props *KubeLeaseProps) KubeLease

Defines a "io.k8s.api.coordination.v1.Lease" API object.

type KubeLeaseList 

type KubeLeaseList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

LeaseList is a list of Lease objects.

func NewKubeLeaseList 

func NewKubeLeaseList(scope constructs.Construct, id *string, props *KubeLeaseListProps) KubeLeaseList

Defines a "io.k8s.api.coordination.v1.LeaseList" API object.

type KubeLeaseListProps 

type KubeLeaseListProps struct {
	// items is a list of schema objects.
	Items *[]*KubeLeaseProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

LeaseList is a list of Lease objects.

type KubeLeaseProps 

type KubeLeaseProps struct {
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// spec contains the specification of the Lease.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *LeaseSpec `field:"optional" json:"spec" yaml:"spec"`
}

Lease defines a lease concept.

type KubeLimitRange 

type KubeLimitRange interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

LimitRange sets resource usage limits for each kind of resource in a Namespace.

func NewKubeLimitRange 

func NewKubeLimitRange(scope constructs.Construct, id *string, props *KubeLimitRangeProps) KubeLimitRange

Defines a "io.k8s.api.core.v1.LimitRange" API object.

type KubeLimitRangeList 

type KubeLimitRangeList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

LimitRangeList is a list of LimitRange items.

func NewKubeLimitRangeList 

func NewKubeLimitRangeList(scope constructs.Construct, id *string, props *KubeLimitRangeListProps) KubeLimitRangeList

Defines a "io.k8s.api.core.v1.LimitRangeList" API object.

type KubeLimitRangeListProps 

type KubeLimitRangeListProps struct {
	// Items is a list of LimitRange objects.
	//
	// More info: https://kubernetes.io/docs/concepts/configuration/manage-resources-containers/
	Items *[]*KubeLimitRangeProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

LimitRangeList is a list of LimitRange items.

type KubeLimitRangeProps 

type KubeLimitRangeProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Spec defines the limits enforced.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *LimitRangeSpec `field:"optional" json:"spec" yaml:"spec"`
}

LimitRange sets resource usage limits for each kind of resource in a Namespace.

type KubeLocalSubjectAccessReview 

type KubeLocalSubjectAccessReview interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

LocalSubjectAccessReview checks whether or not a user or group can perform an action in a given namespace.

Having a namespace scoped resource makes it much easier to grant namespace scoped policy that includes permissions checking.

func NewKubeLocalSubjectAccessReview 

func NewKubeLocalSubjectAccessReview(scope constructs.Construct, id *string, props *KubeLocalSubjectAccessReviewProps) KubeLocalSubjectAccessReview

Defines a "io.k8s.api.authorization.v1.LocalSubjectAccessReview" API object.

type KubeLocalSubjectAccessReviewProps 

type KubeLocalSubjectAccessReviewProps struct {
	// Spec holds information about the request being evaluated.
	//
	// spec.namespace must be equal to the namespace you made the request against.  If empty, it is defaulted.
	Spec *SubjectAccessReviewSpec `field:"required" json:"spec" yaml:"spec"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

LocalSubjectAccessReview checks whether or not a user or group can perform an action in a given namespace.

Having a namespace scoped resource makes it much easier to grant namespace scoped policy that includes permissions checking.

type KubeMutatingWebhookConfiguration 

type KubeMutatingWebhookConfiguration interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

MutatingWebhookConfiguration describes the configuration of and admission webhook that accept or reject and may change the object.

func NewKubeMutatingWebhookConfiguration 

func NewKubeMutatingWebhookConfiguration(scope constructs.Construct, id *string, props *KubeMutatingWebhookConfigurationProps) KubeMutatingWebhookConfiguration

Defines a "io.k8s.api.admissionregistration.v1.MutatingWebhookConfiguration" API object.

type KubeMutatingWebhookConfigurationList 

type KubeMutatingWebhookConfigurationList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

MutatingWebhookConfigurationList is a list of MutatingWebhookConfiguration.

func NewKubeMutatingWebhookConfigurationList 

func NewKubeMutatingWebhookConfigurationList(scope constructs.Construct, id *string, props *KubeMutatingWebhookConfigurationListProps) KubeMutatingWebhookConfigurationList

Defines a "io.k8s.api.admissionregistration.v1.MutatingWebhookConfigurationList" API object.

type KubeMutatingWebhookConfigurationListProps 

type KubeMutatingWebhookConfigurationListProps struct {
	// List of MutatingWebhookConfiguration.
	Items *[]*KubeMutatingWebhookConfigurationProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

MutatingWebhookConfigurationList is a list of MutatingWebhookConfiguration.

type KubeMutatingWebhookConfigurationProps 

type KubeMutatingWebhookConfigurationProps struct {
	// Standard object metadata;
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Webhooks is a list of webhooks and the affected resources and operations.
	Webhooks *[]*MutatingWebhook `field:"optional" json:"webhooks" yaml:"webhooks"`
}

MutatingWebhookConfiguration describes the configuration of and admission webhook that accept or reject and may change the object.

type KubeNamespace 

type KubeNamespace interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Namespace provides a scope for Names.

Use of multiple namespaces is optional.

func NewKubeNamespace 

func NewKubeNamespace(scope constructs.Construct, id *string, props *KubeNamespaceProps) KubeNamespace

Defines a "io.k8s.api.core.v1.Namespace" API object.

type KubeNamespaceList 

type KubeNamespaceList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

NamespaceList is a list of Namespaces.

func NewKubeNamespaceList 

func NewKubeNamespaceList(scope constructs.Construct, id *string, props *KubeNamespaceListProps) KubeNamespaceList

Defines a "io.k8s.api.core.v1.NamespaceList" API object.

type KubeNamespaceListProps 

type KubeNamespaceListProps struct {
	// Items is the list of Namespace objects in the list.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/namespaces/
	Items *[]*KubeNamespaceProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

NamespaceList is a list of Namespaces.

type KubeNamespaceProps 

type KubeNamespaceProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Spec defines the behavior of the Namespace.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *NamespaceSpec `field:"optional" json:"spec" yaml:"spec"`
}

Namespace provides a scope for Names.

Use of multiple namespaces is optional.

type KubeNetworkPolicy 

type KubeNetworkPolicy interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

NetworkPolicy describes what network traffic is allowed for a set of Pods.

func NewKubeNetworkPolicy 

func NewKubeNetworkPolicy(scope constructs.Construct, id *string, props *KubeNetworkPolicyProps) KubeNetworkPolicy

Defines a "io.k8s.api.networking.v1.NetworkPolicy" API object.

type KubeNetworkPolicyList 

type KubeNetworkPolicyList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

NetworkPolicyList is a list of NetworkPolicy objects.

func NewKubeNetworkPolicyList 

func NewKubeNetworkPolicyList(scope constructs.Construct, id *string, props *KubeNetworkPolicyListProps) KubeNetworkPolicyList

Defines a "io.k8s.api.networking.v1.NetworkPolicyList" API object.

type KubeNetworkPolicyListProps 

type KubeNetworkPolicyListProps struct {
	// items is a list of schema objects.
	Items *[]*KubeNetworkPolicyProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

NetworkPolicyList is a list of NetworkPolicy objects.

type KubeNetworkPolicyProps 

type KubeNetworkPolicyProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// spec represents the specification of the desired behavior for this NetworkPolicy.
	Spec *NetworkPolicySpec `field:"optional" json:"spec" yaml:"spec"`
}

NetworkPolicy describes what network traffic is allowed for a set of Pods.

type KubeNode 

type KubeNode interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Node is a worker node in Kubernetes.

Each node will have a unique identifier in the cache (i.e. in etcd).

func NewKubeNode 

func NewKubeNode(scope constructs.Construct, id *string, props *KubeNodeProps) KubeNode

Defines a "io.k8s.api.core.v1.Node" API object.

type KubeNodeList 

type KubeNodeList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

NodeList is the whole list of all Nodes which have been registered with master.

func NewKubeNodeList 

func NewKubeNodeList(scope constructs.Construct, id *string, props *KubeNodeListProps) KubeNodeList

Defines a "io.k8s.api.core.v1.NodeList" API object.

type KubeNodeListProps 

type KubeNodeListProps struct {
	// List of nodes.
	Items *[]*KubeNodeProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

NodeList is the whole list of all Nodes which have been registered with master.

type KubeNodeProps 

type KubeNodeProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Spec defines the behavior of a node.
	//
	// https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *NodeSpec `field:"optional" json:"spec" yaml:"spec"`
}

Node is a worker node in Kubernetes.

Each node will have a unique identifier in the cache (i.e. in etcd).

type KubePersistentVolume 

type KubePersistentVolume interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PersistentVolume (PV) is a storage resource provisioned by an administrator.

It is analogous to a node. More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes

func NewKubePersistentVolume 

func NewKubePersistentVolume(scope constructs.Construct, id *string, props *KubePersistentVolumeProps) KubePersistentVolume

Defines a "io.k8s.api.core.v1.PersistentVolume" API object.

type KubePersistentVolumeClaim 

type KubePersistentVolumeClaim interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PersistentVolumeClaim is a user's request for and claim to a persistent volume.

func NewKubePersistentVolumeClaim 

func NewKubePersistentVolumeClaim(scope constructs.Construct, id *string, props *KubePersistentVolumeClaimProps) KubePersistentVolumeClaim

Defines a "io.k8s.api.core.v1.PersistentVolumeClaim" API object.

type KubePersistentVolumeClaimList 

type KubePersistentVolumeClaimList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PersistentVolumeClaimList is a list of PersistentVolumeClaim items.

func NewKubePersistentVolumeClaimList 

func NewKubePersistentVolumeClaimList(scope constructs.Construct, id *string, props *KubePersistentVolumeClaimListProps) KubePersistentVolumeClaimList

Defines a "io.k8s.api.core.v1.PersistentVolumeClaimList" API object.

type KubePersistentVolumeClaimListProps 

type KubePersistentVolumeClaimListProps struct {
	// items is a list of persistent volume claims.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes#persistentvolumeclaims
	Items *[]*KubePersistentVolumeClaimProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

PersistentVolumeClaimList is a list of PersistentVolumeClaim items.

type KubePersistentVolumeClaimProps 

type KubePersistentVolumeClaimProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// spec defines the desired characteristics of a volume requested by a pod author.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes#persistentvolumeclaims
	Spec *PersistentVolumeClaimSpec `field:"optional" json:"spec" yaml:"spec"`
}

PersistentVolumeClaim is a user's request for and claim to a persistent volume.

type KubePersistentVolumeList 

type KubePersistentVolumeList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PersistentVolumeList is a list of PersistentVolume items.

func NewKubePersistentVolumeList 

func NewKubePersistentVolumeList(scope constructs.Construct, id *string, props *KubePersistentVolumeListProps) KubePersistentVolumeList

Defines a "io.k8s.api.core.v1.PersistentVolumeList" API object.

type KubePersistentVolumeListProps 

type KubePersistentVolumeListProps struct {
	// items is a list of persistent volumes.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes
	Items *[]*KubePersistentVolumeProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

PersistentVolumeList is a list of PersistentVolume items.

type KubePersistentVolumeProps 

type KubePersistentVolumeProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// spec defines a specification of a persistent volume owned by the cluster.
	//
	// Provisioned by an administrator. More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes#persistent-volumes
	Spec *PersistentVolumeSpec `field:"optional" json:"spec" yaml:"spec"`
}

PersistentVolume (PV) is a storage resource provisioned by an administrator.

It is analogous to a node. More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes

type KubePod 

type KubePod interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Pod is a collection of containers that can run on a host.

This resource is created by clients and scheduled onto hosts.

func NewKubePod 

func NewKubePod(scope constructs.Construct, id *string, props *KubePodProps) KubePod

Defines a "io.k8s.api.core.v1.Pod" API object.

type KubePodDisruptionBudget 

type KubePodDisruptionBudget interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PodDisruptionBudget is an object to define the max disruption that can be caused to a collection of pods.

func NewKubePodDisruptionBudget 

func NewKubePodDisruptionBudget(scope constructs.Construct, id *string, props *KubePodDisruptionBudgetProps) KubePodDisruptionBudget

Defines a "io.k8s.api.policy.v1.PodDisruptionBudget" API object.

type KubePodDisruptionBudgetList 

type KubePodDisruptionBudgetList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PodDisruptionBudgetList is a collection of PodDisruptionBudgets.

func NewKubePodDisruptionBudgetList 

func NewKubePodDisruptionBudgetList(scope constructs.Construct, id *string, props *KubePodDisruptionBudgetListProps) KubePodDisruptionBudgetList

Defines a "io.k8s.api.policy.v1.PodDisruptionBudgetList" API object.

type KubePodDisruptionBudgetListProps 

type KubePodDisruptionBudgetListProps struct {
	// Items is a list of PodDisruptionBudgets.
	Items *[]*KubePodDisruptionBudgetProps `field:"required" json:"items" yaml:"items"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

PodDisruptionBudgetList is a collection of PodDisruptionBudgets.

type KubePodDisruptionBudgetProps 

type KubePodDisruptionBudgetProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Specification of the desired behavior of the PodDisruptionBudget.
	Spec *PodDisruptionBudgetSpec `field:"optional" json:"spec" yaml:"spec"`
}

PodDisruptionBudget is an object to define the max disruption that can be caused to a collection of pods.

type KubePodList 

type KubePodList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PodList is a list of Pods.

func NewKubePodList 

func NewKubePodList(scope constructs.Construct, id *string, props *KubePodListProps) KubePodList

Defines a "io.k8s.api.core.v1.PodList" API object.

type KubePodListProps 

type KubePodListProps struct {
	// List of pods.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md
	Items *[]*KubePodProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

PodList is a list of Pods.

type KubePodProps 

type KubePodProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Specification of the desired behavior of the pod.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *PodSpec `field:"optional" json:"spec" yaml:"spec"`
}

Pod is a collection of containers that can run on a host.

This resource is created by clients and scheduled onto hosts.

type KubePodSchedulingContextListV1Alpha2 

type KubePodSchedulingContextListV1Alpha2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PodSchedulingContextList is a collection of Pod scheduling objects.

func NewKubePodSchedulingContextListV1Alpha2 

func NewKubePodSchedulingContextListV1Alpha2(scope constructs.Construct, id *string, props *KubePodSchedulingContextListV1Alpha2Props) KubePodSchedulingContextListV1Alpha2

Defines a "io.k8s.api.resource.v1alpha2.PodSchedulingContextList" API object.

type KubePodSchedulingContextListV1Alpha2Props 

type KubePodSchedulingContextListV1Alpha2Props struct {
	// Items is the list of PodSchedulingContext objects.
	Items *[]*KubePodSchedulingContextV1Alpha2Props `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

PodSchedulingContextList is a collection of Pod scheduling objects.

type KubePodSchedulingContextV1Alpha2 

type KubePodSchedulingContextV1Alpha2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PodSchedulingContext objects hold information that is needed to schedule a Pod with ResourceClaims that use "WaitForFirstConsumer" allocation mode.

This is an alpha type and requires enabling the DynamicResourceAllocation feature gate.

func NewKubePodSchedulingContextV1Alpha2 

func NewKubePodSchedulingContextV1Alpha2(scope constructs.Construct, id *string, props *KubePodSchedulingContextV1Alpha2Props) KubePodSchedulingContextV1Alpha2

Defines a "io.k8s.api.resource.v1alpha2.PodSchedulingContext" API object.

type KubePodSchedulingContextV1Alpha2Props 

type KubePodSchedulingContextV1Alpha2Props struct {
	// Spec describes where resources for the Pod are needed.
	Spec *PodSchedulingContextSpecV1Alpha2 `field:"required" json:"spec" yaml:"spec"`
	// Standard object metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

PodSchedulingContext objects hold information that is needed to schedule a Pod with ResourceClaims that use "WaitForFirstConsumer" allocation mode.

This is an alpha type and requires enabling the DynamicResourceAllocation feature gate.

type KubePodTemplate 

type KubePodTemplate interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PodTemplate describes a template for creating copies of a predefined pod.

func NewKubePodTemplate 

func NewKubePodTemplate(scope constructs.Construct, id *string, props *KubePodTemplateProps) KubePodTemplate

Defines a "io.k8s.api.core.v1.PodTemplate" API object.

type KubePodTemplateList 

type KubePodTemplateList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PodTemplateList is a list of PodTemplates.

func NewKubePodTemplateList 

func NewKubePodTemplateList(scope constructs.Construct, id *string, props *KubePodTemplateListProps) KubePodTemplateList

Defines a "io.k8s.api.core.v1.PodTemplateList" API object.

type KubePodTemplateListProps 

type KubePodTemplateListProps struct {
	// List of pod templates.
	Items *[]*KubePodTemplateProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

PodTemplateList is a list of PodTemplates.

type KubePodTemplateProps 

type KubePodTemplateProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Template defines the pods that will be created from this pod template.
	//
	// https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Template *PodTemplateSpec `field:"optional" json:"template" yaml:"template"`
}

PodTemplate describes a template for creating copies of a predefined pod.

type KubePriorityClass 

type KubePriorityClass interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PriorityClass defines mapping from a priority class name to the priority integer value.

The value can be any valid integer.

func NewKubePriorityClass 

func NewKubePriorityClass(scope constructs.Construct, id *string, props *KubePriorityClassProps) KubePriorityClass

Defines a "io.k8s.api.scheduling.v1.PriorityClass" API object.

type KubePriorityClassList 

type KubePriorityClassList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PriorityClassList is a collection of priority classes.

func NewKubePriorityClassList 

func NewKubePriorityClassList(scope constructs.Construct, id *string, props *KubePriorityClassListProps) KubePriorityClassList

Defines a "io.k8s.api.scheduling.v1.PriorityClassList" API object.

type KubePriorityClassListProps 

type KubePriorityClassListProps struct {
	// items is the list of PriorityClasses.
	Items *[]*KubePriorityClassProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

PriorityClassList is a collection of priority classes.

type KubePriorityClassProps 

type KubePriorityClassProps struct {
	// value represents the integer value of this priority class.
	//
	// This is the actual priority that pods receive when they have the name of this class in their pod spec.
	Value *float64 `field:"required" json:"value" yaml:"value"`
	// description is an arbitrary string that usually provides guidelines on when this priority class should be used.
	Description *string `field:"optional" json:"description" yaml:"description"`
	// globalDefault specifies whether this PriorityClass should be considered as the default priority for pods that do not have any priority class.
	//
	// Only one PriorityClass can be marked as `globalDefault`. However, if more than one PriorityClasses exists with their `globalDefault` field set to true, the smallest value of such global default PriorityClasses will be used as the default priority.
	GlobalDefault *bool `field:"optional" json:"globalDefault" yaml:"globalDefault"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// preemptionPolicy is the Policy for preempting pods with lower priority.
	//
	// One of Never, PreemptLowerPriority. Defaults to PreemptLowerPriority if unset.
	// Default: PreemptLowerPriority if unset.
	//
	PreemptionPolicy *string `field:"optional" json:"preemptionPolicy" yaml:"preemptionPolicy"`
}

PriorityClass defines mapping from a priority class name to the priority integer value.

The value can be any valid integer.

type KubePriorityLevelConfigurationListV1Beta2 

type KubePriorityLevelConfigurationListV1Beta2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PriorityLevelConfigurationList is a list of PriorityLevelConfiguration objects.

func NewKubePriorityLevelConfigurationListV1Beta2 

func NewKubePriorityLevelConfigurationListV1Beta2(scope constructs.Construct, id *string, props *KubePriorityLevelConfigurationListV1Beta2Props) KubePriorityLevelConfigurationListV1Beta2

Defines a "io.k8s.api.flowcontrol.v1beta2.PriorityLevelConfigurationList" API object.

type KubePriorityLevelConfigurationListV1Beta2Props 

type KubePriorityLevelConfigurationListV1Beta2Props struct {
	// `items` is a list of request-priorities.
	Items *[]*KubePriorityLevelConfigurationV1Beta2Props `field:"required" json:"items" yaml:"items"`
	// `metadata` is the standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

PriorityLevelConfigurationList is a list of PriorityLevelConfiguration objects.

type KubePriorityLevelConfigurationListV1Beta3 

type KubePriorityLevelConfigurationListV1Beta3 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PriorityLevelConfigurationList is a list of PriorityLevelConfiguration objects.

func NewKubePriorityLevelConfigurationListV1Beta3 

func NewKubePriorityLevelConfigurationListV1Beta3(scope constructs.Construct, id *string, props *KubePriorityLevelConfigurationListV1Beta3Props) KubePriorityLevelConfigurationListV1Beta3

Defines a "io.k8s.api.flowcontrol.v1beta3.PriorityLevelConfigurationList" API object.

type KubePriorityLevelConfigurationListV1Beta3Props 

type KubePriorityLevelConfigurationListV1Beta3Props struct {
	// `items` is a list of request-priorities.
	Items *[]*KubePriorityLevelConfigurationV1Beta3Props `field:"required" json:"items" yaml:"items"`
	// `metadata` is the standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

PriorityLevelConfigurationList is a list of PriorityLevelConfiguration objects.

type KubePriorityLevelConfigurationV1Beta2 

type KubePriorityLevelConfigurationV1Beta2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PriorityLevelConfiguration represents the configuration of a priority level.

func NewKubePriorityLevelConfigurationV1Beta2 

func NewKubePriorityLevelConfigurationV1Beta2(scope constructs.Construct, id *string, props *KubePriorityLevelConfigurationV1Beta2Props) KubePriorityLevelConfigurationV1Beta2

Defines a "io.k8s.api.flowcontrol.v1beta2.PriorityLevelConfiguration" API object.

type KubePriorityLevelConfigurationV1Beta2Props 

type KubePriorityLevelConfigurationV1Beta2Props struct {
	// `metadata` is the standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// `spec` is the specification of the desired behavior of a "request-priority".
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *PriorityLevelConfigurationSpecV1Beta2 `field:"optional" json:"spec" yaml:"spec"`
}

PriorityLevelConfiguration represents the configuration of a priority level.

type KubePriorityLevelConfigurationV1Beta3 

type KubePriorityLevelConfigurationV1Beta3 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

PriorityLevelConfiguration represents the configuration of a priority level.

func NewKubePriorityLevelConfigurationV1Beta3 

func NewKubePriorityLevelConfigurationV1Beta3(scope constructs.Construct, id *string, props *KubePriorityLevelConfigurationV1Beta3Props) KubePriorityLevelConfigurationV1Beta3

Defines a "io.k8s.api.flowcontrol.v1beta3.PriorityLevelConfiguration" API object.

type KubePriorityLevelConfigurationV1Beta3Props 

type KubePriorityLevelConfigurationV1Beta3Props struct {
	// `metadata` is the standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// `spec` is the specification of the desired behavior of a "request-priority".
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *PriorityLevelConfigurationSpecV1Beta3 `field:"optional" json:"spec" yaml:"spec"`
}

PriorityLevelConfiguration represents the configuration of a priority level.

type KubeReplicaSet 

type KubeReplicaSet interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ReplicaSet ensures that a specified number of pod replicas are running at any given time.

func NewKubeReplicaSet 

func NewKubeReplicaSet(scope constructs.Construct, id *string, props *KubeReplicaSetProps) KubeReplicaSet

Defines a "io.k8s.api.apps.v1.ReplicaSet" API object.

type KubeReplicaSetList 

type KubeReplicaSetList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ReplicaSetList is a collection of ReplicaSets.

func NewKubeReplicaSetList 

func NewKubeReplicaSetList(scope constructs.Construct, id *string, props *KubeReplicaSetListProps) KubeReplicaSetList

Defines a "io.k8s.api.apps.v1.ReplicaSetList" API object.

type KubeReplicaSetListProps 

type KubeReplicaSetListProps struct {
	// List of ReplicaSets.
	//
	// More info: https://kubernetes.io/docs/concepts/workloads/controllers/replicationcontroller
	Items *[]*KubeReplicaSetProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ReplicaSetList is a collection of ReplicaSets.

type KubeReplicaSetProps 

type KubeReplicaSetProps struct {
	// If the Labels of a ReplicaSet are empty, they are defaulted to be the same as the Pod(s) that the ReplicaSet manages.
	//
	// Standard object's metadata. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Spec defines the specification of the desired behavior of the ReplicaSet.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *ReplicaSetSpec `field:"optional" json:"spec" yaml:"spec"`
}

ReplicaSet ensures that a specified number of pod replicas are running at any given time.

type KubeReplicationController 

type KubeReplicationController interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ReplicationController represents the configuration of a replication controller.

func NewKubeReplicationController 

func NewKubeReplicationController(scope constructs.Construct, id *string, props *KubeReplicationControllerProps) KubeReplicationController

Defines a "io.k8s.api.core.v1.ReplicationController" API object.

type KubeReplicationControllerList 

type KubeReplicationControllerList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ReplicationControllerList is a collection of replication controllers.

func NewKubeReplicationControllerList 

func NewKubeReplicationControllerList(scope constructs.Construct, id *string, props *KubeReplicationControllerListProps) KubeReplicationControllerList

Defines a "io.k8s.api.core.v1.ReplicationControllerList" API object.

type KubeReplicationControllerListProps 

type KubeReplicationControllerListProps struct {
	// List of replication controllers.
	//
	// More info: https://kubernetes.io/docs/concepts/workloads/controllers/replicationcontroller
	Items *[]*KubeReplicationControllerProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ReplicationControllerList is a collection of replication controllers.

type KubeReplicationControllerProps 

type KubeReplicationControllerProps struct {
	// If the Labels of a ReplicationController are empty, they are defaulted to be the same as the Pod(s) that the replication controller manages.
	//
	// Standard object's metadata. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Spec defines the specification of the desired behavior of the replication controller.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *ReplicationControllerSpec `field:"optional" json:"spec" yaml:"spec"`
}

ReplicationController represents the configuration of a replication controller.

type KubeResourceClaimListV1Alpha2 

type KubeResourceClaimListV1Alpha2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ResourceClaimList is a collection of claims.

func NewKubeResourceClaimListV1Alpha2 

func NewKubeResourceClaimListV1Alpha2(scope constructs.Construct, id *string, props *KubeResourceClaimListV1Alpha2Props) KubeResourceClaimListV1Alpha2

Defines a "io.k8s.api.resource.v1alpha2.ResourceClaimList" API object.

type KubeResourceClaimListV1Alpha2Props 

type KubeResourceClaimListV1Alpha2Props struct {
	// Items is the list of resource claims.
	Items *[]*KubeResourceClaimV1Alpha2Props `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ResourceClaimList is a collection of claims.

type KubeResourceClaimTemplateListV1Alpha2 

type KubeResourceClaimTemplateListV1Alpha2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ResourceClaimTemplateList is a collection of claim templates.

func NewKubeResourceClaimTemplateListV1Alpha2 

func NewKubeResourceClaimTemplateListV1Alpha2(scope constructs.Construct, id *string, props *KubeResourceClaimTemplateListV1Alpha2Props) KubeResourceClaimTemplateListV1Alpha2

Defines a "io.k8s.api.resource.v1alpha2.ResourceClaimTemplateList" API object.

type KubeResourceClaimTemplateListV1Alpha2Props 

type KubeResourceClaimTemplateListV1Alpha2Props struct {
	// Items is the list of resource claim templates.
	Items *[]*KubeResourceClaimTemplateV1Alpha2Props `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ResourceClaimTemplateList is a collection of claim templates.

type KubeResourceClaimTemplateV1Alpha2 

type KubeResourceClaimTemplateV1Alpha2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ResourceClaimTemplate is used to produce ResourceClaim objects.

func NewKubeResourceClaimTemplateV1Alpha2 

func NewKubeResourceClaimTemplateV1Alpha2(scope constructs.Construct, id *string, props *KubeResourceClaimTemplateV1Alpha2Props) KubeResourceClaimTemplateV1Alpha2

Defines a "io.k8s.api.resource.v1alpha2.ResourceClaimTemplate" API object.

type KubeResourceClaimTemplateV1Alpha2Props 

type KubeResourceClaimTemplateV1Alpha2Props struct {
	// Describes the ResourceClaim that is to be generated.
	//
	// This field is immutable. A ResourceClaim will get created by the control plane for a Pod when needed and then not get updated anymore.
	Spec *ResourceClaimTemplateSpecV1Alpha2 `field:"required" json:"spec" yaml:"spec"`
	// Standard object metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ResourceClaimTemplate is used to produce ResourceClaim objects.

type KubeResourceClaimV1Alpha2 

type KubeResourceClaimV1Alpha2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ResourceClaim describes which resources are needed by a resource consumer.

Its status tracks whether the resource has been allocated and what the resulting attributes are.

This is an alpha type and requires enabling the DynamicResourceAllocation feature gate.

func NewKubeResourceClaimV1Alpha2 

func NewKubeResourceClaimV1Alpha2(scope constructs.Construct, id *string, props *KubeResourceClaimV1Alpha2Props) KubeResourceClaimV1Alpha2

Defines a "io.k8s.api.resource.v1alpha2.ResourceClaim" API object.

type KubeResourceClaimV1Alpha2Props 

type KubeResourceClaimV1Alpha2Props struct {
	// Spec describes the desired attributes of a resource that then needs to be allocated.
	//
	// It can only be set once when creating the ResourceClaim.
	Spec *ResourceClaimSpecV1Alpha2 `field:"required" json:"spec" yaml:"spec"`
	// Standard object metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ResourceClaim describes which resources are needed by a resource consumer.

Its status tracks whether the resource has been allocated and what the resulting attributes are.

This is an alpha type and requires enabling the DynamicResourceAllocation feature gate.

type KubeResourceClassListV1Alpha2 

type KubeResourceClassListV1Alpha2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ResourceClassList is a collection of classes.

func NewKubeResourceClassListV1Alpha2 

func NewKubeResourceClassListV1Alpha2(scope constructs.Construct, id *string, props *KubeResourceClassListV1Alpha2Props) KubeResourceClassListV1Alpha2

Defines a "io.k8s.api.resource.v1alpha2.ResourceClassList" API object.

type KubeResourceClassListV1Alpha2Props 

type KubeResourceClassListV1Alpha2Props struct {
	// Items is the list of resource classes.
	Items *[]*KubeResourceClassV1Alpha2Props `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ResourceClassList is a collection of classes.

type KubeResourceClassV1Alpha2 

type KubeResourceClassV1Alpha2 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ResourceClass is used by administrators to influence how resources are allocated.

This is an alpha type and requires enabling the DynamicResourceAllocation feature gate.

func NewKubeResourceClassV1Alpha2 

func NewKubeResourceClassV1Alpha2(scope constructs.Construct, id *string, props *KubeResourceClassV1Alpha2Props) KubeResourceClassV1Alpha2

Defines a "io.k8s.api.resource.v1alpha2.ResourceClass" API object.

type KubeResourceClassV1Alpha2Props 

type KubeResourceClassV1Alpha2Props struct {
	// DriverName defines the name of the dynamic resource driver that is used for allocation of a ResourceClaim that uses this class.
	//
	// Resource drivers have a unique name in forward domain order (acme.example.com).
	DriverName *string `field:"required" json:"driverName" yaml:"driverName"`
	// Standard object metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// ParametersRef references an arbitrary separate object that may hold parameters that will be used by the driver when allocating a resource that uses this class.
	//
	// A dynamic resource driver can distinguish between parameters stored here and and those stored in ResourceClaimSpec.
	ParametersRef *ResourceClassParametersReferenceV1Alpha2 `field:"optional" json:"parametersRef" yaml:"parametersRef"`
	// Only nodes matching the selector will be considered by the scheduler when trying to find a Node that fits a Pod when that Pod uses a ResourceClaim that has not been allocated yet.
	//
	// Setting this field is optional. If null, all nodes are candidates.
	SuitableNodes *NodeSelector `field:"optional" json:"suitableNodes" yaml:"suitableNodes"`
}

ResourceClass is used by administrators to influence how resources are allocated.

This is an alpha type and requires enabling the DynamicResourceAllocation feature gate.

type KubeResourceQuota 

type KubeResourceQuota interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ResourceQuota sets aggregate quota restrictions enforced per namespace.

func NewKubeResourceQuota 

func NewKubeResourceQuota(scope constructs.Construct, id *string, props *KubeResourceQuotaProps) KubeResourceQuota

Defines a "io.k8s.api.core.v1.ResourceQuota" API object.

type KubeResourceQuotaList 

type KubeResourceQuotaList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ResourceQuotaList is a list of ResourceQuota items.

func NewKubeResourceQuotaList 

func NewKubeResourceQuotaList(scope constructs.Construct, id *string, props *KubeResourceQuotaListProps) KubeResourceQuotaList

Defines a "io.k8s.api.core.v1.ResourceQuotaList" API object.

type KubeResourceQuotaListProps 

type KubeResourceQuotaListProps struct {
	// Items is a list of ResourceQuota objects.
	//
	// More info: https://kubernetes.io/docs/concepts/policy/resource-quotas/
	Items *[]*KubeResourceQuotaProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ResourceQuotaList is a list of ResourceQuota items.

type KubeResourceQuotaProps 

type KubeResourceQuotaProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Spec defines the desired quota.
	//
	// https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *ResourceQuotaSpec `field:"optional" json:"spec" yaml:"spec"`
}

ResourceQuota sets aggregate quota restrictions enforced per namespace.

type KubeRole 

type KubeRole interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Role is a namespaced, logical grouping of PolicyRules that can be referenced as a unit by a RoleBinding.

func NewKubeRole 

func NewKubeRole(scope constructs.Construct, id *string, props *KubeRoleProps) KubeRole

Defines a "io.k8s.api.rbac.v1.Role" API object.

type KubeRoleBinding 

type KubeRoleBinding interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

RoleBinding references a role, but does not contain it.

It can reference a Role in the same namespace or a ClusterRole in the global namespace. It adds who information via Subjects and namespace information by which namespace it exists in. RoleBindings in a given namespace only have effect in that namespace.

func NewKubeRoleBinding 

func NewKubeRoleBinding(scope constructs.Construct, id *string, props *KubeRoleBindingProps) KubeRoleBinding

Defines a "io.k8s.api.rbac.v1.RoleBinding" API object.

type KubeRoleBindingList 

type KubeRoleBindingList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

RoleBindingList is a collection of RoleBindings.

func NewKubeRoleBindingList 

func NewKubeRoleBindingList(scope constructs.Construct, id *string, props *KubeRoleBindingListProps) KubeRoleBindingList

Defines a "io.k8s.api.rbac.v1.RoleBindingList" API object.

type KubeRoleBindingListProps 

type KubeRoleBindingListProps struct {
	// Items is a list of RoleBindings.
	Items *[]*KubeRoleBindingProps `field:"required" json:"items" yaml:"items"`
	// Standard object's metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

RoleBindingList is a collection of RoleBindings.

type KubeRoleBindingProps 

type KubeRoleBindingProps struct {
	// RoleRef can reference a Role in the current namespace or a ClusterRole in the global namespace.
	//
	// If the RoleRef cannot be resolved, the Authorizer must return an error.
	RoleRef *RoleRef `field:"required" json:"roleRef" yaml:"roleRef"`
	// Standard object's metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Subjects holds references to the objects the role applies to.
	Subjects *[]*Subject `field:"optional" json:"subjects" yaml:"subjects"`
}

RoleBinding references a role, but does not contain it.

It can reference a Role in the same namespace or a ClusterRole in the global namespace. It adds who information via Subjects and namespace information by which namespace it exists in. RoleBindings in a given namespace only have effect in that namespace.

type KubeRoleList 

type KubeRoleList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

RoleList is a collection of Roles.

func NewKubeRoleList 

func NewKubeRoleList(scope constructs.Construct, id *string, props *KubeRoleListProps) KubeRoleList

Defines a "io.k8s.api.rbac.v1.RoleList" API object.

type KubeRoleListProps 

type KubeRoleListProps struct {
	// Items is a list of Roles.
	Items *[]*KubeRoleProps `field:"required" json:"items" yaml:"items"`
	// Standard object's metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

RoleList is a collection of Roles.

type KubeRoleProps 

type KubeRoleProps struct {
	// Standard object's metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Rules holds all the PolicyRules for this Role.
	Rules *[]*PolicyRule `field:"optional" json:"rules" yaml:"rules"`
}

Role is a namespaced, logical grouping of PolicyRules that can be referenced as a unit by a RoleBinding.

type KubeRuntimeClass 

type KubeRuntimeClass interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

RuntimeClass defines a class of container runtime supported in the cluster.

The RuntimeClass is used to determine which container runtime is used to run all containers in a pod. RuntimeClasses are manually defined by a user or cluster provisioner, and referenced in the PodSpec. The Kubelet is responsible for resolving the RuntimeClassName reference before running the pod. For more details, see https://kubernetes.io/docs/concepts/containers/runtime-class/

func NewKubeRuntimeClass 

func NewKubeRuntimeClass(scope constructs.Construct, id *string, props *KubeRuntimeClassProps) KubeRuntimeClass

Defines a "io.k8s.api.node.v1.RuntimeClass" API object.

type KubeRuntimeClassList 

type KubeRuntimeClassList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

RuntimeClassList is a list of RuntimeClass objects.

func NewKubeRuntimeClassList 

func NewKubeRuntimeClassList(scope constructs.Construct, id *string, props *KubeRuntimeClassListProps) KubeRuntimeClassList

Defines a "io.k8s.api.node.v1.RuntimeClassList" API object.

type KubeRuntimeClassListProps 

type KubeRuntimeClassListProps struct {
	// items is a list of schema objects.
	Items *[]*KubeRuntimeClassProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

RuntimeClassList is a list of RuntimeClass objects.

type KubeRuntimeClassProps 

type KubeRuntimeClassProps struct {
	// handler specifies the underlying runtime and configuration that the CRI implementation will use to handle pods of this class.
	//
	// The possible values are specific to the node & CRI configuration.  It is assumed that all handlers are available on every node, and handlers of the same name are equivalent on every node. For example, a handler called "runc" might specify that the runc OCI runtime (using native Linux containers) will be used to run the containers in a pod. The Handler must be lowercase, conform to the DNS Label (RFC 1123) requirements, and is immutable.
	Handler *string `field:"required" json:"handler" yaml:"handler"`
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// overhead represents the resource overhead associated with running a pod for a given RuntimeClass.
	//
	// For more details, see
	// https://kubernetes.io/docs/concepts/scheduling-eviction/pod-overhead/
	Overhead *Overhead `field:"optional" json:"overhead" yaml:"overhead"`
	// scheduling holds the scheduling constraints to ensure that pods running with this RuntimeClass are scheduled to nodes that support it.
	//
	// If scheduling is nil, this RuntimeClass is assumed to be supported by all nodes.
	Scheduling *Scheduling `field:"optional" json:"scheduling" yaml:"scheduling"`
}

RuntimeClass defines a class of container runtime supported in the cluster.

The RuntimeClass is used to determine which container runtime is used to run all containers in a pod. RuntimeClasses are manually defined by a user or cluster provisioner, and referenced in the PodSpec. The Kubelet is responsible for resolving the RuntimeClassName reference before running the pod. For more details, see https://kubernetes.io/docs/concepts/containers/runtime-class/

type KubeScale 

type KubeScale interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Scale represents a scaling request for a resource.

func NewKubeScale 

func NewKubeScale(scope constructs.Construct, id *string, props *KubeScaleProps) KubeScale

Defines a "io.k8s.api.autoscaling.v1.Scale" API object.

type KubeScaleProps 

type KubeScaleProps struct {
	// Standard object metadata;
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// spec defines the behavior of the scale.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status.
	Spec *ScaleSpec `field:"optional" json:"spec" yaml:"spec"`
}

Scale represents a scaling request for a resource.

type KubeSecret 

type KubeSecret interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Secret holds secret data of a certain type.

The total bytes of the values in the Data field must be less than MaxSecretSize bytes.

func NewKubeSecret 

func NewKubeSecret(scope constructs.Construct, id *string, props *KubeSecretProps) KubeSecret

Defines a "io.k8s.api.core.v1.Secret" API object.

type KubeSecretList 

type KubeSecretList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

SecretList is a list of Secret.

func NewKubeSecretList 

func NewKubeSecretList(scope constructs.Construct, id *string, props *KubeSecretListProps) KubeSecretList

Defines a "io.k8s.api.core.v1.SecretList" API object.

type KubeSecretListProps 

type KubeSecretListProps struct {
	// Items is a list of secret objects.
	//
	// More info: https://kubernetes.io/docs/concepts/configuration/secret
	Items *[]*KubeSecretProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

SecretList is a list of Secret.

type KubeSecretProps 

type KubeSecretProps struct {
	// Data contains the secret data.
	//
	// Each key must consist of alphanumeric characters, '-', '_' or '.'. The serialized form of the secret data is a base64 encoded string, representing the arbitrary (possibly non-string) data value here. Described in https://tools.ietf.org/html/rfc4648#section-4
	Data *map[string]*string `field:"optional" json:"data" yaml:"data"`
	// Immutable, if set to true, ensures that data stored in the Secret cannot be updated (only object metadata can be modified).
	//
	// If not set to true, the field can be modified at any time. Defaulted to nil.
	Immutable *bool `field:"optional" json:"immutable" yaml:"immutable"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// stringData allows specifying non-binary secret data in string form.
	//
	// It is provided as a write-only input field for convenience. All keys and values are merged into the data field on write, overwriting any existing values. The stringData field is never output when reading from the API.
	StringData *map[string]*string `field:"optional" json:"stringData" yaml:"stringData"`
	// Used to facilitate programmatic handling of secret data.
	//
	// More info: https://kubernetes.io/docs/concepts/configuration/secret/#secret-types
	Type *string `field:"optional" json:"type" yaml:"type"`
}

Secret holds secret data of a certain type.

The total bytes of the values in the Data field must be less than MaxSecretSize bytes.

type KubeSelfSubjectAccessReview 

type KubeSelfSubjectAccessReview interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

SelfSubjectAccessReview checks whether or the current user can perform an action.

Not filling in a spec.namespace means "in all namespaces". Self is a special case, because users should always be able to check whether they can perform an action

func NewKubeSelfSubjectAccessReview 

func NewKubeSelfSubjectAccessReview(scope constructs.Construct, id *string, props *KubeSelfSubjectAccessReviewProps) KubeSelfSubjectAccessReview

Defines a "io.k8s.api.authorization.v1.SelfSubjectAccessReview" API object.

type KubeSelfSubjectAccessReviewProps 

type KubeSelfSubjectAccessReviewProps struct {
	// Spec holds information about the request being evaluated.
	//
	// user and groups must be empty.
	Spec *SelfSubjectAccessReviewSpec `field:"required" json:"spec" yaml:"spec"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

SelfSubjectAccessReview checks whether or the current user can perform an action.

Not filling in a spec.namespace means "in all namespaces". Self is a special case, because users should always be able to check whether they can perform an action

type KubeSelfSubjectReviewV1Alpha1 

type KubeSelfSubjectReviewV1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

SelfSubjectReview contains the user information that the kube-apiserver has about the user making this request.

When using impersonation, users will receive the user info of the user being impersonated. If impersonation or request header authentication is used, any extra keys will have their case ignored and returned as lowercase.

func NewKubeSelfSubjectReviewV1Alpha1 

func NewKubeSelfSubjectReviewV1Alpha1(scope constructs.Construct, id *string, props *KubeSelfSubjectReviewV1Alpha1Props) KubeSelfSubjectReviewV1Alpha1

Defines a "io.k8s.api.authentication.v1alpha1.SelfSubjectReview" API object.

type KubeSelfSubjectReviewV1Alpha1Props 

type KubeSelfSubjectReviewV1Alpha1Props struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

SelfSubjectReview contains the user information that the kube-apiserver has about the user making this request.

When using impersonation, users will receive the user info of the user being impersonated. If impersonation or request header authentication is used, any extra keys will have their case ignored and returned as lowercase.

type KubeSelfSubjectReviewV1Beta1 

type KubeSelfSubjectReviewV1Beta1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

SelfSubjectReview contains the user information that the kube-apiserver has about the user making this request.

When using impersonation, users will receive the user info of the user being impersonated. If impersonation or request header authentication is used, any extra keys will have their case ignored and returned as lowercase.

func NewKubeSelfSubjectReviewV1Beta1 

func NewKubeSelfSubjectReviewV1Beta1(scope constructs.Construct, id *string, props *KubeSelfSubjectReviewV1Beta1Props) KubeSelfSubjectReviewV1Beta1

Defines a "io.k8s.api.authentication.v1beta1.SelfSubjectReview" API object.

type KubeSelfSubjectReviewV1Beta1Props 

type KubeSelfSubjectReviewV1Beta1Props struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

SelfSubjectReview contains the user information that the kube-apiserver has about the user making this request.

When using impersonation, users will receive the user info of the user being impersonated. If impersonation or request header authentication is used, any extra keys will have their case ignored and returned as lowercase.

type KubeSelfSubjectRulesReview 

type KubeSelfSubjectRulesReview interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

SelfSubjectRulesReview enumerates the set of actions the current user can perform within a namespace.

The returned list of actions may be incomplete depending on the server's authorization mode, and any errors experienced during the evaluation. SelfSubjectRulesReview should be used by UIs to show/hide actions, or to quickly let an end user reason about their permissions. It should NOT Be used by external systems to drive authorization decisions as this raises confused deputy, cache lifetime/revocation, and correctness concerns. SubjectAccessReview, and LocalAccessReview are the correct way to defer authorization decisions to the API server.

func NewKubeSelfSubjectRulesReview 

func NewKubeSelfSubjectRulesReview(scope constructs.Construct, id *string, props *KubeSelfSubjectRulesReviewProps) KubeSelfSubjectRulesReview

Defines a "io.k8s.api.authorization.v1.SelfSubjectRulesReview" API object.

type KubeSelfSubjectRulesReviewProps 

type KubeSelfSubjectRulesReviewProps struct {
	// Spec holds information about the request being evaluated.
	Spec *SelfSubjectRulesReviewSpec `field:"required" json:"spec" yaml:"spec"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

SelfSubjectRulesReview enumerates the set of actions the current user can perform within a namespace.

The returned list of actions may be incomplete depending on the server's authorization mode, and any errors experienced during the evaluation. SelfSubjectRulesReview should be used by UIs to show/hide actions, or to quickly let an end user reason about their permissions. It should NOT Be used by external systems to drive authorization decisions as this raises confused deputy, cache lifetime/revocation, and correctness concerns. SubjectAccessReview, and LocalAccessReview are the correct way to defer authorization decisions to the API server.

type KubeService 

type KubeService interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Service is a named abstraction of software service (for example, mysql) consisting of local port (for example 3306) that the proxy listens on, and the selector that determines which pods will answer requests sent through the proxy.

func NewKubeService 

func NewKubeService(scope constructs.Construct, id *string, props *KubeServiceProps) KubeService

Defines a "io.k8s.api.core.v1.Service" API object.

type KubeServiceAccount 

type KubeServiceAccount interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ServiceAccount binds together: * a name, understood by users, and perhaps by peripheral systems, for an identity * a principal that can be authenticated and authorized * a set of secrets.

func NewKubeServiceAccount 

func NewKubeServiceAccount(scope constructs.Construct, id *string, props *KubeServiceAccountProps) KubeServiceAccount

Defines a "io.k8s.api.core.v1.ServiceAccount" API object.

type KubeServiceAccountList 

type KubeServiceAccountList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ServiceAccountList is a list of ServiceAccount objects.

func NewKubeServiceAccountList 

func NewKubeServiceAccountList(scope constructs.Construct, id *string, props *KubeServiceAccountListProps) KubeServiceAccountList

Defines a "io.k8s.api.core.v1.ServiceAccountList" API object.

type KubeServiceAccountListProps 

type KubeServiceAccountListProps struct {
	// List of ServiceAccounts.
	//
	// More info: https://kubernetes.io/docs/tasks/configure-pod-container/configure-service-account/
	Items *[]*KubeServiceAccountProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ServiceAccountList is a list of ServiceAccount objects.

type KubeServiceAccountProps 

type KubeServiceAccountProps struct {
	// AutomountServiceAccountToken indicates whether pods running as this service account should have an API token automatically mounted.
	//
	// Can be overridden at the pod level.
	AutomountServiceAccountToken *bool `field:"optional" json:"automountServiceAccountToken" yaml:"automountServiceAccountToken"`
	// ImagePullSecrets is a list of references to secrets in the same namespace to use for pulling any images in pods that reference this ServiceAccount.
	//
	// ImagePullSecrets are distinct from Secrets because Secrets can be mounted in the pod, but ImagePullSecrets are only accessed by the kubelet. More info: https://kubernetes.io/docs/concepts/containers/images/#specifying-imagepullsecrets-on-a-pod
	ImagePullSecrets *[]*LocalObjectReference `field:"optional" json:"imagePullSecrets" yaml:"imagePullSecrets"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Secrets is a list of the secrets in the same namespace that pods running using this ServiceAccount are allowed to use.
	//
	// Pods are only limited to this list if this service account has a "kubernetes.io/enforce-mountable-secrets" annotation set to "true". This field should not be used to find auto-generated service account token secrets for use outside of pods. Instead, tokens can be requested directly using the TokenRequest API, or service account token secrets can be manually created. More info: https://kubernetes.io/docs/concepts/configuration/secret
	Secrets *[]*ObjectReference `field:"optional" json:"secrets" yaml:"secrets"`
}

ServiceAccount binds together: * a name, understood by users, and perhaps by peripheral systems, for an identity * a principal that can be authenticated and authorized * a set of secrets.

type KubeServiceList 

type KubeServiceList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ServiceList holds a list of services.

func NewKubeServiceList 

func NewKubeServiceList(scope constructs.Construct, id *string, props *KubeServiceListProps) KubeServiceList

Defines a "io.k8s.api.core.v1.ServiceList" API object.

type KubeServiceListProps 

type KubeServiceListProps struct {
	// List of services.
	Items *[]*KubeServiceProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ServiceList holds a list of services.

type KubeServiceProps 

type KubeServiceProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Spec defines the behavior of a service.
	//
	// https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *ServiceSpec `field:"optional" json:"spec" yaml:"spec"`
}

Service is a named abstraction of software service (for example, mysql) consisting of local port (for example 3306) that the proxy listens on, and the selector that determines which pods will answer requests sent through the proxy.

type KubeStatefulSet 

type KubeStatefulSet interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

StatefulSet represents a set of pods with consistent identities.

Identities are defined as: - Network: A single stable DNS and hostname. - Storage: As many VolumeClaims as requested.

The StatefulSet guarantees that a given network identity will always map to the same storage identity.

func NewKubeStatefulSet 

func NewKubeStatefulSet(scope constructs.Construct, id *string, props *KubeStatefulSetProps) KubeStatefulSet

Defines a "io.k8s.api.apps.v1.StatefulSet" API object.

type KubeStatefulSetList 

type KubeStatefulSetList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

StatefulSetList is a collection of StatefulSets.

func NewKubeStatefulSetList 

func NewKubeStatefulSetList(scope constructs.Construct, id *string, props *KubeStatefulSetListProps) KubeStatefulSetList

Defines a "io.k8s.api.apps.v1.StatefulSetList" API object.

type KubeStatefulSetListProps 

type KubeStatefulSetListProps struct {
	// Items is the list of stateful sets.
	Items *[]*KubeStatefulSetProps `field:"required" json:"items" yaml:"items"`
	// Standard list's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

StatefulSetList is a collection of StatefulSets.

type KubeStatefulSetProps 

type KubeStatefulSetProps struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Spec defines the desired identities of pods in this set.
	Spec *StatefulSetSpec `field:"optional" json:"spec" yaml:"spec"`
}

StatefulSet represents a set of pods with consistent identities.

Identities are defined as: - Network: A single stable DNS and hostname. - Storage: As many VolumeClaims as requested.

The StatefulSet guarantees that a given network identity will always map to the same storage identity.

type KubeStatus 

type KubeStatus interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Status is a return value for calls that don't return other objects.

func NewKubeStatus 

func NewKubeStatus(scope constructs.Construct, id *string, props *KubeStatusProps) KubeStatus

Defines a "io.k8s.apimachinery.pkg.apis.meta.v1.Status" API object.

type KubeStatusProps 

type KubeStatusProps struct {
	// Suggested HTTP return code for this status, 0 if not set.
	Code *float64 `field:"optional" json:"code" yaml:"code"`
	// Extended data associated with the reason.
	//
	// Each reason may define its own extended details. This field is optional and the data returned is not guaranteed to conform to any schema except that defined by the reason type.
	Details *StatusDetails `field:"optional" json:"details" yaml:"details"`
	// A human-readable description of the status of this operation.
	Message *string `field:"optional" json:"message" yaml:"message"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// A machine-readable description of why this operation is in the "Failure" status.
	//
	// If this value is empty there is no information available. A Reason clarifies an HTTP status code but does not override it.
	Reason *string `field:"optional" json:"reason" yaml:"reason"`
}

Status is a return value for calls that don't return other objects.

type KubeStorageClass 

type KubeStorageClass interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

StorageClass describes the parameters for a class of storage for which PersistentVolumes can be dynamically provisioned.

StorageClasses are non-namespaced; the name of the storage class according to etcd is in ObjectMeta.Name.

func NewKubeStorageClass 

func NewKubeStorageClass(scope constructs.Construct, id *string, props *KubeStorageClassProps) KubeStorageClass

Defines a "io.k8s.api.storage.v1.StorageClass" API object.

type KubeStorageClassList 

type KubeStorageClassList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

StorageClassList is a collection of storage classes.

func NewKubeStorageClassList 

func NewKubeStorageClassList(scope constructs.Construct, id *string, props *KubeStorageClassListProps) KubeStorageClassList

Defines a "io.k8s.api.storage.v1.StorageClassList" API object.

type KubeStorageClassListProps 

type KubeStorageClassListProps struct {
	// items is the list of StorageClasses.
	Items *[]*KubeStorageClassProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

StorageClassList is a collection of storage classes.

type KubeStorageClassProps 

type KubeStorageClassProps struct {
	// provisioner indicates the type of the provisioner.
	Provisioner *string `field:"required" json:"provisioner" yaml:"provisioner"`
	// allowedTopologies restrict the node topologies where volumes can be dynamically provisioned.
	//
	// Each volume plugin defines its own supported topology specifications. An empty TopologySelectorTerm list means there is no topology restriction. This field is only honored by servers that enable the VolumeScheduling feature.
	AllowedTopologies *[]*TopologySelectorTerm `field:"optional" json:"allowedTopologies" yaml:"allowedTopologies"`
	// allowVolumeExpansion shows whether the storage class allow volume expand.
	AllowVolumeExpansion *bool `field:"optional" json:"allowVolumeExpansion" yaml:"allowVolumeExpansion"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// mountOptions controls the mountOptions for dynamically provisioned PersistentVolumes of this storage class.
	//
	// e.g. ["ro", "soft"]. Not validated - mount of the PVs will simply fail if one is invalid.
	MountOptions *[]*string `field:"optional" json:"mountOptions" yaml:"mountOptions"`
	// parameters holds the parameters for the provisioner that should create volumes of this storage class.
	Parameters *map[string]*string `field:"optional" json:"parameters" yaml:"parameters"`
	// reclaimPolicy controls the reclaimPolicy for dynamically provisioned PersistentVolumes of this storage class.
	//
	// Defaults to Delete.
	// Default: Delete.
	//
	ReclaimPolicy *string `field:"optional" json:"reclaimPolicy" yaml:"reclaimPolicy"`
	// volumeBindingMode indicates how PersistentVolumeClaims should be provisioned and bound.
	//
	// When unset, VolumeBindingImmediate is used. This field is only honored by servers that enable the VolumeScheduling feature.
	VolumeBindingMode *string `field:"optional" json:"volumeBindingMode" yaml:"volumeBindingMode"`
}

StorageClass describes the parameters for a class of storage for which PersistentVolumes can be dynamically provisioned.

StorageClasses are non-namespaced; the name of the storage class according to etcd is in ObjectMeta.Name.

type KubeStorageVersionListV1Alpha1 

type KubeStorageVersionListV1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

A list of StorageVersions.

func NewKubeStorageVersionListV1Alpha1 

func NewKubeStorageVersionListV1Alpha1(scope constructs.Construct, id *string, props *KubeStorageVersionListV1Alpha1Props) KubeStorageVersionListV1Alpha1

Defines a "io.k8s.api.apiserverinternal.v1alpha1.StorageVersionList" API object.

type KubeStorageVersionListV1Alpha1Props 

type KubeStorageVersionListV1Alpha1Props struct {
	// Items holds a list of StorageVersion.
	Items *[]*KubeStorageVersionV1Alpha1Props `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

A list of StorageVersions.

type KubeStorageVersionV1Alpha1 

type KubeStorageVersionV1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

Storage version of a specific resource.

func NewKubeStorageVersionV1Alpha1 

func NewKubeStorageVersionV1Alpha1(scope constructs.Construct, id *string, props *KubeStorageVersionV1Alpha1Props) KubeStorageVersionV1Alpha1

Defines a "io.k8s.api.apiserverinternal.v1alpha1.StorageVersion" API object.

type KubeStorageVersionV1Alpha1Props 

type KubeStorageVersionV1Alpha1Props struct {
	// Spec is an empty spec.
	//
	// It is here to comply with Kubernetes API style.
	Spec interface{} `field:"required" json:"spec" yaml:"spec"`
	// The name is <group>.<resource>.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

Storage version of a specific resource.

type KubeSubjectAccessReview 

type KubeSubjectAccessReview interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

SubjectAccessReview checks whether or not a user or group can perform an action.

func NewKubeSubjectAccessReview 

func NewKubeSubjectAccessReview(scope constructs.Construct, id *string, props *KubeSubjectAccessReviewProps) KubeSubjectAccessReview

Defines a "io.k8s.api.authorization.v1.SubjectAccessReview" API object.

type KubeSubjectAccessReviewProps 

type KubeSubjectAccessReviewProps struct {
	// Spec holds information about the request being evaluated.
	Spec *SubjectAccessReviewSpec `field:"required" json:"spec" yaml:"spec"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

SubjectAccessReview checks whether or not a user or group can perform an action.

type KubeTokenRequest 

type KubeTokenRequest interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

TokenRequest requests a token for a given service account.

func NewKubeTokenRequest 

func NewKubeTokenRequest(scope constructs.Construct, id *string, props *KubeTokenRequestProps) KubeTokenRequest

Defines a "io.k8s.api.authentication.v1.TokenRequest" API object.

type KubeTokenRequestProps 

type KubeTokenRequestProps struct {
	// Spec holds information about the request being evaluated.
	Spec *TokenRequestSpec `field:"required" json:"spec" yaml:"spec"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

TokenRequest requests a token for a given service account.

type KubeTokenReview 

type KubeTokenReview interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

TokenReview attempts to authenticate a token to a known user.

Note: TokenReview requests may be cached by the webhook token authenticator plugin in the kube-apiserver.

func NewKubeTokenReview 

func NewKubeTokenReview(scope constructs.Construct, id *string, props *KubeTokenReviewProps) KubeTokenReview

Defines a "io.k8s.api.authentication.v1.TokenReview" API object.

type KubeTokenReviewProps 

type KubeTokenReviewProps struct {
	// Spec holds information about the request being evaluated.
	Spec *TokenReviewSpec `field:"required" json:"spec" yaml:"spec"`
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

TokenReview attempts to authenticate a token to a known user.

Note: TokenReview requests may be cached by the webhook token authenticator plugin in the kube-apiserver.

type KubeValidatingAdmissionPolicyBindingListV1Alpha1 

type KubeValidatingAdmissionPolicyBindingListV1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ValidatingAdmissionPolicyBindingList is a list of ValidatingAdmissionPolicyBinding.

func NewKubeValidatingAdmissionPolicyBindingListV1Alpha1 

func NewKubeValidatingAdmissionPolicyBindingListV1Alpha1(scope constructs.Construct, id *string, props *KubeValidatingAdmissionPolicyBindingListV1Alpha1Props) KubeValidatingAdmissionPolicyBindingListV1Alpha1

Defines a "io.k8s.api.admissionregistration.v1alpha1.ValidatingAdmissionPolicyBindingList" API object.

type KubeValidatingAdmissionPolicyBindingListV1Alpha1Props 

type KubeValidatingAdmissionPolicyBindingListV1Alpha1Props struct {
	// List of PolicyBinding.
	Items *[]*KubeValidatingAdmissionPolicyBindingV1Alpha1Props `field:"optional" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ValidatingAdmissionPolicyBindingList is a list of ValidatingAdmissionPolicyBinding.

type KubeValidatingAdmissionPolicyBindingV1Alpha1 

type KubeValidatingAdmissionPolicyBindingV1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ValidatingAdmissionPolicyBinding binds the ValidatingAdmissionPolicy with paramerized resources.

ValidatingAdmissionPolicyBinding and parameter CRDs together define how cluster administrators configure policies for clusters.

func NewKubeValidatingAdmissionPolicyBindingV1Alpha1 

func NewKubeValidatingAdmissionPolicyBindingV1Alpha1(scope constructs.Construct, id *string, props *KubeValidatingAdmissionPolicyBindingV1Alpha1Props) KubeValidatingAdmissionPolicyBindingV1Alpha1

Defines a "io.k8s.api.admissionregistration.v1alpha1.ValidatingAdmissionPolicyBinding" API object.

type KubeValidatingAdmissionPolicyBindingV1Alpha1Props 

type KubeValidatingAdmissionPolicyBindingV1Alpha1Props struct {
	// Standard object metadata;
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Specification of the desired behavior of the ValidatingAdmissionPolicyBinding.
	Spec *ValidatingAdmissionPolicyBindingSpecV1Alpha1 `field:"optional" json:"spec" yaml:"spec"`
}

ValidatingAdmissionPolicyBinding binds the ValidatingAdmissionPolicy with paramerized resources.

ValidatingAdmissionPolicyBinding and parameter CRDs together define how cluster administrators configure policies for clusters.

type KubeValidatingAdmissionPolicyListV1Alpha1 

type KubeValidatingAdmissionPolicyListV1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ValidatingAdmissionPolicyList is a list of ValidatingAdmissionPolicy.

func NewKubeValidatingAdmissionPolicyListV1Alpha1 

func NewKubeValidatingAdmissionPolicyListV1Alpha1(scope constructs.Construct, id *string, props *KubeValidatingAdmissionPolicyListV1Alpha1Props) KubeValidatingAdmissionPolicyListV1Alpha1

Defines a "io.k8s.api.admissionregistration.v1alpha1.ValidatingAdmissionPolicyList" API object.

type KubeValidatingAdmissionPolicyListV1Alpha1Props 

type KubeValidatingAdmissionPolicyListV1Alpha1Props struct {
	// List of ValidatingAdmissionPolicy.
	Items *[]*KubeValidatingAdmissionPolicyV1Alpha1Props `field:"optional" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ValidatingAdmissionPolicyList is a list of ValidatingAdmissionPolicy.

type KubeValidatingAdmissionPolicyV1Alpha1 

type KubeValidatingAdmissionPolicyV1Alpha1 interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ValidatingAdmissionPolicy describes the definition of an admission validation policy that accepts or rejects an object without changing it.

func NewKubeValidatingAdmissionPolicyV1Alpha1 

func NewKubeValidatingAdmissionPolicyV1Alpha1(scope constructs.Construct, id *string, props *KubeValidatingAdmissionPolicyV1Alpha1Props) KubeValidatingAdmissionPolicyV1Alpha1

Defines a "io.k8s.api.admissionregistration.v1alpha1.ValidatingAdmissionPolicy" API object.

type KubeValidatingAdmissionPolicyV1Alpha1Props 

type KubeValidatingAdmissionPolicyV1Alpha1Props struct {
	// Standard object metadata;
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Specification of the desired behavior of the ValidatingAdmissionPolicy.
	Spec *ValidatingAdmissionPolicySpecV1Alpha1 `field:"optional" json:"spec" yaml:"spec"`
}

ValidatingAdmissionPolicy describes the definition of an admission validation policy that accepts or rejects an object without changing it.

type KubeValidatingWebhookConfiguration 

type KubeValidatingWebhookConfiguration interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ValidatingWebhookConfiguration describes the configuration of and admission webhook that accept or reject and object without changing it.

func NewKubeValidatingWebhookConfiguration 

func NewKubeValidatingWebhookConfiguration(scope constructs.Construct, id *string, props *KubeValidatingWebhookConfigurationProps) KubeValidatingWebhookConfiguration

Defines a "io.k8s.api.admissionregistration.v1.ValidatingWebhookConfiguration" API object.

type KubeValidatingWebhookConfigurationList 

type KubeValidatingWebhookConfigurationList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

ValidatingWebhookConfigurationList is a list of ValidatingWebhookConfiguration.

func NewKubeValidatingWebhookConfigurationList 

func NewKubeValidatingWebhookConfigurationList(scope constructs.Construct, id *string, props *KubeValidatingWebhookConfigurationListProps) KubeValidatingWebhookConfigurationList

Defines a "io.k8s.api.admissionregistration.v1.ValidatingWebhookConfigurationList" API object.

type KubeValidatingWebhookConfigurationListProps 

type KubeValidatingWebhookConfigurationListProps struct {
	// List of ValidatingWebhookConfiguration.
	Items *[]*KubeValidatingWebhookConfigurationProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ValidatingWebhookConfigurationList is a list of ValidatingWebhookConfiguration.

type KubeValidatingWebhookConfigurationProps 

type KubeValidatingWebhookConfigurationProps struct {
	// Standard object metadata;
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Webhooks is a list of webhooks and the affected resources and operations.
	Webhooks *[]*ValidatingWebhook `field:"optional" json:"webhooks" yaml:"webhooks"`
}

ValidatingWebhookConfiguration describes the configuration of and admission webhook that accept or reject and object without changing it.

type KubeVolumeAttachment 

type KubeVolumeAttachment interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

VolumeAttachment captures the intent to attach or detach the specified volume to/from the specified node.

VolumeAttachment objects are non-namespaced.

func NewKubeVolumeAttachment 

func NewKubeVolumeAttachment(scope constructs.Construct, id *string, props *KubeVolumeAttachmentProps) KubeVolumeAttachment

Defines a "io.k8s.api.storage.v1.VolumeAttachment" API object.

type KubeVolumeAttachmentList 

type KubeVolumeAttachmentList interface {
	cdk8s.ApiObject
	// The group portion of the API version (e.g. `authorization.k8s.io`).
	ApiGroup() *string
	// The object's API version (e.g. `authorization.k8s.io/v1`).
	ApiVersion() *string
	// The chart in which this object is defined.
	Chart() cdk8s.Chart
	// The object kind.
	Kind() *string
	// Metadata associated with this API object.
	Metadata() cdk8s.ApiObjectMetadataDefinition
	// The name of the API object.
	//
	// If a name is specified in `metadata.name` this will be the name returned.
	// Otherwise, a name will be generated by calling
	// `Chart.of(this).generatedObjectName(this)`, which by default uses the
	// construct path to generate a DNS-compatible name for the resource.
	Name() *string
	// The tree node.
	Node() constructs.Node
	// Create a dependency between this ApiObject and other constructs.
	//
	// These can be other ApiObjects, Charts, or custom.
	AddDependency(dependencies ...constructs.IConstruct)
	// Applies a set of RFC-6902 JSON-Patch operations to the manifest synthesized for this API object.
	//
	// Example:
	//     kubePod.addJsonPatch(JsonPatch.replace('/spec/enableServiceLinks', true));
	//
	AddJsonPatch(ops ...cdk8s.JsonPatch)
	// Renders the object to Kubernetes JSON.
	ToJson() interface{}
	// Returns a string representation of this construct.
	ToString() *string
}

VolumeAttachmentList is a collection of VolumeAttachment objects.

func NewKubeVolumeAttachmentList 

func NewKubeVolumeAttachmentList(scope constructs.Construct, id *string, props *KubeVolumeAttachmentListProps) KubeVolumeAttachmentList

Defines a "io.k8s.api.storage.v1.VolumeAttachmentList" API object.

type KubeVolumeAttachmentListProps 

type KubeVolumeAttachmentListProps struct {
	// items is the list of VolumeAttachments.
	Items *[]*KubeVolumeAttachmentProps `field:"required" json:"items" yaml:"items"`
	// Standard list metadata More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata.
	Metadata *ListMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

VolumeAttachmentList is a collection of VolumeAttachment objects.

type KubeVolumeAttachmentProps 

type KubeVolumeAttachmentProps struct {
	// spec represents specification of the desired attach/detach volume behavior.
	//
	// Populated by the Kubernetes system.
	Spec *VolumeAttachmentSpec `field:"required" json:"spec" yaml:"spec"`
	// Standard object metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

VolumeAttachment captures the intent to attach or detach the specified volume to/from the specified node.

VolumeAttachment objects are non-namespaced.

type LabelSelector 

type LabelSelector struct {
	// matchExpressions is a list of label selector requirements.
	//
	// The requirements are ANDed.
	MatchExpressions *[]*LabelSelectorRequirement `field:"optional" json:"matchExpressions" yaml:"matchExpressions"`
	// matchLabels is a map of {key,value} pairs.
	//
	// A single {key,value} in the matchLabels map is equivalent to an element of matchExpressions, whose key field is "key", the operator is "In", and the values array contains only "value". The requirements are ANDed.
	MatchLabels *map[string]*string `field:"optional" json:"matchLabels" yaml:"matchLabels"`
}

A label selector is a label query over a set of resources.

The result of matchLabels and matchExpressions are ANDed. An empty label selector matches all objects. A null label selector matches no objects.

type LabelSelectorRequirement 

type LabelSelectorRequirement struct {
	// key is the label key that the selector applies to.
	Key *string `field:"required" json:"key" yaml:"key"`
	// operator represents a key's relationship to a set of values.
	//
	// Valid operators are In, NotIn, Exists and DoesNotExist.
	Operator *string `field:"required" json:"operator" yaml:"operator"`
	// values is an array of string values.
	//
	// If the operator is In or NotIn, the values array must be non-empty. If the operator is Exists or DoesNotExist, the values array must be empty. This array is replaced during a strategic merge patch.
	Values *[]*string `field:"optional" json:"values" yaml:"values"`
}

A label selector requirement is a selector that contains values, a key, and an operator that relates the key and values.

type LeaseSpec 

type LeaseSpec struct {
	// acquireTime is a time when the current lease was acquired.
	AcquireTime *time.Time `field:"optional" json:"acquireTime" yaml:"acquireTime"`
	// holderIdentity contains the identity of the holder of a current lease.
	HolderIdentity *string `field:"optional" json:"holderIdentity" yaml:"holderIdentity"`
	// leaseDurationSeconds is a duration that candidates for a lease need to wait to force acquire it.
	//
	// This is measure against time of last observed renewTime.
	LeaseDurationSeconds *float64 `field:"optional" json:"leaseDurationSeconds" yaml:"leaseDurationSeconds"`
	// leaseTransitions is the number of transitions of a lease between holders.
	LeaseTransitions *float64 `field:"optional" json:"leaseTransitions" yaml:"leaseTransitions"`
	// renewTime is a time when the current holder of a lease has last updated the lease.
	RenewTime *time.Time `field:"optional" json:"renewTime" yaml:"renewTime"`
}

LeaseSpec is a specification of a Lease.

type Lifecycle 

type Lifecycle struct {
	// PostStart is called immediately after a container is created.
	//
	// If the handler fails, the container is terminated and restarted according to its restart policy. Other management of the container blocks until the hook completes. More info: https://kubernetes.io/docs/concepts/containers/container-lifecycle-hooks/#container-hooks
	PostStart *LifecycleHandler `field:"optional" json:"postStart" yaml:"postStart"`
	// PreStop is called immediately before a container is terminated due to an API request or management event such as liveness/startup probe failure, preemption, resource contention, etc.
	//
	// The handler is not called if the container crashes or exits. The Pod's termination grace period countdown begins before the PreStop hook is executed. Regardless of the outcome of the handler, the container will eventually terminate within the Pod's termination grace period (unless delayed by finalizers). Other management of the container blocks until the hook completes or until the termination grace period is reached. More info: https://kubernetes.io/docs/concepts/containers/container-lifecycle-hooks/#container-hooks
	PreStop *LifecycleHandler `field:"optional" json:"preStop" yaml:"preStop"`
}

Lifecycle describes actions that the management system should take in response to container lifecycle events.

For the PostStart and PreStop lifecycle handlers, management of the container blocks until the action is complete, unless the container process fails, in which case the handler is aborted.

type LifecycleHandler 

type LifecycleHandler struct {
	// Exec specifies the action to take.
	Exec *ExecAction `field:"optional" json:"exec" yaml:"exec"`
	// HTTPGet specifies the http request to perform.
	HttpGet *HttpGetAction `field:"optional" json:"httpGet" yaml:"httpGet"`
	// Deprecated.
	//
	// TCPSocket is NOT supported as a LifecycleHandler and kept for the backward compatibility. There are no validation of this field and lifecycle hooks will fail in runtime when tcp handler is specified.
	TcpSocket *TcpSocketAction `field:"optional" json:"tcpSocket" yaml:"tcpSocket"`
}

LifecycleHandler defines a specific action that should be taken in a lifecycle hook.

One and only one of the fields, except TCPSocket must be specified.

type LimitRangeItem 

type LimitRangeItem struct {
	// Type of resource that this limit applies to.
	Type *string `field:"required" json:"type" yaml:"type"`
	// Default resource requirement limit value by resource name if resource limit is omitted.
	Default *map[string]Quantity `field:"optional" json:"default" yaml:"default"`
	// DefaultRequest is the default resource requirement request value by resource name if resource request is omitted.
	DefaultRequest *map[string]Quantity `field:"optional" json:"defaultRequest" yaml:"defaultRequest"`
	// Max usage constraints on this kind by resource name.
	Max *map[string]Quantity `field:"optional" json:"max" yaml:"max"`
	// MaxLimitRequestRatio if specified, the named resource must have a request and limit that are both non-zero where limit divided by request is less than or equal to the enumerated value;
	//
	// this represents the max burst for the named resource.
	MaxLimitRequestRatio *map[string]Quantity `field:"optional" json:"maxLimitRequestRatio" yaml:"maxLimitRequestRatio"`
	// Min usage constraints on this kind by resource name.
	Min *map[string]Quantity `field:"optional" json:"min" yaml:"min"`
}

LimitRangeItem defines a min/max usage limit for any resource that matches on kind.

type LimitRangeSpec 

type LimitRangeSpec struct {
	// Limits is the list of LimitRangeItem objects that are enforced.
	Limits *[]*LimitRangeItem `field:"required" json:"limits" yaml:"limits"`
}

LimitRangeSpec defines a min/max usage limit for resources that match on kind.

type LimitResponseV1Beta2 

type LimitResponseV1Beta2 struct {
	// `type` is "Queue" or "Reject".
	//
	// "Queue" means that requests that can not be executed upon arrival are held in a queue until they can be executed or a queuing limit is reached. "Reject" means that requests that can not be executed upon arrival are rejected. Required.
	Type *string `field:"required" json:"type" yaml:"type"`
	// `queuing` holds the configuration parameters for queuing.
	//
	// This field may be non-empty only if `type` is `"Queue"`.
	Queuing *QueuingConfigurationV1Beta2 `field:"optional" json:"queuing" yaml:"queuing"`
}

LimitResponse defines how to handle requests that can not be executed right now.

type LimitResponseV1Beta3 

type LimitResponseV1Beta3 struct {
	// `type` is "Queue" or "Reject".
	//
	// "Queue" means that requests that can not be executed upon arrival are held in a queue until they can be executed or a queuing limit is reached. "Reject" means that requests that can not be executed upon arrival are rejected. Required.
	Type *string `field:"required" json:"type" yaml:"type"`
	// `queuing` holds the configuration parameters for queuing.
	//
	// This field may be non-empty only if `type` is `"Queue"`.
	Queuing *QueuingConfigurationV1Beta3 `field:"optional" json:"queuing" yaml:"queuing"`
}

LimitResponse defines how to handle requests that can not be executed right now.

type LimitedPriorityLevelConfigurationV1Beta2 

type LimitedPriorityLevelConfigurationV1Beta2 struct {
	// `assuredConcurrencyShares` (ACS) configures the execution limit, which is a limit on the number of requests of this priority level that may be exeucting at a given time.
	//
	// ACS must be a positive number. The server's concurrency limit (SCL) is divided among the concurrency-controlled priority levels in proportion to their assured concurrency shares. This produces the assured concurrency value (ACV) --- the number of requests that may be executing at a time --- for each such priority level:
	//
	// ACV(l) = ceil( SCL * ACS(l) / ( sum[priority levels k] ACS(k) ) )
	//
	// bigger numbers of ACS mean more reserved concurrent requests (at the expense of every other PL). This field has a default value of 30.
	AssuredConcurrencyShares *float64 `field:"optional" json:"assuredConcurrencyShares" yaml:"assuredConcurrencyShares"`
	// `borrowingLimitPercent`, if present, configures a limit on how many seats this priority level can borrow from other priority levels.
	//
	// The limit is known as this level's BorrowingConcurrencyLimit (BorrowingCL) and is a limit on the total number of seats that this level may borrow at any one time. This field holds the ratio of that limit to the level's nominal concurrency limit. When this field is non-nil, it must hold a non-negative integer and the limit is calculated as follows.
	//
	// BorrowingCL(i) = round( NominalCL(i) * borrowingLimitPercent(i)/100.0 )
	//
	// The value of this field can be more than 100, implying that this priority level can borrow a number of seats that is greater than its own nominal concurrency limit (NominalCL). When this field is left `nil`, the limit is effectively infinite.
	BorrowingLimitPercent *float64 `field:"optional" json:"borrowingLimitPercent" yaml:"borrowingLimitPercent"`
	// `lendablePercent` prescribes the fraction of the level's NominalCL that can be borrowed by other priority levels.
	//
	// The value of this field must be between 0 and 100, inclusive, and it defaults to 0. The number of seats that other levels can borrow from this level, known as this level's LendableConcurrencyLimit (LendableCL), is defined as follows.
	//
	// LendableCL(i) = round( NominalCL(i) * lendablePercent(i)/100.0 )
	LendablePercent *float64 `field:"optional" json:"lendablePercent" yaml:"lendablePercent"`
	// `limitResponse` indicates what to do with requests that can not be executed right now.
	LimitResponse *LimitResponseV1Beta2 `field:"optional" json:"limitResponse" yaml:"limitResponse"`
}

LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits.

It addresses two issues: - How are requests for this priority level limited? - What should be done with requests that exceed the limit?

type LimitedPriorityLevelConfigurationV1Beta3 

type LimitedPriorityLevelConfigurationV1Beta3 struct {
	// `borrowingLimitPercent`, if present, configures a limit on how many seats this priority level can borrow from other priority levels.
	//
	// The limit is known as this level's BorrowingConcurrencyLimit (BorrowingCL) and is a limit on the total number of seats that this level may borrow at any one time. This field holds the ratio of that limit to the level's nominal concurrency limit. When this field is non-nil, it must hold a non-negative integer and the limit is calculated as follows.
	//
	// BorrowingCL(i) = round( NominalCL(i) * borrowingLimitPercent(i)/100.0 )
	//
	// The value of this field can be more than 100, implying that this priority level can borrow a number of seats that is greater than its own nominal concurrency limit (NominalCL). When this field is left `nil`, the limit is effectively infinite.
	BorrowingLimitPercent *float64 `field:"optional" json:"borrowingLimitPercent" yaml:"borrowingLimitPercent"`
	// `lendablePercent` prescribes the fraction of the level's NominalCL that can be borrowed by other priority levels.
	//
	// The value of this field must be between 0 and 100, inclusive, and it defaults to 0. The number of seats that other levels can borrow from this level, known as this level's LendableConcurrencyLimit (LendableCL), is defined as follows.
	//
	// LendableCL(i) = round( NominalCL(i) * lendablePercent(i)/100.0 )
	LendablePercent *float64 `field:"optional" json:"lendablePercent" yaml:"lendablePercent"`
	// `limitResponse` indicates what to do with requests that can not be executed right now.
	LimitResponse *LimitResponseV1Beta3 `field:"optional" json:"limitResponse" yaml:"limitResponse"`
	// `nominalConcurrencyShares` (NCS) contributes to the computation of the NominalConcurrencyLimit (NominalCL) of this level.
	//
	// This is the number of execution seats available at this priority level. This is used both for requests dispatched from this priority level as well as requests dispatched from other priority levels borrowing seats from this level. The server's concurrency limit (ServerCL) is divided among the Limited priority levels in proportion to their NCS values:
	//
	// NominalCL(i)  = ceil( ServerCL * NCS(i) / sum_ncs ) sum_ncs = sum[limited priority level k] NCS(k)
	//
	// Bigger numbers mean a larger nominal concurrency limit, at the expense of every other Limited priority level. This field has a default value of 30.
	NominalConcurrencyShares *float64 `field:"optional" json:"nominalConcurrencyShares" yaml:"nominalConcurrencyShares"`
}

LimitedPriorityLevelConfiguration specifies how to handle requests that are subject to limits.

It addresses two issues: - How are requests for this priority level limited? - What should be done with requests that exceed the limit?

type ListMeta 

type ListMeta struct {
	// continue may be set if the user set a limit on the number of items returned, and indicates that the server has more data available.
	//
	// The value is opaque and may be used to issue another request to the endpoint that served this list to retrieve the next set of available objects. Continuing a consistent list may not be possible if the server configuration has changed or more than a few minutes have passed. The resourceVersion field returned when using this continue value will be identical to the value in the first response, unless you have received this token from an error message.
	Continue *string `field:"optional" json:"continue" yaml:"continue"`
	// remainingItemCount is the number of subsequent items in the list which are not included in this list response.
	//
	// If the list request contained label or field selectors, then the number of remaining items is unknown and the field will be left unset and omitted during serialization. If the list is complete (either because it is not chunking or because this is the last chunk), then there are no more remaining items and this field will be left unset and omitted during serialization. Servers older than v1.15 do not set this field. The intended use of the remainingItemCount is *estimating* the size of a collection. Clients should not rely on the remainingItemCount to be set or to be exact.
	RemainingItemCount *float64 `field:"optional" json:"remainingItemCount" yaml:"remainingItemCount"`
	// String that identifies the server's internal version of this object that can be used by clients to determine when objects have changed.
	//
	// Value must be treated as opaque by clients and passed unmodified back to the server. Populated by the system. Read-only. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#concurrency-control-and-consistency
	ResourceVersion *string `field:"optional" json:"resourceVersion" yaml:"resourceVersion"`
	// Deprecated: selfLink is a legacy read-only field that is no longer populated by the system.
	SelfLink *string `field:"optional" json:"selfLink" yaml:"selfLink"`
}

ListMeta describes metadata that synthetic resources must have, including lists and various status objects.

A resource may have only one of {ObjectMeta, ListMeta}.

type LocalObjectReference 

type LocalObjectReference struct {
	// Name of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
	Name *string `field:"optional" json:"name" yaml:"name"`
}

LocalObjectReference contains enough information to let you locate the referenced object inside the same namespace.

type LocalVolumeSource 

type LocalVolumeSource struct {
	// path of the full path to the volume on the node.
	//
	// It can be either a directory or block device (disk, partition, ...).
	Path *string `field:"required" json:"path" yaml:"path"`
	// fsType is the filesystem type to mount.
	//
	// It applies only when the Path is a block device. Must be a filesystem type supported by the host operating system. Ex. "ext4", "xfs", "ntfs". The default value is to auto-select a filesystem if unspecified.
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
}

Local represents directly-attached storage with node affinity (Beta feature).

type ManagedFieldsEntry 

type ManagedFieldsEntry struct {
	// APIVersion defines the version of this resource that this field set applies to.
	//
	// The format is "group/version" just like the top-level APIVersion field. It is necessary to track the version of a field set because it cannot be automatically converted.
	ApiVersion *string `field:"optional" json:"apiVersion" yaml:"apiVersion"`
	// FieldsType is the discriminator for the different fields format and version.
	//
	// There is currently only one possible value: "FieldsV1".
	FieldsType *string `field:"optional" json:"fieldsType" yaml:"fieldsType"`
	// FieldsV1 holds the first JSON version format as described in the "FieldsV1" type.
	FieldsV1 interface{} `field:"optional" json:"fieldsV1" yaml:"fieldsV1"`
	// Manager is an identifier of the workflow managing these fields.
	Manager *string `field:"optional" json:"manager" yaml:"manager"`
	// Operation is the type of operation which lead to this ManagedFieldsEntry being created.
	//
	// The only valid values for this field are 'Apply' and 'Update'.
	Operation *string `field:"optional" json:"operation" yaml:"operation"`
	// Subresource is the name of the subresource used to update that object, or empty string if the object was updated through the main resource.
	//
	// The value of this field is used to distinguish between managers, even if they share the same name. For example, a status update will be distinct from a regular update using the same manager name. Note that the APIVersion field is not related to the Subresource field and it always corresponds to the version of the main resource.
	Subresource *string `field:"optional" json:"subresource" yaml:"subresource"`
	// Time is the timestamp of when the ManagedFields entry was added.
	//
	// The timestamp will also be updated if a field is added, the manager changes any of the owned fields value or removes a field. The timestamp does not update when a field is removed from the entry because another manager took it over.
	Time *time.Time `field:"optional" json:"time" yaml:"time"`
}

ManagedFieldsEntry is a workflow-id, a FieldSet and the group version of the resource that the fieldset applies to.

type MatchCondition 

type MatchCondition struct {
	// Expression represents the expression which will be evaluated by CEL.
	//
	// Must evaluate to bool. CEL expressions have access to the contents of the AdmissionRequest and Authorizer, organized into CEL variables:
	//
	// 'object' - The object from the incoming request. The value is null for DELETE requests. 'oldObject' - The existing object. The value is null for CREATE requests. 'request' - Attributes of the admission request(/pkg/apis/admission/types.go#AdmissionRequest). 'authorizer' - A CEL Authorizer. May be used to perform authorization checks for the principal (user or service account) of the request.
	// See https://pkg.go.dev/k8s.io/apiserver/pkg/cel/library#Authz
	// 'authorizer.requestResource' - A CEL ResourceCheck constructed from the 'authorizer' and configured with the
	// request resource.
	// Documentation on CEL: https://kubernetes.io/docs/reference/using-api/cel/
	//
	// Required.
	Expression *string `field:"required" json:"expression" yaml:"expression"`
	// Name is an identifier for this match condition, used for strategic merging of MatchConditions, as well as providing an identifier for logging purposes.
	//
	// A good name should be descriptive of the associated expression. Name must be a qualified name consisting of alphanumeric characters, '-', '_' or '.', and must start and end with an alphanumeric character (e.g. 'MyName',  or 'my.name',  or '123-abc', regex used for validation is '([A-Za-z0-9][-A-Za-z0-9_.]*)?[A-Za-z0-9]') with an optional DNS subdomain prefix and '/' (e.g. 'example.com/MyName')
	//
	// Required.
	Name *string `field:"required" json:"name" yaml:"name"`
}

MatchCondition represents a condition which must by fulfilled for a request to be sent to a webhook.

type MatchConditionV1Alpha1 

type MatchConditionV1Alpha1 struct {
	// Expression represents the expression which will be evaluated by CEL.
	//
	// Must evaluate to bool. CEL expressions have access to the contents of the AdmissionRequest and Authorizer, organized into CEL variables:
	//
	// 'object' - The object from the incoming request. The value is null for DELETE requests. 'oldObject' - The existing object. The value is null for CREATE requests. 'request' - Attributes of the admission request(/pkg/apis/admission/types.go#AdmissionRequest). 'authorizer' - A CEL Authorizer. May be used to perform authorization checks for the principal (user or service account) of the request.
	// See https://pkg.go.dev/k8s.io/apiserver/pkg/cel/library#Authz
	// 'authorizer.requestResource' - A CEL ResourceCheck constructed from the 'authorizer' and configured with the
	// request resource.
	// Documentation on CEL: https://kubernetes.io/docs/reference/using-api/cel/
	//
	// Required.
	Expression *string `field:"required" json:"expression" yaml:"expression"`
	// Name is an identifier for this match condition, used for strategic merging of MatchConditions, as well as providing an identifier for logging purposes.
	//
	// A good name should be descriptive of the associated expression. Name must be a qualified name consisting of alphanumeric characters, '-', '_' or '.', and must start and end with an alphanumeric character (e.g. 'MyName',  or 'my.name',  or '123-abc', regex used for validation is '([A-Za-z0-9][-A-Za-z0-9_.]*)?[A-Za-z0-9]') with an optional DNS subdomain prefix and '/' (e.g. 'example.com/MyName')
	//
	// Required.
	Name *string `field:"required" json:"name" yaml:"name"`
}

type MatchResourcesV1Alpha1 

type MatchResourcesV1Alpha1 struct {
	// ExcludeResourceRules describes what operations on what resources/subresources the ValidatingAdmissionPolicy should not care about.
	//
	// The exclude rules take precedence over include rules (if a resource matches both, it is excluded).
	ExcludeResourceRules *[]*NamedRuleWithOperationsV1Alpha1 `field:"optional" json:"excludeResourceRules" yaml:"excludeResourceRules"`
	// matchPolicy defines how the "MatchResources" list is used to match incoming requests. Allowed values are "Exact" or "Equivalent".
	//
	// - Exact: match a request only if it exactly matches a specified rule. For example, if deployments can be modified via apps/v1, apps/v1beta1, and extensions/v1beta1, but "rules" only included `apiGroups:["apps"], apiVersions:["v1"], resources: ["deployments"]`, a request to apps/v1beta1 or extensions/v1beta1 would not be sent to the ValidatingAdmissionPolicy.
	//
	// - Equivalent: match a request if modifies a resource listed in rules, even via another API group or version. For example, if deployments can be modified via apps/v1, apps/v1beta1, and extensions/v1beta1, and "rules" only included `apiGroups:["apps"], apiVersions:["v1"], resources: ["deployments"]`, a request to apps/v1beta1 or extensions/v1beta1 would be converted to apps/v1 and sent to the ValidatingAdmissionPolicy.
	//
	// Defaults to "Equivalent".
	// Default: Equivalent".
	//
	MatchPolicy *string `field:"optional" json:"matchPolicy" yaml:"matchPolicy"`
	// NamespaceSelector decides whether to run the admission control policy on an object based on whether the namespace for that object matches the selector.
	//
	// If the object itself is a namespace, the matching is performed on object.metadata.labels. If the object is another cluster scoped resource, it never skips the policy.
	//
	// For example, to run the webhook on any objects whose namespace is not associated with "runlevel" of "0" or "1";  you will set the selector as follows: "namespaceSelector": {
	// "matchExpressions": [
	// {
	// "key": "runlevel",
	// "operator": "NotIn",
	// "values": [
	// "0",
	// "1"
	// ]
	// }
	// ]
	// }
	//
	// If instead you want to only run the policy on any objects whose namespace is associated with the "environment" of "prod" or "staging"; you will set the selector as follows: "namespaceSelector": {
	// "matchExpressions": [
	// {
	// "key": "environment",
	// "operator": "In",
	// "values": [
	// "prod",
	// "staging"
	// ]
	// }
	// ]
	// }
	//
	// See https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/ for more examples of label selectors.
	//
	// Default to the empty LabelSelector, which matches everything.
	// Default: the empty LabelSelector, which matches everything.
	//
	NamespaceSelector *LabelSelector `field:"optional" json:"namespaceSelector" yaml:"namespaceSelector"`
	// ObjectSelector decides whether to run the validation based on if the object has matching labels.
	//
	// objectSelector is evaluated against both the oldObject and newObject that would be sent to the cel validation, and is considered to match if either object matches the selector. A null object (oldObject in the case of create, or newObject in the case of delete) or an object that cannot have labels (like a DeploymentRollback or a PodProxyOptions object) is not considered to match. Use the object selector only if the webhook is opt-in, because end users may skip the admission webhook by setting the labels. Default to the empty LabelSelector, which matches everything.
	// Default: the empty LabelSelector, which matches everything.
	//
	ObjectSelector *LabelSelector `field:"optional" json:"objectSelector" yaml:"objectSelector"`
	// ResourceRules describes what operations on what resources/subresources the ValidatingAdmissionPolicy matches.
	//
	// The policy cares about an operation if it matches _any_ Rule.
	ResourceRules *[]*NamedRuleWithOperationsV1Alpha1 `field:"optional" json:"resourceRules" yaml:"resourceRules"`
}

MatchResources decides whether to run the admission control policy on an object based on whether it meets the match criteria.

The exclude rules take precedence over include rules (if a resource matches both, it is excluded).

type MetricIdentifierV2 

type MetricIdentifierV2 struct {
	// name is the name of the given metric.
	Name *string `field:"required" json:"name" yaml:"name"`
	// selector is the string-encoded form of a standard kubernetes label selector for the given metric When set, it is passed as an additional parameter to the metrics server for more specific metrics scoping.
	//
	// When unset, just the metricName will be used to gather metrics.
	Selector *LabelSelector `field:"optional" json:"selector" yaml:"selector"`
}

MetricIdentifier defines the name and optionally selector for a metric.

type MetricSpecV2 

type MetricSpecV2 struct {
	// type is the type of metric source.
	//
	// It should be one of "ContainerResource", "External", "Object", "Pods" or "Resource", each mapping to a matching field in the object. Note: "ContainerResource" type is available on when the feature-gate HPAContainerMetrics is enabled
	Type *string `field:"required" json:"type" yaml:"type"`
	// containerResource refers to a resource metric (such as those specified in requests and limits) known to Kubernetes describing a single container in each pod of the current scale target (e.g. CPU or memory). Such metrics are built in to Kubernetes, and have special scaling options on top of those available to normal per-pod metrics using the "pods" source. This is an alpha feature and can be enabled by the HPAContainerMetrics feature flag.
	ContainerResource *ContainerResourceMetricSourceV2 `field:"optional" json:"containerResource" yaml:"containerResource"`
	// external refers to a global metric that is not associated with any Kubernetes object.
	//
	// It allows autoscaling based on information coming from components running outside of cluster (for example length of queue in cloud messaging service, or QPS from loadbalancer running outside of cluster).
	External *ExternalMetricSourceV2 `field:"optional" json:"external" yaml:"external"`
	// object refers to a metric describing a single kubernetes object (for example, hits-per-second on an Ingress object).
	Object *ObjectMetricSourceV2 `field:"optional" json:"object" yaml:"object"`
	// pods refers to a metric describing each pod in the current scale target (for example, transactions-processed-per-second).
	//
	// The values will be averaged together before being compared to the target value.
	Pods *PodsMetricSourceV2 `field:"optional" json:"pods" yaml:"pods"`
	// resource refers to a resource metric (such as those specified in requests and limits) known to Kubernetes describing each pod in the current scale target (e.g. CPU or memory). Such metrics are built in to Kubernetes, and have special scaling options on top of those available to normal per-pod metrics using the "pods" source.
	Resource *ResourceMetricSourceV2 `field:"optional" json:"resource" yaml:"resource"`
}

MetricSpec specifies how to scale based on a single metric (only `type` and one other matching field should be set at once).

type MetricTargetV2 

type MetricTargetV2 struct {
	// type represents whether the metric type is Utilization, Value, or AverageValue.
	Type *string `field:"required" json:"type" yaml:"type"`
	// averageUtilization is the target value of the average of the resource metric across all relevant pods, represented as a percentage of the requested value of the resource for the pods.
	//
	// Currently only valid for Resource metric source type.
	AverageUtilization *float64 `field:"optional" json:"averageUtilization" yaml:"averageUtilization"`
	// averageValue is the target value of the average of the metric across all relevant pods (as a quantity).
	AverageValue Quantity `field:"optional" json:"averageValue" yaml:"averageValue"`
	// value is the target value of the metric (as a quantity).
	Value Quantity `field:"optional" json:"value" yaml:"value"`
}

MetricTarget defines the target value, average value, or average utilization of a specific metric.

type MutatingWebhook 

type MutatingWebhook struct {
	// AdmissionReviewVersions is an ordered list of preferred `AdmissionReview` versions the Webhook expects.
	//
	// API server will try to use first version in the list which it supports. If none of the versions specified in this list supported by API server, validation will fail for this object. If a persisted webhook configuration specifies allowed versions and does not include any versions known to the API Server, calls to the webhook will fail and be subject to the failure policy.
	AdmissionReviewVersions *[]*string `field:"required" json:"admissionReviewVersions" yaml:"admissionReviewVersions"`
	// ClientConfig defines how to communicate with the hook.
	//
	// Required.
	ClientConfig *WebhookClientConfig `field:"required" json:"clientConfig" yaml:"clientConfig"`
	// The name of the admission webhook.
	//
	// Name should be fully qualified, e.g., imagepolicy.kubernetes.io, where "imagepolicy" is the name of the webhook, and kubernetes.io is the name of the organization. Required.
	Name *string `field:"required" json:"name" yaml:"name"`
	// SideEffects states whether this webhook has side effects.
	//
	// Acceptable values are: None, NoneOnDryRun (webhooks created via v1beta1 may also specify Some or Unknown). Webhooks with side effects MUST implement a reconciliation system, since a request may be rejected by a future step in the admission chain and the side effects therefore need to be undone. Requests with the dryRun attribute will be auto-rejected if they match a webhook with sideEffects == Unknown or Some.
	SideEffects *string `field:"required" json:"sideEffects" yaml:"sideEffects"`
	// FailurePolicy defines how unrecognized errors from the admission endpoint are handled - allowed values are Ignore or Fail.
	//
	// Defaults to Fail.
	// Default: Fail.
	//
	FailurePolicy *string `field:"optional" json:"failurePolicy" yaml:"failurePolicy"`
	// MatchConditions is a list of conditions that must be met for a request to be sent to this webhook.
	//
	// Match conditions filter requests that have already been matched by the rules, namespaceSelector, and objectSelector. An empty list of matchConditions matches all requests. There are a maximum of 64 match conditions allowed.
	//
	// The exact matching logic is (in order):
	// 1. If ANY matchCondition evaluates to FALSE, the webhook is skipped.
	// 2. If ALL matchConditions evaluate to TRUE, the webhook is called.
	// 3. If any matchCondition evaluates to an error (but none are FALSE):
	// - If failurePolicy=Fail, reject the request
	// - If failurePolicy=Ignore, the error is ignored and the webhook is skipped
	//
	// This is an alpha feature and managed by the AdmissionWebhookMatchConditions feature gate.
	MatchConditions *[]*MatchCondition `field:"optional" json:"matchConditions" yaml:"matchConditions"`
	// matchPolicy defines how the "rules" list is used to match incoming requests. Allowed values are "Exact" or "Equivalent".
	//
	// - Exact: match a request only if it exactly matches a specified rule. For example, if deployments can be modified via apps/v1, apps/v1beta1, and extensions/v1beta1, but "rules" only included `apiGroups:["apps"], apiVersions:["v1"], resources: ["deployments"]`, a request to apps/v1beta1 or extensions/v1beta1 would not be sent to the webhook.
	//
	// - Equivalent: match a request if modifies a resource listed in rules, even via another API group or version. For example, if deployments can be modified via apps/v1, apps/v1beta1, and extensions/v1beta1, and "rules" only included `apiGroups:["apps"], apiVersions:["v1"], resources: ["deployments"]`, a request to apps/v1beta1 or extensions/v1beta1 would be converted to apps/v1 and sent to the webhook.
	//
	// Defaults to "Equivalent".
	// Default: Equivalent".
	//
	MatchPolicy *string `field:"optional" json:"matchPolicy" yaml:"matchPolicy"`
	// NamespaceSelector decides whether to run the webhook on an object based on whether the namespace for that object matches the selector.
	//
	// If the object itself is a namespace, the matching is performed on object.metadata.labels. If the object is another cluster scoped resource, it never skips the webhook.
	//
	// For example, to run the webhook on any objects whose namespace is not associated with "runlevel" of "0" or "1";  you will set the selector as follows: "namespaceSelector": {
	// "matchExpressions": [
	// {
	// "key": "runlevel",
	// "operator": "NotIn",
	// "values": [
	// "0",
	// "1"
	// ]
	// }
	// ]
	// }
	//
	// If instead you want to only run the webhook on any objects whose namespace is associated with the "environment" of "prod" or "staging"; you will set the selector as follows: "namespaceSelector": {
	// "matchExpressions": [
	// {
	// "key": "environment",
	// "operator": "In",
	// "values": [
	// "prod",
	// "staging"
	// ]
	// }
	// ]
	// }
	//
	// See https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/ for more examples of label selectors.
	//
	// Default to the empty LabelSelector, which matches everything.
	// Default: the empty LabelSelector, which matches everything.
	//
	NamespaceSelector *LabelSelector `field:"optional" json:"namespaceSelector" yaml:"namespaceSelector"`
	// ObjectSelector decides whether to run the webhook based on if the object has matching labels.
	//
	// objectSelector is evaluated against both the oldObject and newObject that would be sent to the webhook, and is considered to match if either object matches the selector. A null object (oldObject in the case of create, or newObject in the case of delete) or an object that cannot have labels (like a DeploymentRollback or a PodProxyOptions object) is not considered to match. Use the object selector only if the webhook is opt-in, because end users may skip the admission webhook by setting the labels. Default to the empty LabelSelector, which matches everything.
	// Default: the empty LabelSelector, which matches everything.
	//
	ObjectSelector *LabelSelector `field:"optional" json:"objectSelector" yaml:"objectSelector"`
	// reinvocationPolicy indicates whether this webhook should be called multiple times as part of a single admission evaluation.
	//
	// Allowed values are "Never" and "IfNeeded".
	//
	// Never: the webhook will not be called more than once in a single admission evaluation.
	//
	// IfNeeded: the webhook will be called at least one additional time as part of the admission evaluation if the object being admitted is modified by other admission plugins after the initial webhook call. Webhooks that specify this option *must* be idempotent, able to process objects they previously admitted. Note: * the number of additional invocations is not guaranteed to be exactly one. * if additional invocations result in further modifications to the object, webhooks are not guaranteed to be invoked again. * webhooks that use this option may be reordered to minimize the number of additional invocations. * to validate an object after all mutations are guaranteed complete, use a validating admission webhook instead.
	//
	// Defaults to "Never".
	// Default: Never".
	//
	ReinvocationPolicy *string `field:"optional" json:"reinvocationPolicy" yaml:"reinvocationPolicy"`
	// Rules describes what operations on what resources/subresources the webhook cares about.
	//
	// The webhook cares about an operation if it matches _any_ Rule. However, in order to prevent ValidatingAdmissionWebhooks and MutatingAdmissionWebhooks from putting the cluster in a state which cannot be recovered from without completely disabling the plugin, ValidatingAdmissionWebhooks and MutatingAdmissionWebhooks are never called on admission requests for ValidatingWebhookConfiguration and MutatingWebhookConfiguration objects.
	Rules *[]*RuleWithOperations `field:"optional" json:"rules" yaml:"rules"`
	// TimeoutSeconds specifies the timeout for this webhook.
	//
	// After the timeout passes, the webhook call will be ignored or the API call will fail based on the failure policy. The timeout value must be between 1 and 30 seconds. Default to 10 seconds.
	// Default: 10 seconds.
	//
	TimeoutSeconds *float64 `field:"optional" json:"timeoutSeconds" yaml:"timeoutSeconds"`
}

MutatingWebhook describes an admission webhook and the resources and operations it applies to.

type NamedRuleWithOperationsV1Alpha1 

type NamedRuleWithOperationsV1Alpha1 struct {
	// APIGroups is the API groups the resources belong to.
	//
	// '*' is all groups. If '*' is present, the length of the slice must be one. Required.
	ApiGroups *[]*string `field:"optional" json:"apiGroups" yaml:"apiGroups"`
	// APIVersions is the API versions the resources belong to.
	//
	// '*' is all versions. If '*' is present, the length of the slice must be one. Required.
	ApiVersions *[]*string `field:"optional" json:"apiVersions" yaml:"apiVersions"`
	// Operations is the operations the admission hook cares about - CREATE, UPDATE, DELETE, CONNECT or * for all of those operations and any future admission operations that are added.
	//
	// If '*' is present, the length of the slice must be one. Required.
	Operations *[]*string `field:"optional" json:"operations" yaml:"operations"`
	// ResourceNames is an optional white list of names that the rule applies to.
	//
	// An empty set means that everything is allowed.
	ResourceNames *[]*string `field:"optional" json:"resourceNames" yaml:"resourceNames"`
	// Resources is a list of resources this rule applies to.
	//
	// For example: 'pods' means pods. 'pods/log' means the log subresource of pods. '*' means all resources, but not subresources. 'pods/*' means all subresources of pods. '_/scale' means all scale subresources. '_/*' means all resources and their subresources.
	//
	// If wildcard is present, the validation rule will ensure resources do not overlap with each other.
	//
	// Depending on the enclosing object, subresources might not be allowed. Required.
	Resources *[]*string `field:"optional" json:"resources" yaml:"resources"`
	// scope specifies the scope of this rule.
	//
	// Valid values are "Cluster", "Namespaced", and "*" "Cluster" means that only cluster-scoped resources will match this rule. Namespace API objects are cluster-scoped. "Namespaced" means that only namespaced resources will match this rule. "*" means that there are no scope restrictions. Subresources match the scope of their parent resource. Default is "*".
	// Default: .
	//
	Scope *string `field:"optional" json:"scope" yaml:"scope"`
}

NamedRuleWithOperations is a tuple of Operations and Resources with ResourceNames.

type NamespaceSpec 

type NamespaceSpec struct {
	// Finalizers is an opaque list of values that must be empty to permanently remove object from storage.
	//
	// More info: https://kubernetes.io/docs/tasks/administer-cluster/namespaces/
	Finalizers *[]*string `field:"optional" json:"finalizers" yaml:"finalizers"`
}

NamespaceSpec describes the attributes on a Namespace.

type NetworkPolicyEgressRule 

type NetworkPolicyEgressRule struct {
	// ports is a list of destination ports for outgoing traffic.
	//
	// Each item in this list is combined using a logical OR. If this field is empty or missing, this rule matches all ports (traffic not restricted by port). If this field is present and contains at least one item, then this rule allows traffic only if the traffic matches at least one port in the list.
	Ports *[]*NetworkPolicyPort `field:"optional" json:"ports" yaml:"ports"`
	// to is a list of destinations for outgoing traffic of pods selected for this rule.
	//
	// Items in this list are combined using a logical OR operation. If this field is empty or missing, this rule matches all destinations (traffic not restricted by destination). If this field is present and contains at least one item, this rule allows traffic only if the traffic matches at least one item in the to list.
	To *[]*NetworkPolicyPeer `field:"optional" json:"to" yaml:"to"`
}

NetworkPolicyEgressRule describes a particular set of traffic that is allowed out of pods matched by a NetworkPolicySpec's podSelector.

The traffic must match both ports and to. This type is beta-level in 1.8

type NetworkPolicyIngressRule 

type NetworkPolicyIngressRule struct {
	// from is a list of sources which should be able to access the pods selected for this rule.
	//
	// Items in this list are combined using a logical OR operation. If this field is empty or missing, this rule matches all sources (traffic not restricted by source). If this field is present and contains at least one item, this rule allows traffic only if the traffic matches at least one item in the from list.
	From *[]*NetworkPolicyPeer `field:"optional" json:"from" yaml:"from"`
	// ports is a list of ports which should be made accessible on the pods selected for this rule.
	//
	// Each item in this list is combined using a logical OR. If this field is empty or missing, this rule matches all ports (traffic not restricted by port). If this field is present and contains at least one item, then this rule allows traffic only if the traffic matches at least one port in the list.
	Ports *[]*NetworkPolicyPort `field:"optional" json:"ports" yaml:"ports"`
}

NetworkPolicyIngressRule describes a particular set of traffic that is allowed to the pods matched by a NetworkPolicySpec's podSelector.

The traffic must match both ports and from.

type NetworkPolicyPeer 

type NetworkPolicyPeer struct {
	// ipBlock defines policy on a particular IPBlock.
	//
	// If this field is set then neither of the other fields can be.
	IpBlock *IpBlock `field:"optional" json:"ipBlock" yaml:"ipBlock"`
	// namespaceSelector selects namespaces using cluster-scoped labels.
	//
	// This field follows standard label selector semantics; if present but empty, it selects all namespaces.
	//
	// If podSelector is also set, then the NetworkPolicyPeer as a whole selects the pods matching podSelector in the namespaces selected by namespaceSelector. Otherwise it selects all pods in the namespaces selected by namespaceSelector.
	NamespaceSelector *LabelSelector `field:"optional" json:"namespaceSelector" yaml:"namespaceSelector"`
	// podSelector is a label selector which selects pods.
	//
	// This field follows standard label selector semantics; if present but empty, it selects all pods.
	//
	// If namespaceSelector is also set, then the NetworkPolicyPeer as a whole selects the pods matching podSelector in the Namespaces selected by NamespaceSelector. Otherwise it selects the pods matching podSelector in the policy's own namespace.
	PodSelector *LabelSelector `field:"optional" json:"podSelector" yaml:"podSelector"`
}

NetworkPolicyPeer describes a peer to allow traffic to/from.

Only certain combinations of fields are allowed.

type NetworkPolicyPort 

type NetworkPolicyPort struct {
	// endPort indicates that the range of ports from port to endPort if set, inclusive, should be allowed by the policy.
	//
	// This field cannot be defined if the port field is not defined or if the port field is defined as a named (string) port. The endPort must be equal or greater than port.
	EndPort *float64 `field:"optional" json:"endPort" yaml:"endPort"`
	// port represents the port on the given protocol.
	//
	// This can either be a numerical or named port on a pod. If this field is not provided, this matches all port names and numbers. If present, only traffic on the specified protocol AND port will be matched.
	Port IntOrString `field:"optional" json:"port" yaml:"port"`
	// protocol represents the protocol (TCP, UDP, or SCTP) which traffic must match.
	//
	// If not specified, this field defaults to TCP.
	Protocol *string `field:"optional" json:"protocol" yaml:"protocol"`
}

NetworkPolicyPort describes a port to allow traffic on.

type NetworkPolicySpec 

type NetworkPolicySpec struct {
	// podSelector selects the pods to which this NetworkPolicy object applies.
	//
	// The array of ingress rules is applied to any pods selected by this field. Multiple network policies can select the same set of pods. In this case, the ingress rules for each are combined additively. This field is NOT optional and follows standard label selector semantics. An empty podSelector matches all pods in this namespace.
	PodSelector *LabelSelector `field:"required" json:"podSelector" yaml:"podSelector"`
	// egress is a list of egress rules to be applied to the selected pods.
	//
	// Outgoing traffic is allowed if there are no NetworkPolicies selecting the pod (and cluster policy otherwise allows the traffic), OR if the traffic matches at least one egress rule across all of the NetworkPolicy objects whose podSelector matches the pod. If this field is empty then this NetworkPolicy limits all outgoing traffic (and serves solely to ensure that the pods it selects are isolated by default). This field is beta-level in 1.8
	Egress *[]*NetworkPolicyEgressRule `field:"optional" json:"egress" yaml:"egress"`
	// ingress is a list of ingress rules to be applied to the selected pods.
	//
	// Traffic is allowed to a pod if there are no NetworkPolicies selecting the pod (and cluster policy otherwise allows the traffic), OR if the traffic source is the pod's local node, OR if the traffic matches at least one ingress rule across all of the NetworkPolicy objects whose podSelector matches the pod. If this field is empty then this NetworkPolicy does not allow any traffic (and serves solely to ensure that the pods it selects are isolated by default)
	Ingress *[]*NetworkPolicyIngressRule `field:"optional" json:"ingress" yaml:"ingress"`
	// policyTypes is a list of rule types that the NetworkPolicy relates to.
	//
	// Valid options are ["Ingress"], ["Egress"], or ["Ingress", "Egress"]. If this field is not specified, it will default based on the existence of ingress or egress rules; policies that contain an egress section are assumed to affect egress, and all policies (whether or not they contain an ingress section) are assumed to affect ingress. If you want to write an egress-only policy, you must explicitly specify policyTypes [ "Egress" ]. Likewise, if you want to write a policy that specifies that no egress is allowed, you must specify a policyTypes value that include "Egress" (since such a policy would not include an egress section and would otherwise default to just [ "Ingress" ]). This field is beta-level in 1.8
	PolicyTypes *[]*string `field:"optional" json:"policyTypes" yaml:"policyTypes"`
}

NetworkPolicySpec provides the specification of a NetworkPolicy.

type NfsVolumeSource 

type NfsVolumeSource struct {
	// path that is exported by the NFS server.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/volumes#nfs
	Path *string `field:"required" json:"path" yaml:"path"`
	// server is the hostname or IP address of the NFS server.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/volumes#nfs
	Server *string `field:"required" json:"server" yaml:"server"`
	// readOnly here will force the NFS export to be mounted with read-only permissions.
	//
	// Defaults to false. More info: https://kubernetes.io/docs/concepts/storage/volumes#nfs
	// Default: false. More info: https://kubernetes.io/docs/concepts/storage/volumes#nfs
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
}

Represents an NFS mount that lasts the lifetime of a pod.

NFS volumes do not support ownership management or SELinux relabeling.

type NodeAffinity 

type NodeAffinity struct {
	// The scheduler will prefer to schedule pods to nodes that satisfy the affinity expressions specified by this field, but it may choose a node that violates one or more of the expressions.
	//
	// The node that is most preferred is the one with the greatest sum of weights, i.e. for each node that meets all of the scheduling requirements (resource request, requiredDuringScheduling affinity expressions, etc.), compute a sum by iterating through the elements of this field and adding "weight" to the sum if the node matches the corresponding matchExpressions; the node(s) with the highest sum are the most preferred.
	PreferredDuringSchedulingIgnoredDuringExecution *[]*PreferredSchedulingTerm `` /* 126-byte string literal not displayed */
	// If the affinity requirements specified by this field are not met at scheduling time, the pod will not be scheduled onto the node.
	//
	// If the affinity requirements specified by this field cease to be met at some point during pod execution (e.g. due to an update), the system may or may not try to eventually evict the pod from its node.
	RequiredDuringSchedulingIgnoredDuringExecution *NodeSelector `field:"optional" json:"requiredDuringSchedulingIgnoredDuringExecution" yaml:"requiredDuringSchedulingIgnoredDuringExecution"`
}

Node affinity is a group of node affinity scheduling rules.

type NodeConfigSource 

type NodeConfigSource struct {
	// ConfigMap is a reference to a Node's ConfigMap.
	ConfigMap *ConfigMapNodeConfigSource `field:"optional" json:"configMap" yaml:"configMap"`
}

NodeConfigSource specifies a source of node configuration.

Exactly one subfield (excluding metadata) must be non-nil. This API is deprecated since 1.22

type NodeSelector 

type NodeSelector struct {
	// Required.
	//
	// A list of node selector terms. The terms are ORed.
	NodeSelectorTerms *[]*NodeSelectorTerm `field:"required" json:"nodeSelectorTerms" yaml:"nodeSelectorTerms"`
}

A node selector represents the union of the results of one or more label queries over a set of nodes;

that is, it represents the OR of the selectors represented by the node selector terms.

type NodeSelectorRequirement 

type NodeSelectorRequirement struct {
	// The label key that the selector applies to.
	Key *string `field:"required" json:"key" yaml:"key"`
	// Represents a key's relationship to a set of values.
	//
	// Valid operators are In, NotIn, Exists, DoesNotExist. Gt, and Lt.
	Operator *string `field:"required" json:"operator" yaml:"operator"`
	// An array of string values.
	//
	// If the operator is In or NotIn, the values array must be non-empty. If the operator is Exists or DoesNotExist, the values array must be empty. If the operator is Gt or Lt, the values array must have a single element, which will be interpreted as an integer. This array is replaced during a strategic merge patch.
	Values *[]*string `field:"optional" json:"values" yaml:"values"`
}

A node selector requirement is a selector that contains values, a key, and an operator that relates the key and values.

type NodeSelectorTerm 

type NodeSelectorTerm struct {
	// A list of node selector requirements by node's labels.
	MatchExpressions *[]*NodeSelectorRequirement `field:"optional" json:"matchExpressions" yaml:"matchExpressions"`
	// A list of node selector requirements by node's fields.
	MatchFields *[]*NodeSelectorRequirement `field:"optional" json:"matchFields" yaml:"matchFields"`
}

A null or empty node selector term matches no objects.

The requirements of them are ANDed. The TopologySelectorTerm type implements a subset of the NodeSelectorTerm.

type NodeSpec 

type NodeSpec struct {
	// Deprecated: Previously used to specify the source of the node's configuration for the DynamicKubeletConfig feature.
	//
	// This feature is removed.
	ConfigSource *NodeConfigSource `field:"optional" json:"configSource" yaml:"configSource"`
	// Deprecated.
	//
	// Not all kubelets will set this field. Remove field after 1.13. see: https://issues.k8s.io/61966
	ExternalId *string `field:"optional" json:"externalId" yaml:"externalId"`
	// PodCIDR represents the pod IP range assigned to the node.
	PodCidr *string `field:"optional" json:"podCidr" yaml:"podCidr"`
	// podCIDRs represents the IP ranges assigned to the node for usage by Pods on that node.
	//
	// If this field is specified, the 0th entry must match the podCIDR field. It may contain at most 1 value for each of IPv4 and IPv6.
	PodCidRs *[]*string `field:"optional" json:"podCidRs" yaml:"podCidRs"`
	// ID of the node assigned by the cloud provider in the format: <ProviderName>://<ProviderSpecificNodeID>.
	ProviderId *string `field:"optional" json:"providerId" yaml:"providerId"`
	// If specified, the node's taints.
	Taints *[]*Taint `field:"optional" json:"taints" yaml:"taints"`
	// Unschedulable controls node schedulability of new pods.
	//
	// By default, node is schedulable. More info: https://kubernetes.io/docs/concepts/nodes/node/#manual-node-administration
	Unschedulable *bool `field:"optional" json:"unschedulable" yaml:"unschedulable"`
}

NodeSpec describes the attributes that a node is created with.

type NonResourceAttributes 

type NonResourceAttributes struct {
	// Path is the URL path of the request.
	Path *string `field:"optional" json:"path" yaml:"path"`
	// Verb is the standard HTTP verb.
	Verb *string `field:"optional" json:"verb" yaml:"verb"`
}

NonResourceAttributes includes the authorization attributes available for non-resource requests to the Authorizer interface.

type NonResourcePolicyRuleV1Beta2 

type NonResourcePolicyRuleV1Beta2 struct {
	// `nonResourceURLs` is a set of url prefixes that a user should have access to and may not be empty.
	//
	// For example:
	// - "/healthz" is legal
	// - "/hea*" is illegal
	// - "/hea" is legal but matches nothing
	// - "/hea/*" also matches nothing
	// - "/healthz/*" matches all per-component health checks.
	// "*" matches all non-resource urls. if it is present, it must be the only entry. Required.
	NonResourceUrLs *[]*string `field:"required" json:"nonResourceUrLs" yaml:"nonResourceUrLs"`
	// `verbs` is a list of matching verbs and may not be empty.
	//
	// "*" matches all verbs. If it is present, it must be the only entry. Required.
	Verbs *[]*string `field:"required" json:"verbs" yaml:"verbs"`
}

NonResourcePolicyRule is a predicate that matches non-resource requests according to their verb and the target non-resource URL.

A NonResourcePolicyRule matches a request if and only if both (a) at least one member of verbs matches the request and (b) at least one member of nonResourceURLs matches the request.

type NonResourcePolicyRuleV1Beta3 

type NonResourcePolicyRuleV1Beta3 struct {
	// `nonResourceURLs` is a set of url prefixes that a user should have access to and may not be empty.
	//
	// For example:
	// - "/healthz" is legal
	// - "/hea*" is illegal
	// - "/hea" is legal but matches nothing
	// - "/hea/*" also matches nothing
	// - "/healthz/*" matches all per-component health checks.
	// "*" matches all non-resource urls. if it is present, it must be the only entry. Required.
	NonResourceUrLs *[]*string `field:"required" json:"nonResourceUrLs" yaml:"nonResourceUrLs"`
	// `verbs` is a list of matching verbs and may not be empty.
	//
	// "*" matches all verbs. If it is present, it must be the only entry. Required.
	Verbs *[]*string `field:"required" json:"verbs" yaml:"verbs"`
}

NonResourcePolicyRule is a predicate that matches non-resource requests according to their verb and the target non-resource URL.

A NonResourcePolicyRule matches a request if and only if both (a) at least one member of verbs matches the request and (b) at least one member of nonResourceURLs matches the request.

type ObjectFieldSelector 

type ObjectFieldSelector struct {
	// Path of the field to select in the specified API version.
	FieldPath *string `field:"required" json:"fieldPath" yaml:"fieldPath"`
	// Version of the schema the FieldPath is written in terms of, defaults to "v1".
	ApiVersion *string `field:"optional" json:"apiVersion" yaml:"apiVersion"`
}

ObjectFieldSelector selects an APIVersioned field of an object.

type ObjectMeta 

type ObjectMeta struct {
	// Annotations is an unstructured key value map stored with a resource that may be set by external tools to store and retrieve arbitrary metadata.
	//
	// They are not queryable and should be preserved when modifying objects. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/annotations
	Annotations *map[string]*string `field:"optional" json:"annotations" yaml:"annotations"`
	// CreationTimestamp is a timestamp representing the server time when this object was created.
	//
	// It is not guaranteed to be set in happens-before order across separate operations. Clients may not set this value. It is represented in RFC3339 form and is in UTC.
	//
	// Populated by the system. Read-only. Null for lists. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	CreationTimestamp *time.Time `field:"optional" json:"creationTimestamp" yaml:"creationTimestamp"`
	// Number of seconds allowed for this object to gracefully terminate before it will be removed from the system.
	//
	// Only set when deletionTimestamp is also set. May only be shortened. Read-only.
	DeletionGracePeriodSeconds *float64 `field:"optional" json:"deletionGracePeriodSeconds" yaml:"deletionGracePeriodSeconds"`
	// DeletionTimestamp is RFC 3339 date and time at which this resource will be deleted.
	//
	// This field is set by the server when a graceful deletion is requested by the user, and is not directly settable by a client. The resource is expected to be deleted (no longer visible from resource lists, and not reachable by name) after the time in this field, once the finalizers list is empty. As long as the finalizers list contains items, deletion is blocked. Once the deletionTimestamp is set, this value may not be unset or be set further into the future, although it may be shortened or the resource may be deleted prior to this time. For example, a user may request that a pod is deleted in 30 seconds. The Kubelet will react by sending a graceful termination signal to the containers in the pod. After that 30 seconds, the Kubelet will send a hard termination signal (SIGKILL) to the container and after cleanup, remove the pod from the API. In the presence of network partitions, this object may still exist after this timestamp, until an administrator or automated process can determine the resource is fully terminated. If not set, graceful deletion of the object has not been requested.
	//
	// Populated by the system when a graceful deletion is requested. Read-only. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	DeletionTimestamp *time.Time `field:"optional" json:"deletionTimestamp" yaml:"deletionTimestamp"`
	// Must be empty before the object is deleted from the registry.
	//
	// Each entry is an identifier for the responsible component that will remove the entry from the list. If the deletionTimestamp of the object is non-nil, entries in this list can only be removed. Finalizers may be processed and removed in any order.  Order is NOT enforced because it introduces significant risk of stuck finalizers. finalizers is a shared field, any actor with permission can reorder it. If the finalizer list is processed in order, then this can lead to a situation in which the component responsible for the first finalizer in the list is waiting for a signal (field value, external system, or other) produced by a component responsible for a finalizer later in the list, resulting in a deadlock. Without enforced ordering finalizers are free to order amongst themselves and are not vulnerable to ordering changes in the list.
	Finalizers *[]*string `field:"optional" json:"finalizers" yaml:"finalizers"`
	// GenerateName is an optional prefix, used by the server, to generate a unique name ONLY IF the Name field has not been provided.
	//
	// If this field is used, the name returned to the client will be different than the name passed. This value will also be combined with a unique suffix. The provided value has the same validation rules as the Name field, and may be truncated by the length of the suffix required to make the value unique on the server.
	//
	// If this field is specified and the generated name exists, the server will return a 409.
	//
	// Applied only if Name is not specified. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#idempotency
	GenerateName *string `field:"optional" json:"generateName" yaml:"generateName"`
	// A sequence number representing a specific generation of the desired state.
	//
	// Populated by the system. Read-only.
	Generation *float64 `field:"optional" json:"generation" yaml:"generation"`
	// Map of string keys and values that can be used to organize and categorize (scope and select) objects.
	//
	// May match selectors of replication controllers and services. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels
	Labels *map[string]*string `field:"optional" json:"labels" yaml:"labels"`
	// ManagedFields maps workflow-id and version to the set of fields that are managed by that workflow.
	//
	// This is mostly for internal housekeeping, and users typically shouldn't need to set or understand this field. A workflow can be the user's name, a controller's name, or the name of a specific apply path like "ci-cd". The set of fields is always in the version that the workflow used when modifying the object.
	ManagedFields *[]*ManagedFieldsEntry `field:"optional" json:"managedFields" yaml:"managedFields"`
	// Name must be unique within a namespace.
	//
	// Is required when creating resources, although some resources may allow a client to request the generation of an appropriate name automatically. Name is primarily intended for creation idempotence and configuration definition. Cannot be updated. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#names
	Name *string `field:"optional" json:"name" yaml:"name"`
	// Namespace defines the space within which each name must be unique.
	//
	// An empty namespace is equivalent to the "default" namespace, but "default" is the canonical representation. Not all objects are required to be scoped to a namespace - the value of this field for those objects will be empty.
	//
	// Must be a DNS_LABEL. Cannot be updated. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/namespaces
	Namespace *string `field:"optional" json:"namespace" yaml:"namespace"`
	// List of objects depended by this object.
	//
	// If ALL objects in the list have been deleted, this object will be garbage collected. If this object is managed by a controller, then an entry in this list will point to this controller, with the controller field set to true. There cannot be more than one managing controller.
	OwnerReferences *[]*OwnerReference `field:"optional" json:"ownerReferences" yaml:"ownerReferences"`
	// An opaque value that represents the internal version of this object that can be used by clients to determine when objects have changed.
	//
	// May be used for optimistic concurrency, change detection, and the watch operation on a resource or set of resources. Clients must treat these values as opaque and passed unmodified back to the server. They may only be valid for a particular resource or set of resources.
	//
	// Populated by the system. Read-only. Value must be treated as opaque by clients and . More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#concurrency-control-and-consistency
	ResourceVersion *string `field:"optional" json:"resourceVersion" yaml:"resourceVersion"`
	// Deprecated: selfLink is a legacy read-only field that is no longer populated by the system.
	SelfLink *string `field:"optional" json:"selfLink" yaml:"selfLink"`
	// UID is the unique in time and space value for this object.
	//
	// It is typically generated by the server on successful creation of a resource and is not allowed to change on PUT operations.
	//
	// Populated by the system. Read-only. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#uids
	Uid *string `field:"optional" json:"uid" yaml:"uid"`
}

ObjectMeta is metadata that all persisted resources must have, which includes all objects users must create.

type ObjectMetricSourceV2 

type ObjectMetricSourceV2 struct {
	// describedObject specifies the descriptions of a object,such as kind,name apiVersion.
	DescribedObject *CrossVersionObjectReferenceV2 `field:"required" json:"describedObject" yaml:"describedObject"`
	// metric identifies the target metric by name and selector.
	Metric *MetricIdentifierV2 `field:"required" json:"metric" yaml:"metric"`
	// target specifies the target value for the given metric.
	Target *MetricTargetV2 `field:"required" json:"target" yaml:"target"`
}

ObjectMetricSource indicates how to scale on a metric describing a kubernetes object (for example, hits-per-second on an Ingress object).

type ObjectReference 

type ObjectReference struct {
	// API version of the referent.
	ApiVersion *string `field:"optional" json:"apiVersion" yaml:"apiVersion"`
	// If referring to a piece of an object instead of an entire object, this string should contain a valid JSON/Go field access statement, such as desiredState.manifest.containers[2]. For example, if the object reference is to a container within a pod, this would take on a value like: "spec.containers{name}" (where "name" refers to the name of the container that triggered the event) or if no container name is specified "spec.containers[2]" (container with index 2 in this pod). This syntax is chosen only to have some well-defined way of referencing a part of an object.
	FieldPath *string `field:"optional" json:"fieldPath" yaml:"fieldPath"`
	// Kind of the referent.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Kind *string `field:"optional" json:"kind" yaml:"kind"`
	// Name of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
	Name *string `field:"optional" json:"name" yaml:"name"`
	// Namespace of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/namespaces/
	Namespace *string `field:"optional" json:"namespace" yaml:"namespace"`
	// Specific resourceVersion to which this reference is made, if any.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#concurrency-control-and-consistency
	ResourceVersion *string `field:"optional" json:"resourceVersion" yaml:"resourceVersion"`
	// UID of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#uids
	Uid *string `field:"optional" json:"uid" yaml:"uid"`
}

ObjectReference contains enough information to let you inspect or modify the referred object.

type Overhead 

type Overhead struct {
	// podFixed represents the fixed resource overhead associated with running a pod.
	PodFixed *map[string]Quantity `field:"optional" json:"podFixed" yaml:"podFixed"`
}

Overhead structure represents the resource overhead associated with running a pod.

type OwnerReference 

type OwnerReference struct {
	// API version of the referent.
	ApiVersion *string `field:"required" json:"apiVersion" yaml:"apiVersion"`
	// Kind of the referent.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// Name of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#names
	Name *string `field:"required" json:"name" yaml:"name"`
	// UID of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#uids
	Uid *string `field:"required" json:"uid" yaml:"uid"`
	// If true, AND if the owner has the "foregroundDeletion" finalizer, then the owner cannot be deleted from the key-value store until this reference is removed.
	//
	// See https://kubernetes.io/docs/concepts/architecture/garbage-collection/#foreground-deletion for how the garbage collector interacts with this field and enforces the foreground deletion. Defaults to false. To set this field, a user needs "delete" permission of the owner, otherwise 422 (Unprocessable Entity) will be returned.
	// Default: false. To set this field, a user needs "delete" permission of the owner, otherwise 422 (Unprocessable Entity) will be returned.
	//
	BlockOwnerDeletion *bool `field:"optional" json:"blockOwnerDeletion" yaml:"blockOwnerDeletion"`
	// If true, this reference points to the managing controller.
	Controller *bool `field:"optional" json:"controller" yaml:"controller"`
}

OwnerReference contains enough information to let you identify an owning object.

An owning object must be in the same namespace as the dependent, or be cluster-scoped, so there is no namespace field.

type ParamKindV1Alpha1 

type ParamKindV1Alpha1 struct {
	// APIVersion is the API group version the resources belong to.
	//
	// In format of "group/version". Required.
	ApiVersion *string `field:"optional" json:"apiVersion" yaml:"apiVersion"`
	// Kind is the API kind the resources belong to.
	//
	// Required.
	Kind *string `field:"optional" json:"kind" yaml:"kind"`
}

ParamKind is a tuple of Group Kind and Version.

type ParamRefV1Alpha1 

type ParamRefV1Alpha1 struct {
	// Name of the resource being referenced.
	Name *string `field:"optional" json:"name" yaml:"name"`
	// Namespace of the referenced resource.
	//
	// Should be empty for the cluster-scoped resources.
	Namespace *string `field:"optional" json:"namespace" yaml:"namespace"`
}

ParamRef references a parameter resource.

type ParentReferenceV1Alpha1 

type ParentReferenceV1Alpha1 struct {
	// Group is the group of the object being referenced.
	Group *string `field:"optional" json:"group" yaml:"group"`
	// Name is the name of the object being referenced.
	Name *string `field:"optional" json:"name" yaml:"name"`
	// Namespace is the namespace of the object being referenced.
	Namespace *string `field:"optional" json:"namespace" yaml:"namespace"`
	// Resource is the resource of the object being referenced.
	Resource *string `field:"optional" json:"resource" yaml:"resource"`
	// UID is the uid of the object being referenced.
	Uid *string `field:"optional" json:"uid" yaml:"uid"`
}

ParentReference describes a reference to a parent object.

type PersistentVolumeClaimSpec 

type PersistentVolumeClaimSpec struct {
	// accessModes contains the desired access modes the volume should have.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes#access-modes-1
	AccessModes *[]*string `field:"optional" json:"accessModes" yaml:"accessModes"`
	// dataSource field can be used to specify either: * An existing VolumeSnapshot object (snapshot.storage.k8s.io/VolumeSnapshot) * An existing PVC (PersistentVolumeClaim) If the provisioner or an external controller can support the specified data source, it will create a new volume based on the contents of the specified data source. When the AnyVolumeDataSource feature gate is enabled, dataSource contents will be copied to dataSourceRef, and dataSourceRef contents will be copied to dataSource when dataSourceRef.namespace is not specified. If the namespace is specified, then dataSourceRef will not be copied to dataSource.
	DataSource *TypedLocalObjectReference `field:"optional" json:"dataSource" yaml:"dataSource"`
	// dataSourceRef specifies the object from which to populate the volume with data, if a non-empty volume is desired.
	//
	// This may be any object from a non-empty API group (non core object) or a PersistentVolumeClaim object. When this field is specified, volume binding will only succeed if the type of the specified object matches some installed volume populator or dynamic provisioner. This field will replace the functionality of the dataSource field and as such if both fields are non-empty, they must have the same value. For backwards compatibility, when namespace isn't specified in dataSourceRef, both fields (dataSource and dataSourceRef) will be set to the same value automatically if one of them is empty and the other is non-empty. When namespace is specified in dataSourceRef, dataSource isn't set to the same value and must be empty. There are three important differences between dataSource and dataSourceRef: * While dataSource only allows two specific types of objects, dataSourceRef
	// allows any non-core object, as well as PersistentVolumeClaim objects.
	// * While dataSource ignores disallowed values (dropping them), dataSourceRef
	// preserves all values, and generates an error if a disallowed value is
	// specified.
	// * While dataSource only allows local objects, dataSourceRef allows objects
	// in any namespaces.
	// (Beta) Using this field requires the AnyVolumeDataSource feature gate to be enabled. (Alpha) Using the namespace field of dataSourceRef requires the CrossNamespaceVolumeDataSource feature gate to be enabled.
	DataSourceRef *TypedObjectReference `field:"optional" json:"dataSourceRef" yaml:"dataSourceRef"`
	// resources represents the minimum resources the volume should have.
	//
	// If RecoverVolumeExpansionFailure feature is enabled users are allowed to specify resource requirements that are lower than previous value but must still be higher than capacity recorded in the status field of the claim. More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes#resources
	Resources *ResourceRequirements `field:"optional" json:"resources" yaml:"resources"`
	// selector is a label query over volumes to consider for binding.
	Selector *LabelSelector `field:"optional" json:"selector" yaml:"selector"`
	// storageClassName is the name of the StorageClass required by the claim.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes#class-1
	StorageClassName *string `field:"optional" json:"storageClassName" yaml:"storageClassName"`
	// volumeMode defines what type of volume is required by the claim.
	//
	// Value of Filesystem is implied when not included in claim spec.
	VolumeMode *string `field:"optional" json:"volumeMode" yaml:"volumeMode"`
	// volumeName is the binding reference to the PersistentVolume backing this claim.
	VolumeName *string `field:"optional" json:"volumeName" yaml:"volumeName"`
}

PersistentVolumeClaimSpec describes the common attributes of storage devices and allows a Source for provider-specific attributes.

type PersistentVolumeClaimTemplate 

type PersistentVolumeClaimTemplate struct {
	// The specification for the PersistentVolumeClaim.
	//
	// The entire content is copied unchanged into the PVC that gets created from this template. The same fields as in a PersistentVolumeClaim are also valid here.
	Spec *PersistentVolumeClaimSpec `field:"required" json:"spec" yaml:"spec"`
	// May contain labels and annotations that will be copied into the PVC when creating it.
	//
	// No other fields are allowed and will be rejected during validation.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

PersistentVolumeClaimTemplate is used to produce PersistentVolumeClaim objects as part of an EphemeralVolumeSource.

type PersistentVolumeClaimVolumeSource 

type PersistentVolumeClaimVolumeSource struct {
	// claimName is the name of a PersistentVolumeClaim in the same namespace as the pod using this volume.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes#persistentvolumeclaims
	ClaimName *string `field:"required" json:"claimName" yaml:"claimName"`
	// readOnly Will force the ReadOnly setting in VolumeMounts.
	//
	// Default false.
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
}

PersistentVolumeClaimVolumeSource references the user's PVC in the same namespace.

This volume finds the bound PV and mounts that volume for the pod. A PersistentVolumeClaimVolumeSource is, essentially, a wrapper around another type of volume that is owned by someone else (the system).

type PersistentVolumeSpec 

type PersistentVolumeSpec struct {
	// accessModes contains all ways the volume can be mounted.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes#access-modes
	AccessModes *[]*string `field:"optional" json:"accessModes" yaml:"accessModes"`
	// awsElasticBlockStore represents an AWS Disk resource that is attached to a kubelet's host machine and then exposed to the pod.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/volumes#awselasticblockstore
	AwsElasticBlockStore *AwsElasticBlockStoreVolumeSource `field:"optional" json:"awsElasticBlockStore" yaml:"awsElasticBlockStore"`
	// azureDisk represents an Azure Data Disk mount on the host and bind mount to the pod.
	AzureDisk *AzureDiskVolumeSource `field:"optional" json:"azureDisk" yaml:"azureDisk"`
	// azureFile represents an Azure File Service mount on the host and bind mount to the pod.
	AzureFile *AzureFilePersistentVolumeSource `field:"optional" json:"azureFile" yaml:"azureFile"`
	// capacity is the description of the persistent volume's resources and capacity.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes#capacity
	Capacity *map[string]Quantity `field:"optional" json:"capacity" yaml:"capacity"`
	// cephFS represents a Ceph FS mount on the host that shares a pod's lifetime.
	Cephfs *CephFsPersistentVolumeSource `field:"optional" json:"cephfs" yaml:"cephfs"`
	// cinder represents a cinder volume attached and mounted on kubelets host machine.
	//
	// More info: https://examples.k8s.io/mysql-cinder-pd/README.md
	Cinder *CinderPersistentVolumeSource `field:"optional" json:"cinder" yaml:"cinder"`
	// claimRef is part of a bi-directional binding between PersistentVolume and PersistentVolumeClaim.
	//
	// Expected to be non-nil when bound. claim.VolumeName is the authoritative bind between PV and PVC. More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes#binding
	ClaimRef *ObjectReference `field:"optional" json:"claimRef" yaml:"claimRef"`
	// csi represents storage that is handled by an external CSI driver (Beta feature).
	Csi *CsiPersistentVolumeSource `field:"optional" json:"csi" yaml:"csi"`
	// fc represents a Fibre Channel resource that is attached to a kubelet's host machine and then exposed to the pod.
	Fc *FcVolumeSource `field:"optional" json:"fc" yaml:"fc"`
	// flexVolume represents a generic volume resource that is provisioned/attached using an exec based plugin.
	FlexVolume *FlexPersistentVolumeSource `field:"optional" json:"flexVolume" yaml:"flexVolume"`
	// flocker represents a Flocker volume attached to a kubelet's host machine and exposed to the pod for its usage.
	//
	// This depends on the Flocker control service being running.
	Flocker *FlockerVolumeSource `field:"optional" json:"flocker" yaml:"flocker"`
	// gcePersistentDisk represents a GCE Disk resource that is attached to a kubelet's host machine and then exposed to the pod.
	//
	// Provisioned by an admin. More info: https://kubernetes.io/docs/concepts/storage/volumes#gcepersistentdisk
	GcePersistentDisk *GcePersistentDiskVolumeSource `field:"optional" json:"gcePersistentDisk" yaml:"gcePersistentDisk"`
	// glusterfs represents a Glusterfs volume that is attached to a host and exposed to the pod.
	//
	// Provisioned by an admin. More info: https://examples.k8s.io/volumes/glusterfs/README.md
	Glusterfs *GlusterfsPersistentVolumeSource `field:"optional" json:"glusterfs" yaml:"glusterfs"`
	// hostPath represents a directory on the host.
	//
	// Provisioned by a developer or tester. This is useful for single-node development and testing only! On-host storage is not supported in any way and WILL NOT WORK in a multi-node cluster. More info: https://kubernetes.io/docs/concepts/storage/volumes#hostpath
	HostPath *HostPathVolumeSource `field:"optional" json:"hostPath" yaml:"hostPath"`
	// iscsi represents an ISCSI Disk resource that is attached to a kubelet's host machine and then exposed to the pod.
	//
	// Provisioned by an admin.
	Iscsi *IscsiPersistentVolumeSource `field:"optional" json:"iscsi" yaml:"iscsi"`
	// local represents directly-attached storage with node affinity.
	Local *LocalVolumeSource `field:"optional" json:"local" yaml:"local"`
	// mountOptions is the list of mount options, e.g. ["ro", "soft"]. Not validated - mount will simply fail if one is invalid. More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes/#mount-options.
	MountOptions *[]*string `field:"optional" json:"mountOptions" yaml:"mountOptions"`
	// nfs represents an NFS mount on the host.
	//
	// Provisioned by an admin. More info: https://kubernetes.io/docs/concepts/storage/volumes#nfs
	Nfs *NfsVolumeSource `field:"optional" json:"nfs" yaml:"nfs"`
	// nodeAffinity defines constraints that limit what nodes this volume can be accessed from.
	//
	// This field influences the scheduling of pods that use this volume.
	NodeAffinity *VolumeNodeAffinity `field:"optional" json:"nodeAffinity" yaml:"nodeAffinity"`
	// persistentVolumeReclaimPolicy defines what happens to a persistent volume when released from its claim.
	//
	// Valid options are Retain (default for manually created PersistentVolumes), Delete (default for dynamically provisioned PersistentVolumes), and Recycle (deprecated). Recycle must be supported by the volume plugin underlying this PersistentVolume. More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes#reclaiming
	PersistentVolumeReclaimPolicy *string `field:"optional" json:"persistentVolumeReclaimPolicy" yaml:"persistentVolumeReclaimPolicy"`
	// photonPersistentDisk represents a PhotonController persistent disk attached and mounted on kubelets host machine.
	PhotonPersistentDisk *PhotonPersistentDiskVolumeSource `field:"optional" json:"photonPersistentDisk" yaml:"photonPersistentDisk"`
	// portworxVolume represents a portworx volume attached and mounted on kubelets host machine.
	PortworxVolume *PortworxVolumeSource `field:"optional" json:"portworxVolume" yaml:"portworxVolume"`
	// quobyte represents a Quobyte mount on the host that shares a pod's lifetime.
	Quobyte *QuobyteVolumeSource `field:"optional" json:"quobyte" yaml:"quobyte"`
	// rbd represents a Rados Block Device mount on the host that shares a pod's lifetime.
	//
	// More info: https://examples.k8s.io/volumes/rbd/README.md
	Rbd *RbdPersistentVolumeSource `field:"optional" json:"rbd" yaml:"rbd"`
	// scaleIO represents a ScaleIO persistent volume attached and mounted on Kubernetes nodes.
	ScaleIo *ScaleIoPersistentVolumeSource `field:"optional" json:"scaleIo" yaml:"scaleIo"`
	// storageClassName is the name of StorageClass to which this persistent volume belongs.
	//
	// Empty value means that this volume does not belong to any StorageClass.
	StorageClassName *string `field:"optional" json:"storageClassName" yaml:"storageClassName"`
	// storageOS represents a StorageOS volume that is attached to the kubelet's host machine and mounted into the pod More info: https://examples.k8s.io/volumes/storageos/README.md.
	Storageos *StorageOsPersistentVolumeSource `field:"optional" json:"storageos" yaml:"storageos"`
	// volumeMode defines if a volume is intended to be used with a formatted filesystem or to remain in raw block state.
	//
	// Value of Filesystem is implied when not included in spec.
	VolumeMode *string `field:"optional" json:"volumeMode" yaml:"volumeMode"`
	// vsphereVolume represents a vSphere volume attached and mounted on kubelets host machine.
	VsphereVolume *VsphereVirtualDiskVolumeSource `field:"optional" json:"vsphereVolume" yaml:"vsphereVolume"`
}

PersistentVolumeSpec is the specification of a persistent volume.

type PhotonPersistentDiskVolumeSource 

type PhotonPersistentDiskVolumeSource struct {
	// pdID is the ID that identifies Photon Controller persistent disk.
	PdId *string `field:"required" json:"pdId" yaml:"pdId"`
	// fsType is the filesystem type to mount.
	//
	// Must be a filesystem type supported by the host operating system. Ex. "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified.
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
}

Represents a Photon Controller persistent disk resource.

type PodAffinity 

type PodAffinity struct {
	// The scheduler will prefer to schedule pods to nodes that satisfy the affinity expressions specified by this field, but it may choose a node that violates one or more of the expressions.
	//
	// The node that is most preferred is the one with the greatest sum of weights, i.e. for each node that meets all of the scheduling requirements (resource request, requiredDuringScheduling affinity expressions, etc.), compute a sum by iterating through the elements of this field and adding "weight" to the sum if the node has pods which matches the corresponding podAffinityTerm; the node(s) with the highest sum are the most preferred.
	PreferredDuringSchedulingIgnoredDuringExecution *[]*WeightedPodAffinityTerm `` /* 126-byte string literal not displayed */
	// If the affinity requirements specified by this field are not met at scheduling time, the pod will not be scheduled onto the node.
	//
	// If the affinity requirements specified by this field cease to be met at some point during pod execution (e.g. due to a pod label update), the system may or may not try to eventually evict the pod from its node. When there are multiple elements, the lists of nodes corresponding to each podAffinityTerm are intersected, i.e. all terms must be satisfied.
	RequiredDuringSchedulingIgnoredDuringExecution *[]*PodAffinityTerm `field:"optional" json:"requiredDuringSchedulingIgnoredDuringExecution" yaml:"requiredDuringSchedulingIgnoredDuringExecution"`
}

Pod affinity is a group of inter pod affinity scheduling rules.

type PodAffinityTerm 

type PodAffinityTerm struct {
	// This pod should be co-located (affinity) or not co-located (anti-affinity) with the pods matching the labelSelector in the specified namespaces, where co-located is defined as running on a node whose value of the label with key topologyKey matches that of any node on which any of the selected pods is running.
	//
	// Empty topologyKey is not allowed.
	TopologyKey *string `field:"required" json:"topologyKey" yaml:"topologyKey"`
	// A label query over a set of resources, in this case pods.
	LabelSelector *LabelSelector `field:"optional" json:"labelSelector" yaml:"labelSelector"`
	// namespaces specifies a static list of namespace names that the term applies to.
	//
	// The term is applied to the union of the namespaces listed in this field and the ones selected by namespaceSelector. null or empty namespaces list and null namespaceSelector means "this pod's namespace".
	Namespaces *[]*string `field:"optional" json:"namespaces" yaml:"namespaces"`
	// A label query over the set of namespaces that the term applies to.
	//
	// The term is applied to the union of the namespaces selected by this field and the ones listed in the namespaces field. null selector and null or empty namespaces list means "this pod's namespace". An empty selector ({}) matches all namespaces.
	NamespaceSelector *LabelSelector `field:"optional" json:"namespaceSelector" yaml:"namespaceSelector"`
}

Defines a set of pods (namely those matching the labelSelector relative to the given namespace(s)) that this pod should be co-located (affinity) or not co-located (anti-affinity) with, where co-located is defined as running on a node whose value of the label with key <topologyKey> matches that of any node on which a pod of the set of pods is running.

type PodAntiAffinity 

type PodAntiAffinity struct {
	// The scheduler will prefer to schedule pods to nodes that satisfy the anti-affinity expressions specified by this field, but it may choose a node that violates one or more of the expressions.
	//
	// The node that is most preferred is the one with the greatest sum of weights, i.e. for each node that meets all of the scheduling requirements (resource request, requiredDuringScheduling anti-affinity expressions, etc.), compute a sum by iterating through the elements of this field and adding "weight" to the sum if the node has pods which matches the corresponding podAffinityTerm; the node(s) with the highest sum are the most preferred.
	PreferredDuringSchedulingIgnoredDuringExecution *[]*WeightedPodAffinityTerm `` /* 126-byte string literal not displayed */
	// If the anti-affinity requirements specified by this field are not met at scheduling time, the pod will not be scheduled onto the node.
	//
	// If the anti-affinity requirements specified by this field cease to be met at some point during pod execution (e.g. due to a pod label update), the system may or may not try to eventually evict the pod from its node. When there are multiple elements, the lists of nodes corresponding to each podAffinityTerm are intersected, i.e. all terms must be satisfied.
	RequiredDuringSchedulingIgnoredDuringExecution *[]*PodAffinityTerm `field:"optional" json:"requiredDuringSchedulingIgnoredDuringExecution" yaml:"requiredDuringSchedulingIgnoredDuringExecution"`
}

Pod anti affinity is a group of inter pod anti affinity scheduling rules.

type PodDisruptionBudgetSpec 

type PodDisruptionBudgetSpec struct {
	// An eviction is allowed if at most "maxUnavailable" pods selected by "selector" are unavailable after the eviction, i.e. even in absence of the evicted pod. For example, one can prevent all voluntary evictions by specifying 0. This is a mutually exclusive setting with "minAvailable".
	MaxUnavailable IntOrString `field:"optional" json:"maxUnavailable" yaml:"maxUnavailable"`
	// An eviction is allowed if at least "minAvailable" pods selected by "selector" will still be available after the eviction, i.e. even in the absence of the evicted pod.  So for example you can prevent all voluntary evictions by specifying "100%".
	MinAvailable IntOrString `field:"optional" json:"minAvailable" yaml:"minAvailable"`
	// Label query over pods whose evictions are managed by the disruption budget.
	//
	// A null selector will match no pods, while an empty ({}) selector will select all pods within the namespace.
	Selector *LabelSelector `field:"optional" json:"selector" yaml:"selector"`
	// UnhealthyPodEvictionPolicy defines the criteria for when unhealthy pods should be considered for eviction.
	//
	// Current implementation considers healthy pods, as pods that have status.conditions item with type="Ready",status="True".
	//
	// Valid policies are IfHealthyBudget and AlwaysAllow. If no policy is specified, the default behavior will be used, which corresponds to the IfHealthyBudget policy.
	//
	// IfHealthyBudget policy means that running pods (status.phase="Running"), but not yet healthy can be evicted only if the guarded application is not disrupted (status.currentHealthy is at least equal to status.desiredHealthy). Healthy pods will be subject to the PDB for eviction.
	//
	// AlwaysAllow policy means that all running pods (status.phase="Running"), but not yet healthy are considered disrupted and can be evicted regardless of whether the criteria in a PDB is met. This means perspective running pods of a disrupted application might not get a chance to become healthy. Healthy pods will be subject to the PDB for eviction.
	//
	// Additional policies may be added in the future. Clients making eviction decisions should disallow eviction of unhealthy pods if they encounter an unrecognized policy in this field.
	//
	// This field is beta-level. The eviction API uses this field when the feature gate PDBUnhealthyPodEvictionPolicy is enabled (enabled by default).
	UnhealthyPodEvictionPolicy *string `field:"optional" json:"unhealthyPodEvictionPolicy" yaml:"unhealthyPodEvictionPolicy"`
}

PodDisruptionBudgetSpec is a description of a PodDisruptionBudget.

type PodDnsConfig 

type PodDnsConfig struct {
	// A list of DNS name server IP addresses.
	//
	// This will be appended to the base nameservers generated from DNSPolicy. Duplicated nameservers will be removed.
	Nameservers *[]*string `field:"optional" json:"nameservers" yaml:"nameservers"`
	// A list of DNS resolver options.
	//
	// This will be merged with the base options generated from DNSPolicy. Duplicated entries will be removed. Resolution options given in Options will override those that appear in the base DNSPolicy.
	Options *[]*PodDnsConfigOption `field:"optional" json:"options" yaml:"options"`
	// A list of DNS search domains for host-name lookup.
	//
	// This will be appended to the base search paths generated from DNSPolicy. Duplicated search paths will be removed.
	Searches *[]*string `field:"optional" json:"searches" yaml:"searches"`
}

PodDNSConfig defines the DNS parameters of a pod in addition to those generated from DNSPolicy.

type PodDnsConfigOption 

type PodDnsConfigOption struct {
	// Required.
	Name  *string `field:"optional" json:"name" yaml:"name"`
	Value *string `field:"optional" json:"value" yaml:"value"`
}

PodDNSConfigOption defines DNS resolver options of a pod.

type PodFailurePolicy 

type PodFailurePolicy struct {
	// A list of pod failure policy rules.
	//
	// The rules are evaluated in order. Once a rule matches a Pod failure, the remaining of the rules are ignored. When no rule matches the Pod failure, the default handling applies - the counter of pod failures is incremented and it is checked against the backoffLimit. At most 20 elements are allowed.
	Rules *[]*PodFailurePolicyRule `field:"required" json:"rules" yaml:"rules"`
}

PodFailurePolicy describes how failed pods influence the backoffLimit.

type PodFailurePolicyOnExitCodesRequirement 

type PodFailurePolicyOnExitCodesRequirement struct {
	// Represents the relationship between the container exit code(s) and the specified values.
	//
	// Containers completed with success (exit code 0) are excluded from the requirement check. Possible values are:
	//
	// - In: the requirement is satisfied if at least one container exit code
	// (might be multiple if there are multiple containers not restricted
	// by the 'containerName' field) is in the set of specified values.
	// - NotIn: the requirement is satisfied if at least one container exit code
	// (might be multiple if there are multiple containers not restricted
	// by the 'containerName' field) is not in the set of specified values.
	// Additional values are considered to be added in the future. Clients should react to an unknown operator by assuming the requirement is not satisfied.
	Operator *string `field:"required" json:"operator" yaml:"operator"`
	// Specifies the set of values.
	//
	// Each returned container exit code (might be multiple in case of multiple containers) is checked against this set of values with respect to the operator. The list of values must be ordered and must not contain duplicates. Value '0' cannot be used for the In operator. At least one element is required. At most 255 elements are allowed.
	Values *[]*float64 `field:"required" json:"values" yaml:"values"`
	// Restricts the check for exit codes to the container with the specified name.
	//
	// When null, the rule applies to all containers. When specified, it should match one the container or initContainer names in the pod template.
	ContainerName *string `field:"optional" json:"containerName" yaml:"containerName"`
}

PodFailurePolicyOnExitCodesRequirement describes the requirement for handling a failed pod based on its container exit codes.

In particular, it lookups the .state.terminated.exitCode for each app container and init container status, represented by the .status.containerStatuses and .status.initContainerStatuses fields in the Pod status, respectively. Containers completed with success (exit code 0) are excluded from the requirement check.

type PodFailurePolicyOnPodConditionsPattern 

type PodFailurePolicyOnPodConditionsPattern struct {
	// Specifies the required Pod condition status.
	//
	// To match a pod condition it is required that the specified status equals the pod condition status. Defaults to True.
	// Default: True.
	//
	Status *string `field:"required" json:"status" yaml:"status"`
	// Specifies the required Pod condition type.
	//
	// To match a pod condition it is required that specified type equals the pod condition type.
	Type *string `field:"required" json:"type" yaml:"type"`
}

PodFailurePolicyOnPodConditionsPattern describes a pattern for matching an actual pod condition type.

type PodFailurePolicyRule 

type PodFailurePolicyRule struct {
	// Specifies the action taken on a pod failure when the requirements are satisfied. Possible values are:.
	//
	// - FailJob: indicates that the pod's job is marked as Failed and all
	// running pods are terminated.
	// - Ignore: indicates that the counter towards the .backoffLimit is not
	// incremented and a replacement pod is created.
	// - Count: indicates that the pod is handled in the default way - the
	// counter towards the .backoffLimit is incremented.
	// Additional values are considered to be added in the future. Clients should react to an unknown action by skipping the rule.
	Action *string `field:"required" json:"action" yaml:"action"`
	// Represents the requirement on the pod conditions.
	//
	// The requirement is represented as a list of pod condition patterns. The requirement is satisfied if at least one pattern matches an actual pod condition. At most 20 elements are allowed.
	OnPodConditions *[]*PodFailurePolicyOnPodConditionsPattern `field:"required" json:"onPodConditions" yaml:"onPodConditions"`
	// Represents the requirement on the container exit codes.
	OnExitCodes *PodFailurePolicyOnExitCodesRequirement `field:"optional" json:"onExitCodes" yaml:"onExitCodes"`
}

PodFailurePolicyRule describes how a pod failure is handled when the requirements are met.

One of onExitCodes and onPodConditions, but not both, can be used in each rule.

type PodOs 

type PodOs struct {
	// Name is the name of the operating system.
	//
	// The currently supported values are linux and windows. Additional value may be defined in future and can be one of: https://github.com/opencontainers/runtime-spec/blob/master/config.md#platform-specific-configuration Clients should expect to handle additional values and treat unrecognized values in this field as os: null
	Name *string `field:"required" json:"name" yaml:"name"`
}

PodOS defines the OS parameters of a pod.

type PodReadinessGate 

type PodReadinessGate struct {
	// ConditionType refers to a condition in the pod's condition list with matching type.
	ConditionType *string `field:"required" json:"conditionType" yaml:"conditionType"`
}

PodReadinessGate contains the reference to a pod condition.

type PodResourceClaim 

type PodResourceClaim struct {
	// Name uniquely identifies this resource claim inside the pod.
	//
	// This must be a DNS_LABEL.
	Name *string `field:"required" json:"name" yaml:"name"`
	// Source describes where to find the ResourceClaim.
	Source *ClaimSource `field:"optional" json:"source" yaml:"source"`
}

PodResourceClaim references exactly one ResourceClaim through a ClaimSource.

It adds a name to it that uniquely identifies the ResourceClaim inside the Pod. Containers that need access to the ResourceClaim reference it with this name.

type PodSchedulingContextSpecV1Alpha2 

type PodSchedulingContextSpecV1Alpha2 struct {
	// PotentialNodes lists nodes where the Pod might be able to run.
	//
	// The size of this field is limited to 128. This is large enough for many clusters. Larger clusters may need more attempts to find a node that suits all pending resources. This may get increased in the future, but not reduced.
	PotentialNodes *[]*string `field:"optional" json:"potentialNodes" yaml:"potentialNodes"`
	// SelectedNode is the node for which allocation of ResourceClaims that are referenced by the Pod and that use "WaitForFirstConsumer" allocation is to be attempted.
	SelectedNode *string `field:"optional" json:"selectedNode" yaml:"selectedNode"`
}

PodSchedulingContextSpec describes where resources for the Pod are needed.

type PodSchedulingGate 

type PodSchedulingGate struct {
	// Name of the scheduling gate.
	//
	// Each scheduling gate must have a unique name field.
	Name *string `field:"required" json:"name" yaml:"name"`
}

PodSchedulingGate is associated to a Pod to guard its scheduling.

type PodSecurityContext 

type PodSecurityContext struct {
	// A special supplemental group that applies to all containers in a pod.
	//
	// Some volume types allow the Kubelet to change the ownership of that volume to be owned by the pod:
	//
	// 1. The owning GID will be the FSGroup 2. The setgid bit is set (new files created in the volume will be owned by FSGroup) 3. The permission bits are OR'd with rw-rw----
	//
	// If unset, the Kubelet will not modify the ownership and permissions of any volume. Note that this field cannot be set when spec.os.name is windows.
	FsGroup *float64 `field:"optional" json:"fsGroup" yaml:"fsGroup"`
	// fsGroupChangePolicy defines behavior of changing ownership and permission of the volume before being exposed inside Pod.
	//
	// This field will only apply to volume types which support fsGroup based ownership(and permissions). It will have no effect on ephemeral volume types such as: secret, configmaps and emptydir. Valid values are "OnRootMismatch" and "Always". If not specified, "Always" is used. Note that this field cannot be set when spec.os.name is windows.
	FsGroupChangePolicy *string `field:"optional" json:"fsGroupChangePolicy" yaml:"fsGroupChangePolicy"`
	// The GID to run the entrypoint of the container process.
	//
	// Uses runtime default if unset. May also be set in SecurityContext.  If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence for that container. Note that this field cannot be set when spec.os.name is windows.
	RunAsGroup *float64 `field:"optional" json:"runAsGroup" yaml:"runAsGroup"`
	// Indicates that the container must run as a non-root user.
	//
	// If true, the Kubelet will validate the image at runtime to ensure that it does not run as UID 0 (root) and fail to start the container if it does. If unset or false, no such validation will be performed. May also be set in SecurityContext.  If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence.
	RunAsNonRoot *bool `field:"optional" json:"runAsNonRoot" yaml:"runAsNonRoot"`
	// The UID to run the entrypoint of the container process.
	//
	// Defaults to user specified in image metadata if unspecified. May also be set in SecurityContext.  If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence for that container. Note that this field cannot be set when spec.os.name is windows.
	// Default: user specified in image metadata if unspecified. May also be set in SecurityContext.  If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence for that container. Note that this field cannot be set when spec.os.name is windows.
	//
	RunAsUser *float64 `field:"optional" json:"runAsUser" yaml:"runAsUser"`
	// The seccomp options to use by the containers in this pod.
	//
	// Note that this field cannot be set when spec.os.name is windows.
	SeccompProfile *SeccompProfile `field:"optional" json:"seccompProfile" yaml:"seccompProfile"`
	// The SELinux context to be applied to all containers.
	//
	// If unspecified, the container runtime will allocate a random SELinux context for each container.  May also be set in SecurityContext.  If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence for that container. Note that this field cannot be set when spec.os.name is windows.
	SeLinuxOptions *SeLinuxOptions `field:"optional" json:"seLinuxOptions" yaml:"seLinuxOptions"`
	// A list of groups applied to the first process run in each container, in addition to the container's primary GID, the fsGroup (if specified), and group memberships defined in the container image for the uid of the container process.
	//
	// If unspecified, no additional groups are added to any container. Note that group memberships defined in the container image for the uid of the container process are still effective, even if they are not included in this list. Note that this field cannot be set when spec.os.name is windows.
	SupplementalGroups *[]*float64 `field:"optional" json:"supplementalGroups" yaml:"supplementalGroups"`
	// Sysctls hold a list of namespaced sysctls used for the pod.
	//
	// Pods with unsupported sysctls (by the container runtime) might fail to launch. Note that this field cannot be set when spec.os.name is windows.
	Sysctls *[]*Sysctl `field:"optional" json:"sysctls" yaml:"sysctls"`
	// The Windows specific settings applied to all containers.
	//
	// If unspecified, the options within a container's SecurityContext will be used. If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence. Note that this field cannot be set when spec.os.name is linux.
	WindowsOptions *WindowsSecurityContextOptions `field:"optional" json:"windowsOptions" yaml:"windowsOptions"`
}

PodSecurityContext holds pod-level security attributes and common container settings.

Some fields are also present in container.securityContext. Field values of container.securityContext take precedence over field values of PodSecurityContext.

type PodSpec 

type PodSpec struct {
	// List of containers belonging to the pod.
	//
	// Containers cannot currently be added or removed. There must be at least one container in a Pod. Cannot be updated.
	Containers *[]*Container `field:"required" json:"containers" yaml:"containers"`
	// Optional duration in seconds the pod may be active on the node relative to StartTime before the system will actively try to mark it failed and kill associated containers.
	//
	// Value must be a positive integer.
	ActiveDeadlineSeconds *float64 `field:"optional" json:"activeDeadlineSeconds" yaml:"activeDeadlineSeconds"`
	// If specified, the pod's scheduling constraints.
	Affinity *Affinity `field:"optional" json:"affinity" yaml:"affinity"`
	// AutomountServiceAccountToken indicates whether a service account token should be automatically mounted.
	AutomountServiceAccountToken *bool `field:"optional" json:"automountServiceAccountToken" yaml:"automountServiceAccountToken"`
	// Specifies the DNS parameters of a pod.
	//
	// Parameters specified here will be merged to the generated DNS configuration based on DNSPolicy.
	DnsConfig *PodDnsConfig `field:"optional" json:"dnsConfig" yaml:"dnsConfig"`
	// Set DNS policy for the pod.
	//
	// Defaults to "ClusterFirst". Valid values are 'ClusterFirstWithHostNet', 'ClusterFirst', 'Default' or 'None'. DNS parameters given in DNSConfig will be merged with the policy selected with DNSPolicy. To have DNS options set along with hostNetwork, you have to specify DNS policy explicitly to 'ClusterFirstWithHostNet'.
	// Default: ClusterFirst". Valid values are 'ClusterFirstWithHostNet', 'ClusterFirst', 'Default' or 'None'. DNS parameters given in DNSConfig will be merged with the policy selected with DNSPolicy. To have DNS options set along with hostNetwork, you have to specify DNS policy explicitly to 'ClusterFirstWithHostNet'.
	//
	DnsPolicy *string `field:"optional" json:"dnsPolicy" yaml:"dnsPolicy"`
	// EnableServiceLinks indicates whether information about services should be injected into pod's environment variables, matching the syntax of Docker links.
	//
	// Optional: Defaults to true.
	// Default: true.
	//
	EnableServiceLinks *bool `field:"optional" json:"enableServiceLinks" yaml:"enableServiceLinks"`
	// List of ephemeral containers run in this pod.
	//
	// Ephemeral containers may be run in an existing pod to perform user-initiated actions such as debugging. This list cannot be specified when creating a pod, and it cannot be modified by updating the pod spec. In order to add an ephemeral container to an existing pod, use the pod's ephemeralcontainers subresource.
	EphemeralContainers *[]*EphemeralContainer `field:"optional" json:"ephemeralContainers" yaml:"ephemeralContainers"`
	// HostAliases is an optional list of hosts and IPs that will be injected into the pod's hosts file if specified.
	//
	// This is only valid for non-hostNetwork pods.
	HostAliases *[]*HostAlias `field:"optional" json:"hostAliases" yaml:"hostAliases"`
	// Use the host's ipc namespace.
	//
	// Optional: Default to false.
	// Default: false.
	//
	HostIpc *bool `field:"optional" json:"hostIpc" yaml:"hostIpc"`
	// Specifies the hostname of the Pod If not specified, the pod's hostname will be set to a system-defined value.
	Hostname *string `field:"optional" json:"hostname" yaml:"hostname"`
	// Host networking requested for this pod.
	//
	// Use the host's network namespace. If this option is set, the ports that will be used must be specified. Default to false.
	// Default: false.
	//
	HostNetwork *bool `field:"optional" json:"hostNetwork" yaml:"hostNetwork"`
	// Use the host's pid namespace.
	//
	// Optional: Default to false.
	// Default: false.
	//
	HostPid *bool `field:"optional" json:"hostPid" yaml:"hostPid"`
	// Use the host's user namespace.
	//
	// Optional: Default to true. If set to true or not present, the pod will be run in the host user namespace, useful for when the pod needs a feature only available to the host user namespace, such as loading a kernel module with CAP_SYS_MODULE. When set to false, a new userns is created for the pod. Setting false is useful for mitigating container breakout vulnerabilities even allowing users to run their containers as root without actually having root privileges on the host. This field is alpha-level and is only honored by servers that enable the UserNamespacesSupport feature.
	// Default: true. If set to true or not present, the pod will be run in the host user namespace, useful for when the pod needs a feature only available to the host user namespace, such as loading a kernel module with CAP_SYS_MODULE. When set to false, a new userns is created for the pod. Setting false is useful for mitigating container breakout vulnerabilities even allowing users to run their containers as root without actually having root privileges on the host. This field is alpha-level and is only honored by servers that enable the UserNamespacesSupport feature.
	//
	HostUsers *bool `field:"optional" json:"hostUsers" yaml:"hostUsers"`
	// ImagePullSecrets is an optional list of references to secrets in the same namespace to use for pulling any of the images used by this PodSpec.
	//
	// If specified, these secrets will be passed to individual puller implementations for them to use. More info: https://kubernetes.io/docs/concepts/containers/images#specifying-imagepullsecrets-on-a-pod
	ImagePullSecrets *[]*LocalObjectReference `field:"optional" json:"imagePullSecrets" yaml:"imagePullSecrets"`
	// List of initialization containers belonging to the pod.
	//
	// Init containers are executed in order prior to containers being started. If any init container fails, the pod is considered to have failed and is handled according to its restartPolicy. The name for an init container or normal container must be unique among all containers. Init containers may not have Lifecycle actions, Readiness probes, Liveness probes, or Startup probes. The resourceRequirements of an init container are taken into account during scheduling by finding the highest request/limit for each resource type, and then using the max of of that value or the sum of the normal containers. Limits are applied to init containers in a similar fashion. Init containers cannot currently be added or removed. Cannot be updated. More info: https://kubernetes.io/docs/concepts/workloads/pods/init-containers/
	InitContainers *[]*Container `field:"optional" json:"initContainers" yaml:"initContainers"`
	// NodeName is a request to schedule this pod onto a specific node.
	//
	// If it is non-empty, the scheduler simply schedules this pod onto that node, assuming that it fits resource requirements.
	NodeName *string `field:"optional" json:"nodeName" yaml:"nodeName"`
	// NodeSelector is a selector which must be true for the pod to fit on a node.
	//
	// Selector which must match a node's labels for the pod to be scheduled on that node. More info: https://kubernetes.io/docs/concepts/configuration/assign-pod-node/
	NodeSelector *map[string]*string `field:"optional" json:"nodeSelector" yaml:"nodeSelector"`
	// Specifies the OS of the containers in the pod.
	//
	// Some pod and container fields are restricted if this is set.
	//
	// If the OS field is set to linux, the following fields must be unset: -securityContext.windowsOptions
	//
	// If the OS field is set to windows, following fields must be unset: - spec.hostPID - spec.hostIPC - spec.hostUsers - spec.securityContext.seLinuxOptions - spec.securityContext.seccompProfile - spec.securityContext.fsGroup - spec.securityContext.fsGroupChangePolicy - spec.securityContext.sysctls - spec.shareProcessNamespace - spec.securityContext.runAsUser - spec.securityContext.runAsGroup - spec.securityContext.supplementalGroups - spec.containers[*].securityContext.seLinuxOptions - spec.containers[*].securityContext.seccompProfile - spec.containers[*].securityContext.capabilities - spec.containers[*].securityContext.readOnlyRootFilesystem - spec.containers[*].securityContext.privileged - spec.containers[*].securityContext.allowPrivilegeEscalation - spec.containers[*].securityContext.procMount - spec.containers[*].securityContext.runAsUser - spec.containers[*].securityContext.runAsGroup
	Os *PodOs `field:"optional" json:"os" yaml:"os"`
	// Overhead represents the resource overhead associated with running a pod for a given RuntimeClass.
	//
	// This field will be autopopulated at admission time by the RuntimeClass admission controller. If the RuntimeClass admission controller is enabled, overhead must not be set in Pod create requests. The RuntimeClass admission controller will reject Pod create requests which have the overhead already set. If RuntimeClass is configured and selected in the PodSpec, Overhead will be set to the value defined in the corresponding RuntimeClass, otherwise it will remain unset and treated as zero. More info: https://git.k8s.io/enhancements/keps/sig-node/688-pod-overhead/README.md
	Overhead *map[string]Quantity `field:"optional" json:"overhead" yaml:"overhead"`
	// PreemptionPolicy is the Policy for preempting pods with lower priority.
	//
	// One of Never, PreemptLowerPriority. Defaults to PreemptLowerPriority if unset.
	// Default: PreemptLowerPriority if unset.
	//
	PreemptionPolicy *string `field:"optional" json:"preemptionPolicy" yaml:"preemptionPolicy"`
	// The priority value.
	//
	// Various system components use this field to find the priority of the pod. When Priority Admission Controller is enabled, it prevents users from setting this field. The admission controller populates this field from PriorityClassName. The higher the value, the higher the priority.
	Priority *float64 `field:"optional" json:"priority" yaml:"priority"`
	// If specified, indicates the pod's priority.
	//
	// "system-node-critical" and "system-cluster-critical" are two special keywords which indicate the highest priorities with the former being the highest priority. Any other name must be defined by creating a PriorityClass object with that name. If not specified, the pod priority will be default or zero if there is no default.
	PriorityClassName *string `field:"optional" json:"priorityClassName" yaml:"priorityClassName"`
	// If specified, all readiness gates will be evaluated for pod readiness.
	//
	// A pod is ready when all its containers are ready AND all conditions specified in the readiness gates have status equal to "True" More info: https://git.k8s.io/enhancements/keps/sig-network/580-pod-readiness-gates
	ReadinessGates *[]*PodReadinessGate `field:"optional" json:"readinessGates" yaml:"readinessGates"`
	// ResourceClaims defines which ResourceClaims must be allocated and reserved before the Pod is allowed to start.
	//
	// The resources will be made available to those containers which consume them by name.
	//
	// This is an alpha field and requires enabling the DynamicResourceAllocation feature gate.
	//
	// This field is immutable.
	ResourceClaims *[]*PodResourceClaim `field:"optional" json:"resourceClaims" yaml:"resourceClaims"`
	// Restart policy for all containers within the pod.
	//
	// One of Always, OnFailure, Never. In some contexts, only a subset of those values may be permitted. Default to Always. More info: https://kubernetes.io/docs/concepts/workloads/pods/pod-lifecycle/#restart-policy
	// Default: Always. More info: https://kubernetes.io/docs/concepts/workloads/pods/pod-lifecycle/#restart-policy
	//
	RestartPolicy *string `field:"optional" json:"restartPolicy" yaml:"restartPolicy"`
	// RuntimeClassName refers to a RuntimeClass object in the node.k8s.io group, which should be used to run this pod.  If no RuntimeClass resource matches the named class, the pod will not be run. If unset or empty, the "legacy" RuntimeClass will be used, which is an implicit class with an empty definition that uses the default runtime handler. More info: https://git.k8s.io/enhancements/keps/sig-node/585-runtime-class.
	RuntimeClassName *string `field:"optional" json:"runtimeClassName" yaml:"runtimeClassName"`
	// If specified, the pod will be dispatched by specified scheduler.
	//
	// If not specified, the pod will be dispatched by default scheduler.
	SchedulerName *string `field:"optional" json:"schedulerName" yaml:"schedulerName"`
	// SchedulingGates is an opaque list of values that if specified will block scheduling the pod.
	//
	// If schedulingGates is not empty, the pod will stay in the SchedulingGated state and the scheduler will not attempt to schedule the pod.
	//
	// SchedulingGates can only be set at pod creation time, and be removed only afterwards.
	//
	// This is a beta feature enabled by the PodSchedulingReadiness feature gate.
	SchedulingGates *[]*PodSchedulingGate `field:"optional" json:"schedulingGates" yaml:"schedulingGates"`
	// SecurityContext holds pod-level security attributes and common container settings.
	//
	// Optional: Defaults to empty.  See type description for default values of each field.
	// Default: empty.  See type description for default values of each field.
	//
	SecurityContext *PodSecurityContext `field:"optional" json:"securityContext" yaml:"securityContext"`
	// DeprecatedServiceAccount is a depreciated alias for ServiceAccountName.
	//
	// Deprecated: Use serviceAccountName instead.
	ServiceAccount *string `field:"optional" json:"serviceAccount" yaml:"serviceAccount"`
	// ServiceAccountName is the name of the ServiceAccount to use to run this pod.
	//
	// More info: https://kubernetes.io/docs/tasks/configure-pod-container/configure-service-account/
	ServiceAccountName *string `field:"optional" json:"serviceAccountName" yaml:"serviceAccountName"`
	// If true the pod's hostname will be configured as the pod's FQDN, rather than the leaf name (the default).
	//
	// In Linux containers, this means setting the FQDN in the hostname field of the kernel (the nodename field of struct utsname). In Windows containers, this means setting the registry value of hostname for the registry key HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Services\Tcpip\Parameters to FQDN. If a pod does not have FQDN, this has no effect. Default to false.
	// Default: false.
	//
	SetHostnameAsFqdn *bool `field:"optional" json:"setHostnameAsFqdn" yaml:"setHostnameAsFqdn"`
	// Share a single process namespace between all of the containers in a pod.
	//
	// When this is set containers will be able to view and signal processes from other containers in the same pod, and the first process in each container will not be assigned PID 1. HostPID and ShareProcessNamespace cannot both be set. Optional: Default to false.
	// Default: false.
	//
	ShareProcessNamespace *bool `field:"optional" json:"shareProcessNamespace" yaml:"shareProcessNamespace"`
	// If specified, the fully qualified Pod hostname will be "<hostname>.<subdomain>.<pod namespace>.svc.<cluster domain>". If not specified, the pod will not have a domainname at all.
	Subdomain *string `field:"optional" json:"subdomain" yaml:"subdomain"`
	// Optional duration in seconds the pod needs to terminate gracefully.
	//
	// May be decreased in delete request. Value must be non-negative integer. The value zero indicates stop immediately via the kill signal (no opportunity to shut down). If this value is nil, the default grace period will be used instead. The grace period is the duration in seconds after the processes running in the pod are sent a termination signal and the time when the processes are forcibly halted with a kill signal. Set this value longer than the expected cleanup time for your process. Defaults to 30 seconds.
	// Default: 30 seconds.
	//
	TerminationGracePeriodSeconds *float64 `field:"optional" json:"terminationGracePeriodSeconds" yaml:"terminationGracePeriodSeconds"`
	// If specified, the pod's tolerations.
	Tolerations *[]*Toleration `field:"optional" json:"tolerations" yaml:"tolerations"`
	// TopologySpreadConstraints describes how a group of pods ought to spread across topology domains.
	//
	// Scheduler will schedule pods in a way which abides by the constraints. All topologySpreadConstraints are ANDed.
	TopologySpreadConstraints *[]*TopologySpreadConstraint `field:"optional" json:"topologySpreadConstraints" yaml:"topologySpreadConstraints"`
	// List of volumes that can be mounted by containers belonging to the pod.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/volumes
	Volumes *[]*Volume `field:"optional" json:"volumes" yaml:"volumes"`
}

PodSpec is a description of a pod.

type PodTemplateSpec 

type PodTemplateSpec struct {
	// Standard object's metadata.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#metadata
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
	// Specification of the desired behavior of the pod.
	//
	// More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#spec-and-status
	Spec *PodSpec `field:"optional" json:"spec" yaml:"spec"`
}

PodTemplateSpec describes the data a pod should have when created from a template.

type PodsMetricSourceV2 

type PodsMetricSourceV2 struct {
	// metric identifies the target metric by name and selector.
	Metric *MetricIdentifierV2 `field:"required" json:"metric" yaml:"metric"`
	// target specifies the target value for the given metric.
	Target *MetricTargetV2 `field:"required" json:"target" yaml:"target"`
}

PodsMetricSource indicates how to scale on a metric describing each pod in the current scale target (for example, transactions-processed-per-second).

The values will be averaged together before being compared to the target value.

type PolicyRule 

type PolicyRule struct {
	// Verbs is a list of Verbs that apply to ALL the ResourceKinds contained in this rule.
	//
	// '*' represents all verbs.
	Verbs *[]*string `field:"required" json:"verbs" yaml:"verbs"`
	// APIGroups is the name of the APIGroup that contains the resources.
	//
	// If multiple API groups are specified, any action requested against one of the enumerated resources in any API group will be allowed. "" represents the core API group and "*" represents all API groups.
	ApiGroups *[]*string `field:"optional" json:"apiGroups" yaml:"apiGroups"`
	// NonResourceURLs is a set of partial urls that a user should have access to.
	//
	// *s are allowed, but only as the full, final step in the path Since non-resource URLs are not namespaced, this field is only applicable for ClusterRoles referenced from a ClusterRoleBinding. Rules can either apply to API resources (such as "pods" or "secrets") or non-resource URL paths (such as "/api"),  but not both.
	NonResourceUrLs *[]*string `field:"optional" json:"nonResourceUrLs" yaml:"nonResourceUrLs"`
	// ResourceNames is an optional white list of names that the rule applies to.
	//
	// An empty set means that everything is allowed.
	ResourceNames *[]*string `field:"optional" json:"resourceNames" yaml:"resourceNames"`
	// Resources is a list of resources this rule applies to.
	//
	// '*' represents all resources.
	Resources *[]*string `field:"optional" json:"resources" yaml:"resources"`
}

PolicyRule holds information that describes a policy rule, but does not contain information about who the rule applies to or which namespace the rule applies to.

type PolicyRulesWithSubjectsV1Beta2 

type PolicyRulesWithSubjectsV1Beta2 struct {
	// subjects is the list of normal user, serviceaccount, or group that this rule cares about.
	//
	// There must be at least one member in this slice. A slice that includes both the system:authenticated and system:unauthenticated user groups matches every request. Required.
	Subjects *[]*SubjectV1Beta2 `field:"required" json:"subjects" yaml:"subjects"`
	// `nonResourceRules` is a list of NonResourcePolicyRules that identify matching requests according to their verb and the target non-resource URL.
	NonResourceRules *[]*NonResourcePolicyRuleV1Beta2 `field:"optional" json:"nonResourceRules" yaml:"nonResourceRules"`
	// `resourceRules` is a slice of ResourcePolicyRules that identify matching requests according to their verb and the target resource.
	//
	// At least one of `resourceRules` and `nonResourceRules` has to be non-empty.
	ResourceRules *[]*ResourcePolicyRuleV1Beta2 `field:"optional" json:"resourceRules" yaml:"resourceRules"`
}

PolicyRulesWithSubjects prescribes a test that applies to a request to an apiserver.

The test considers the subject making the request, the verb being requested, and the resource to be acted upon. This PolicyRulesWithSubjects matches a request if and only if both (a) at least one member of subjects matches the request and (b) at least one member of resourceRules or nonResourceRules matches the request.

type PolicyRulesWithSubjectsV1Beta3 

type PolicyRulesWithSubjectsV1Beta3 struct {
	// subjects is the list of normal user, serviceaccount, or group that this rule cares about.
	//
	// There must be at least one member in this slice. A slice that includes both the system:authenticated and system:unauthenticated user groups matches every request. Required.
	Subjects *[]*SubjectV1Beta3 `field:"required" json:"subjects" yaml:"subjects"`
	// `nonResourceRules` is a list of NonResourcePolicyRules that identify matching requests according to their verb and the target non-resource URL.
	NonResourceRules *[]*NonResourcePolicyRuleV1Beta3 `field:"optional" json:"nonResourceRules" yaml:"nonResourceRules"`
	// `resourceRules` is a slice of ResourcePolicyRules that identify matching requests according to their verb and the target resource.
	//
	// At least one of `resourceRules` and `nonResourceRules` has to be non-empty.
	ResourceRules *[]*ResourcePolicyRuleV1Beta3 `field:"optional" json:"resourceRules" yaml:"resourceRules"`
}

PolicyRulesWithSubjects prescribes a test that applies to a request to an apiserver.

The test considers the subject making the request, the verb being requested, and the resource to be acted upon. This PolicyRulesWithSubjects matches a request if and only if both (a) at least one member of subjects matches the request and (b) at least one member of resourceRules or nonResourceRules matches the request.

type PortworxVolumeSource 

type PortworxVolumeSource struct {
	// volumeID uniquely identifies a Portworx volume.
	VolumeId *string `field:"required" json:"volumeId" yaml:"volumeId"`
	// fSType represents the filesystem type to mount Must be a filesystem type supported by the host operating system.
	//
	// Ex. "ext4", "xfs". Implicitly inferred to be "ext4" if unspecified.
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// readOnly defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts.
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
}

PortworxVolumeSource represents a Portworx volume resource.

type Preconditions 

type Preconditions struct {
	// Specifies the target ResourceVersion.
	ResourceVersion *string `field:"optional" json:"resourceVersion" yaml:"resourceVersion"`
	// Specifies the target UID.
	Uid *string `field:"optional" json:"uid" yaml:"uid"`
}

Preconditions must be fulfilled before an operation (update, delete, etc.) is carried out.

type PreferredSchedulingTerm 

type PreferredSchedulingTerm struct {
	// A node selector term, associated with the corresponding weight.
	Preference *NodeSelectorTerm `field:"required" json:"preference" yaml:"preference"`
	// Weight associated with matching the corresponding nodeSelectorTerm, in the range 1-100.
	Weight *float64 `field:"required" json:"weight" yaml:"weight"`
}

An empty preferred scheduling term matches all objects with implicit weight 0 (i.e. it's a no-op). A null preferred scheduling term matches no objects (i.e. is also a no-op).

type PriorityLevelConfigurationReferenceV1Beta2 

type PriorityLevelConfigurationReferenceV1Beta2 struct {
	// `name` is the name of the priority level configuration being referenced Required.
	Name *string `field:"required" json:"name" yaml:"name"`
}

PriorityLevelConfigurationReference contains information that points to the "request-priority" being used.

type PriorityLevelConfigurationReferenceV1Beta3 

type PriorityLevelConfigurationReferenceV1Beta3 struct {
	// `name` is the name of the priority level configuration being referenced Required.
	Name *string `field:"required" json:"name" yaml:"name"`
}

PriorityLevelConfigurationReference contains information that points to the "request-priority" being used.

type PriorityLevelConfigurationSpecV1Beta2 

type PriorityLevelConfigurationSpecV1Beta2 struct {
	// `type` indicates whether this priority level is subject to limitation on request execution.
	//
	// A value of `"Exempt"` means that requests of this priority level are not subject to a limit (and thus are never queued) and do not detract from the capacity made available to other priority levels.  A value of `"Limited"` means that (a) requests of this priority level _are_ subject to limits and (b) some of the server's limited capacity is made available exclusively to this priority level. Required.
	Type *string `field:"required" json:"type" yaml:"type"`
	// `limited` specifies how requests are handled for a Limited priority level.
	//
	// This field must be non-empty if and only if `type` is `"Limited"`.
	Limited *LimitedPriorityLevelConfigurationV1Beta2 `field:"optional" json:"limited" yaml:"limited"`
}

PriorityLevelConfigurationSpec specifies the configuration of a priority level.

type PriorityLevelConfigurationSpecV1Beta3 

type PriorityLevelConfigurationSpecV1Beta3 struct {
	// `type` indicates whether this priority level is subject to limitation on request execution.
	//
	// A value of `"Exempt"` means that requests of this priority level are not subject to a limit (and thus are never queued) and do not detract from the capacity made available to other priority levels.  A value of `"Limited"` means that (a) requests of this priority level _are_ subject to limits and (b) some of the server's limited capacity is made available exclusively to this priority level. Required.
	Type *string `field:"required" json:"type" yaml:"type"`
	// `limited` specifies how requests are handled for a Limited priority level.
	//
	// This field must be non-empty if and only if `type` is `"Limited"`.
	Limited *LimitedPriorityLevelConfigurationV1Beta3 `field:"optional" json:"limited" yaml:"limited"`
}

PriorityLevelConfigurationSpec specifies the configuration of a priority level.

type Probe 

type Probe struct {
	// Exec specifies the action to take.
	Exec *ExecAction `field:"optional" json:"exec" yaml:"exec"`
	// Minimum consecutive failures for the probe to be considered failed after having succeeded.
	//
	// Defaults to 3. Minimum value is 1.
	// Default: 3. Minimum value is 1.
	//
	FailureThreshold *float64 `field:"optional" json:"failureThreshold" yaml:"failureThreshold"`
	// GRPC specifies an action involving a GRPC port.
	Grpc *GrpcAction `field:"optional" json:"grpc" yaml:"grpc"`
	// HTTPGet specifies the http request to perform.
	HttpGet *HttpGetAction `field:"optional" json:"httpGet" yaml:"httpGet"`
	// Number of seconds after the container has started before liveness probes are initiated.
	//
	// More info: https://kubernetes.io/docs/concepts/workloads/pods/pod-lifecycle#container-probes
	InitialDelaySeconds *float64 `field:"optional" json:"initialDelaySeconds" yaml:"initialDelaySeconds"`
	// How often (in seconds) to perform the probe.
	//
	// Default to 10 seconds. Minimum value is 1.
	// Default: 10 seconds. Minimum value is 1.
	//
	PeriodSeconds *float64 `field:"optional" json:"periodSeconds" yaml:"periodSeconds"`
	// Minimum consecutive successes for the probe to be considered successful after having failed.
	//
	// Defaults to 1. Must be 1 for liveness and startup. Minimum value is 1.
	// Default: 1. Must be 1 for liveness and startup. Minimum value is 1.
	//
	SuccessThreshold *float64 `field:"optional" json:"successThreshold" yaml:"successThreshold"`
	// TCPSocket specifies an action involving a TCP port.
	TcpSocket *TcpSocketAction `field:"optional" json:"tcpSocket" yaml:"tcpSocket"`
	// Optional duration in seconds the pod needs to terminate gracefully upon probe failure.
	//
	// The grace period is the duration in seconds after the processes running in the pod are sent a termination signal and the time when the processes are forcibly halted with a kill signal. Set this value longer than the expected cleanup time for your process. If this value is nil, the pod's terminationGracePeriodSeconds will be used. Otherwise, this value overrides the value provided by the pod spec. Value must be non-negative integer. The value zero indicates stop immediately via the kill signal (no opportunity to shut down). This is a beta field and requires enabling ProbeTerminationGracePeriod feature gate. Minimum value is 1. spec.terminationGracePeriodSeconds is used if unset.
	TerminationGracePeriodSeconds *float64 `field:"optional" json:"terminationGracePeriodSeconds" yaml:"terminationGracePeriodSeconds"`
	// Number of seconds after which the probe times out.
	//
	// Defaults to 1 second. Minimum value is 1. More info: https://kubernetes.io/docs/concepts/workloads/pods/pod-lifecycle#container-probes
	// Default: 1 second. Minimum value is 1. More info: https://kubernetes.io/docs/concepts/workloads/pods/pod-lifecycle#container-probes
	//
	TimeoutSeconds *float64 `field:"optional" json:"timeoutSeconds" yaml:"timeoutSeconds"`
}

Probe describes a health check to be performed against a container to determine whether it is alive or ready to receive traffic.

type ProjectedVolumeSource 

type ProjectedVolumeSource struct {
	// defaultMode are the mode bits used to set permissions on created files by default.
	//
	// Must be an octal value between 0000 and 0777 or a decimal value between 0 and 511. YAML accepts both octal and decimal values, JSON requires decimal values for mode bits. Directories within the path are not affected by this setting. This might be in conflict with other options that affect the file mode, like fsGroup, and the result can be other mode bits set.
	DefaultMode *float64 `field:"optional" json:"defaultMode" yaml:"defaultMode"`
	// sources is the list of volume projections.
	Sources *[]*VolumeProjection `field:"optional" json:"sources" yaml:"sources"`
}

Represents a projected volume source.

type Quantity 

type Quantity interface {
	Value() interface{}
}

func Quantity_FromNumber 

func Quantity_FromNumber(value *float64) Quantity

func Quantity_FromString 

func Quantity_FromString(value *string) Quantity

type QueuingConfigurationV1Beta2 

type QueuingConfigurationV1Beta2 struct {
	// `handSize` is a small positive number that configures the shuffle sharding of requests into queues.
	//
	// When enqueuing a request at this priority level the request's flow identifier (a string pair) is hashed and the hash value is used to shuffle the list of queues and deal a hand of the size specified here.  The request is put into one of the shortest queues in that hand. `handSize` must be no larger than `queues`, and should be significantly smaller (so that a few heavy flows do not saturate most of the queues).  See the user-facing documentation for more extensive guidance on setting this field.  This field has a default value of 8.
	HandSize *float64 `field:"optional" json:"handSize" yaml:"handSize"`
	// `queueLengthLimit` is the maximum number of requests allowed to be waiting in a given queue of this priority level at a time;
	//
	// excess requests are rejected.  This value must be positive.  If not specified, it will be defaulted to 50.
	QueueLengthLimit *float64 `field:"optional" json:"queueLengthLimit" yaml:"queueLengthLimit"`
	// `queues` is the number of queues for this priority level.
	//
	// The queues exist independently at each apiserver. The value must be positive.  Setting it to 1 effectively precludes shufflesharding and thus makes the distinguisher method of associated flow schemas irrelevant.  This field has a default value of 64.
	Queues *float64 `field:"optional" json:"queues" yaml:"queues"`
}

QueuingConfiguration holds the configuration parameters for queuing.

type QueuingConfigurationV1Beta3 

type QueuingConfigurationV1Beta3 struct {
	// `handSize` is a small positive number that configures the shuffle sharding of requests into queues.
	//
	// When enqueuing a request at this priority level the request's flow identifier (a string pair) is hashed and the hash value is used to shuffle the list of queues and deal a hand of the size specified here.  The request is put into one of the shortest queues in that hand. `handSize` must be no larger than `queues`, and should be significantly smaller (so that a few heavy flows do not saturate most of the queues).  See the user-facing documentation for more extensive guidance on setting this field.  This field has a default value of 8.
	HandSize *float64 `field:"optional" json:"handSize" yaml:"handSize"`
	// `queueLengthLimit` is the maximum number of requests allowed to be waiting in a given queue of this priority level at a time;
	//
	// excess requests are rejected.  This value must be positive.  If not specified, it will be defaulted to 50.
	QueueLengthLimit *float64 `field:"optional" json:"queueLengthLimit" yaml:"queueLengthLimit"`
	// `queues` is the number of queues for this priority level.
	//
	// The queues exist independently at each apiserver. The value must be positive.  Setting it to 1 effectively precludes shufflesharding and thus makes the distinguisher method of associated flow schemas irrelevant.  This field has a default value of 64.
	Queues *float64 `field:"optional" json:"queues" yaml:"queues"`
}

QueuingConfiguration holds the configuration parameters for queuing.

type QuobyteVolumeSource 

type QuobyteVolumeSource struct {
	// registry represents a single or multiple Quobyte Registry services specified as a string as host:port pair (multiple entries are separated with commas) which acts as the central registry for volumes.
	Registry *string `field:"required" json:"registry" yaml:"registry"`
	// volume is a string that references an already created Quobyte volume by name.
	Volume *string `field:"required" json:"volume" yaml:"volume"`
	// group to map volume access to Default is no group.
	// Default: no group.
	//
	Group *string `field:"optional" json:"group" yaml:"group"`
	// readOnly here will force the Quobyte volume to be mounted with read-only permissions.
	//
	// Defaults to false.
	// Default: false.
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// tenant owning the given Quobyte volume in the Backend Used with dynamically provisioned Quobyte volumes, value is set by the plugin.
	Tenant *string `field:"optional" json:"tenant" yaml:"tenant"`
	// user to map volume access to Defaults to serivceaccount user.
	// Default: serivceaccount user.
	//
	User *string `field:"optional" json:"user" yaml:"user"`
}

Represents a Quobyte mount that lasts the lifetime of a pod.

Quobyte volumes do not support ownership management or SELinux relabeling.

type RbdPersistentVolumeSource 

type RbdPersistentVolumeSource struct {
	// image is the rados image name.
	//
	// More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	Image *string `field:"required" json:"image" yaml:"image"`
	// monitors is a collection of Ceph monitors.
	//
	// More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	Monitors *[]*string `field:"required" json:"monitors" yaml:"monitors"`
	// fsType is the filesystem type of the volume that you want to mount.
	//
	// Tip: Ensure that the filesystem type is supported by the host operating system. Examples: "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified. More info: https://kubernetes.io/docs/concepts/storage/volumes#rbd
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// keyring is the path to key ring for RBDUser.
	//
	// Default is /etc/ceph/keyring. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	// Default: etc/ceph/keyring. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	//
	Keyring *string `field:"optional" json:"keyring" yaml:"keyring"`
	// pool is the rados pool name.
	//
	// Default is rbd. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	// Default: rbd. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	//
	Pool *string `field:"optional" json:"pool" yaml:"pool"`
	// readOnly here will force the ReadOnly setting in VolumeMounts.
	//
	// Defaults to false. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	// Default: false. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretRef is name of the authentication secret for RBDUser.
	//
	// If provided overrides keyring. Default is nil. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	// Default: nil. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	//
	SecretRef *SecretReference `field:"optional" json:"secretRef" yaml:"secretRef"`
	// user is the rados user name.
	//
	// Default is admin. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	// Default: admin. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	//
	User *string `field:"optional" json:"user" yaml:"user"`
}

Represents a Rados Block Device mount that lasts the lifetime of a pod.

RBD volumes support ownership management and SELinux relabeling.

type RbdVolumeSource 

type RbdVolumeSource struct {
	// image is the rados image name.
	//
	// More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	Image *string `field:"required" json:"image" yaml:"image"`
	// monitors is a collection of Ceph monitors.
	//
	// More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	Monitors *[]*string `field:"required" json:"monitors" yaml:"monitors"`
	// fsType is the filesystem type of the volume that you want to mount.
	//
	// Tip: Ensure that the filesystem type is supported by the host operating system. Examples: "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified. More info: https://kubernetes.io/docs/concepts/storage/volumes#rbd
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// keyring is the path to key ring for RBDUser.
	//
	// Default is /etc/ceph/keyring. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	// Default: etc/ceph/keyring. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	//
	Keyring *string `field:"optional" json:"keyring" yaml:"keyring"`
	// pool is the rados pool name.
	//
	// Default is rbd. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	// Default: rbd. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	//
	Pool *string `field:"optional" json:"pool" yaml:"pool"`
	// readOnly here will force the ReadOnly setting in VolumeMounts.
	//
	// Defaults to false. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	// Default: false. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretRef is name of the authentication secret for RBDUser.
	//
	// If provided overrides keyring. Default is nil. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	// Default: nil. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	//
	SecretRef *LocalObjectReference `field:"optional" json:"secretRef" yaml:"secretRef"`
	// user is the rados user name.
	//
	// Default is admin. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	// Default: admin. More info: https://examples.k8s.io/volumes/rbd/README.md#how-to-use-it
	//
	User *string `field:"optional" json:"user" yaml:"user"`
}

Represents a Rados Block Device mount that lasts the lifetime of a pod.

RBD volumes support ownership management and SELinux relabeling.

type ReplicaSetSpec 

type ReplicaSetSpec struct {
	// Selector is a label query over pods that should match the replica count.
	//
	// Label keys and values that must match in order to be controlled by this replica set. It must match the pod template's labels. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/#label-selectors
	Selector *LabelSelector `field:"required" json:"selector" yaml:"selector"`
	// Minimum number of seconds for which a newly created pod should be ready without any of its container crashing, for it to be considered available.
	//
	// Defaults to 0 (pod will be considered available as soon as it is ready).
	// Default: 0 (pod will be considered available as soon as it is ready).
	//
	MinReadySeconds *float64 `field:"optional" json:"minReadySeconds" yaml:"minReadySeconds"`
	// Replicas is the number of desired replicas.
	//
	// This is a pointer to distinguish between explicit zero and unspecified. Defaults to 1. More info: https://kubernetes.io/docs/concepts/workloads/controllers/replicationcontroller/#what-is-a-replicationcontroller
	// Default: 1. More info: https://kubernetes.io/docs/concepts/workloads/controllers/replicationcontroller/#what-is-a-replicationcontroller
	//
	Replicas *float64 `field:"optional" json:"replicas" yaml:"replicas"`
	// Template is the object that describes the pod that will be created if insufficient replicas are detected.
	//
	// More info: https://kubernetes.io/docs/concepts/workloads/controllers/replicationcontroller#pod-template
	Template *PodTemplateSpec `field:"optional" json:"template" yaml:"template"`
}

ReplicaSetSpec is the specification of a ReplicaSet.

type ReplicationControllerSpec 

type ReplicationControllerSpec struct {
	// Minimum number of seconds for which a newly created pod should be ready without any of its container crashing, for it to be considered available.
	//
	// Defaults to 0 (pod will be considered available as soon as it is ready).
	// Default: 0 (pod will be considered available as soon as it is ready).
	//
	MinReadySeconds *float64 `field:"optional" json:"minReadySeconds" yaml:"minReadySeconds"`
	// Replicas is the number of desired replicas.
	//
	// This is a pointer to distinguish between explicit zero and unspecified. Defaults to 1. More info: https://kubernetes.io/docs/concepts/workloads/controllers/replicationcontroller#what-is-a-replicationcontroller
	// Default: 1. More info: https://kubernetes.io/docs/concepts/workloads/controllers/replicationcontroller#what-is-a-replicationcontroller
	//
	Replicas *float64 `field:"optional" json:"replicas" yaml:"replicas"`
	// Selector is a label query over pods that should match the Replicas count.
	//
	// If Selector is empty, it is defaulted to the labels present on the Pod template. Label keys and values that must match in order to be controlled by this replication controller, if empty defaulted to labels on Pod template. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/#label-selectors
	Selector *map[string]*string `field:"optional" json:"selector" yaml:"selector"`
	// Template is the object that describes the pod that will be created if insufficient replicas are detected.
	//
	// This takes precedence over a TemplateRef. The only allowed template.spec.restartPolicy value is "Always". More info: https://kubernetes.io/docs/concepts/workloads/controllers/replicationcontroller#pod-template
	Template *PodTemplateSpec `field:"optional" json:"template" yaml:"template"`
}

ReplicationControllerSpec is the specification of a replication controller.

type ResourceAttributes 

type ResourceAttributes struct {
	// Group is the API Group of the Resource.
	//
	// "*" means all.
	Group *string `field:"optional" json:"group" yaml:"group"`
	// Name is the name of the resource being requested for a "get" or deleted for a "delete".
	//
	// "" (empty) means all.
	Name *string `field:"optional" json:"name" yaml:"name"`
	// Namespace is the namespace of the action being requested.
	//
	// Currently, there is no distinction between no namespace and all namespaces "" (empty) is defaulted for LocalSubjectAccessReviews "" (empty) is empty for cluster-scoped resources "" (empty) means "all" for namespace scoped resources from a SubjectAccessReview or SelfSubjectAccessReview.
	Namespace *string `field:"optional" json:"namespace" yaml:"namespace"`
	// Resource is one of the existing resource types.
	//
	// "*" means all.
	Resource *string `field:"optional" json:"resource" yaml:"resource"`
	// Subresource is one of the existing resource types.
	//
	// "" means none.
	Subresource *string `field:"optional" json:"subresource" yaml:"subresource"`
	// Verb is a kubernetes resource API verb, like: get, list, watch, create, update, delete, proxy.
	//
	// "*" means all.
	Verb *string `field:"optional" json:"verb" yaml:"verb"`
	// Version is the API Version of the Resource.
	//
	// "*" means all.
	Version *string `field:"optional" json:"version" yaml:"version"`
}

ResourceAttributes includes the authorization attributes available for resource requests to the Authorizer interface.

type ResourceClaim 

type ResourceClaim struct {
	// Name must match the name of one entry in pod.spec.resourceClaims of the Pod where this field is used. It makes that resource available inside a container.
	Name *string `field:"required" json:"name" yaml:"name"`
}

ResourceClaim references one entry in PodSpec.ResourceClaims.

type ResourceClaimParametersReferenceV1Alpha2 

type ResourceClaimParametersReferenceV1Alpha2 struct {
	// Kind is the type of resource being referenced.
	//
	// This is the same value as in the parameter object's metadata, for example "ConfigMap".
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// Name is the name of resource being referenced.
	Name *string `field:"required" json:"name" yaml:"name"`
	// APIGroup is the group for the resource being referenced.
	//
	// It is empty for the core API. This matches the group in the APIVersion that is used when creating the resources.
	ApiGroup *string `field:"optional" json:"apiGroup" yaml:"apiGroup"`
}

ResourceClaimParametersReference contains enough information to let you locate the parameters for a ResourceClaim.

The object must be in the same namespace as the ResourceClaim.

type ResourceClaimSpecV1Alpha2 

type ResourceClaimSpecV1Alpha2 struct {
	// ResourceClassName references the driver and additional parameters via the name of a ResourceClass that was created as part of the driver deployment.
	ResourceClassName *string `field:"required" json:"resourceClassName" yaml:"resourceClassName"`
	// Allocation can start immediately or when a Pod wants to use the resource.
	//
	// "WaitForFirstConsumer" is the default.
	AllocationMode *string `field:"optional" json:"allocationMode" yaml:"allocationMode"`
	// ParametersRef references a separate object with arbitrary parameters that will be used by the driver when allocating a resource for the claim.
	//
	// The object must be in the same namespace as the ResourceClaim.
	ParametersRef *ResourceClaimParametersReferenceV1Alpha2 `field:"optional" json:"parametersRef" yaml:"parametersRef"`
}

ResourceClaimSpec defines how a resource is to be allocated.

type ResourceClaimTemplateSpecV1Alpha2 

type ResourceClaimTemplateSpecV1Alpha2 struct {
	// Spec for the ResourceClaim.
	//
	// The entire content is copied unchanged into the ResourceClaim that gets created from this template. The same fields as in a ResourceClaim are also valid here.
	Spec *ResourceClaimSpecV1Alpha2 `field:"required" json:"spec" yaml:"spec"`
	// ObjectMeta may contain labels and annotations that will be copied into the PVC when creating it.
	//
	// No other fields are allowed and will be rejected during validation.
	Metadata *ObjectMeta `field:"optional" json:"metadata" yaml:"metadata"`
}

ResourceClaimTemplateSpec contains the metadata and fields for a ResourceClaim.

type ResourceClassParametersReferenceV1Alpha2 

type ResourceClassParametersReferenceV1Alpha2 struct {
	// Kind is the type of resource being referenced.
	//
	// This is the same value as in the parameter object's metadata.
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// Name is the name of resource being referenced.
	Name *string `field:"required" json:"name" yaml:"name"`
	// APIGroup is the group for the resource being referenced.
	//
	// It is empty for the core API. This matches the group in the APIVersion that is used when creating the resources.
	ApiGroup *string `field:"optional" json:"apiGroup" yaml:"apiGroup"`
	// Namespace that contains the referenced resource.
	//
	// Must be empty for cluster-scoped resources and non-empty for namespaced resources.
	Namespace *string `field:"optional" json:"namespace" yaml:"namespace"`
}

ResourceClassParametersReference contains enough information to let you locate the parameters for a ResourceClass.

type ResourceFieldSelector 

type ResourceFieldSelector struct {
	// Required: resource to select.
	Resource *string `field:"required" json:"resource" yaml:"resource"`
	// Container name: required for volumes, optional for env vars.
	ContainerName *string `field:"optional" json:"containerName" yaml:"containerName"`
	// Specifies the output format of the exposed resources, defaults to "1".
	Divisor Quantity `field:"optional" json:"divisor" yaml:"divisor"`
}

ResourceFieldSelector represents container resources (cpu, memory) and their output format.

type ResourceMetricSourceV2 

type ResourceMetricSourceV2 struct {
	// name is the name of the resource in question.
	Name *string `field:"required" json:"name" yaml:"name"`
	// target specifies the target value for the given metric.
	Target *MetricTargetV2 `field:"required" json:"target" yaml:"target"`
}

ResourceMetricSource indicates how to scale on a resource metric known to Kubernetes, as specified in requests and limits, describing each pod in the current scale target (e.g. CPU or memory). The values will be averaged together before being compared to the target. Such metrics are built in to Kubernetes, and have special scaling options on top of those available to normal per-pod metrics using the "pods" source. Only one "target" type should be set.

type ResourcePolicyRuleV1Beta2 

type ResourcePolicyRuleV1Beta2 struct {
	// `apiGroups` is a list of matching API groups and may not be empty.
	//
	// "*" matches all API groups and, if present, must be the only entry. Required.
	ApiGroups *[]*string `field:"required" json:"apiGroups" yaml:"apiGroups"`
	// `resources` is a list of matching resources (i.e., lowercase and plural) with, if desired, subresource.  For example, [ "services", "nodes/status" ].  This list may not be empty. "*" matches all resources and, if present, must be the only entry. Required.
	Resources *[]*string `field:"required" json:"resources" yaml:"resources"`
	// `verbs` is a list of matching verbs and may not be empty.
	//
	// "*" matches all verbs and, if present, must be the only entry. Required.
	Verbs *[]*string `field:"required" json:"verbs" yaml:"verbs"`
	// `clusterScope` indicates whether to match requests that do not specify a namespace (which happens either because the resource is not namespaced or the request targets all namespaces).
	//
	// If this field is omitted or false then the `namespaces` field must contain a non-empty list.
	ClusterScope *bool `field:"optional" json:"clusterScope" yaml:"clusterScope"`
	// `namespaces` is a list of target namespaces that restricts matches.
	//
	// A request that specifies a target namespace matches only if either (a) this list contains that target namespace or (b) this list contains "*".  Note that "*" matches any specified namespace but does not match a request that _does not specify_ a namespace (see the `clusterScope` field for that). This list may be empty, but only if `clusterScope` is true.
	Namespaces *[]*string `field:"optional" json:"namespaces" yaml:"namespaces"`
}

ResourcePolicyRule is a predicate that matches some resource requests, testing the request's verb and the target resource.

A ResourcePolicyRule matches a resource request if and only if: (a) at least one member of verbs matches the request, (b) at least one member of apiGroups matches the request, (c) at least one member of resources matches the request, and (d) either (d1) the request does not specify a namespace (i.e., `Namespace==""`) and clusterScope is true or (d2) the request specifies a namespace and least one member of namespaces matches the request's namespace.

type ResourcePolicyRuleV1Beta3 

type ResourcePolicyRuleV1Beta3 struct {
	// `apiGroups` is a list of matching API groups and may not be empty.
	//
	// "*" matches all API groups and, if present, must be the only entry. Required.
	ApiGroups *[]*string `field:"required" json:"apiGroups" yaml:"apiGroups"`
	// `resources` is a list of matching resources (i.e., lowercase and plural) with, if desired, subresource.  For example, [ "services", "nodes/status" ].  This list may not be empty. "*" matches all resources and, if present, must be the only entry. Required.
	Resources *[]*string `field:"required" json:"resources" yaml:"resources"`
	// `verbs` is a list of matching verbs and may not be empty.
	//
	// "*" matches all verbs and, if present, must be the only entry. Required.
	Verbs *[]*string `field:"required" json:"verbs" yaml:"verbs"`
	// `clusterScope` indicates whether to match requests that do not specify a namespace (which happens either because the resource is not namespaced or the request targets all namespaces).
	//
	// If this field is omitted or false then the `namespaces` field must contain a non-empty list.
	ClusterScope *bool `field:"optional" json:"clusterScope" yaml:"clusterScope"`
	// `namespaces` is a list of target namespaces that restricts matches.
	//
	// A request that specifies a target namespace matches only if either (a) this list contains that target namespace or (b) this list contains "*".  Note that "*" matches any specified namespace but does not match a request that _does not specify_ a namespace (see the `clusterScope` field for that). This list may be empty, but only if `clusterScope` is true.
	Namespaces *[]*string `field:"optional" json:"namespaces" yaml:"namespaces"`
}

ResourcePolicyRule is a predicate that matches some resource requests, testing the request's verb and the target resource.

A ResourcePolicyRule matches a resource request if and only if: (a) at least one member of verbs matches the request, (b) at least one member of apiGroups matches the request, (c) at least one member of resources matches the request, and (d) either (d1) the request does not specify a namespace (i.e., `Namespace==""`) and clusterScope is true or (d2) the request specifies a namespace and least one member of namespaces matches the request's namespace.

type ResourceQuotaSpec 

type ResourceQuotaSpec struct {
	// hard is the set of desired hard limits for each named resource.
	//
	// More info: https://kubernetes.io/docs/concepts/policy/resource-quotas/
	Hard *map[string]Quantity `field:"optional" json:"hard" yaml:"hard"`
	// A collection of filters that must match each object tracked by a quota.
	//
	// If not specified, the quota matches all objects.
	Scopes *[]*string `field:"optional" json:"scopes" yaml:"scopes"`
	// scopeSelector is also a collection of filters like scopes that must match each object tracked by a quota but expressed using ScopeSelectorOperator in combination with possible values.
	//
	// For a resource to match, both scopes AND scopeSelector (if specified in spec), must be matched.
	ScopeSelector *ScopeSelector `field:"optional" json:"scopeSelector" yaml:"scopeSelector"`
}

ResourceQuotaSpec defines the desired hard limits to enforce for Quota.

type ResourceRequirements 

type ResourceRequirements struct {
	// Claims lists the names of resources, defined in spec.resourceClaims, that are used by this container.
	//
	// This is an alpha field and requires enabling the DynamicResourceAllocation feature gate.
	//
	// This field is immutable. It can only be set for containers.
	Claims *[]*ResourceClaim `field:"optional" json:"claims" yaml:"claims"`
	// Limits describes the maximum amount of compute resources allowed.
	//
	// More info: https://kubernetes.io/docs/concepts/configuration/manage-resources-containers/
	Limits *map[string]Quantity `field:"optional" json:"limits" yaml:"limits"`
	// Requests describes the minimum amount of compute resources required.
	//
	// If Requests is omitted for a container, it defaults to Limits if that is explicitly specified, otherwise to an implementation-defined value. Requests cannot exceed Limits. More info: https://kubernetes.io/docs/concepts/configuration/manage-resources-containers/
	Requests *map[string]Quantity `field:"optional" json:"requests" yaml:"requests"`
}

ResourceRequirements describes the compute resource requirements.

type RoleRef 

type RoleRef struct {
	// APIGroup is the group for the resource being referenced.
	ApiGroup *string `field:"required" json:"apiGroup" yaml:"apiGroup"`
	// Kind is the type of resource being referenced.
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// Name is the name of resource being referenced.
	Name *string `field:"required" json:"name" yaml:"name"`
}

RoleRef contains information that points to the role being used.

type RollingUpdateDaemonSet 

type RollingUpdateDaemonSet struct {
	// The maximum number of nodes with an existing available DaemonSet pod that can have an updated DaemonSet pod during during an update.
	//
	// Value can be an absolute number (ex: 5) or a percentage of desired pods (ex: 10%). This can not be 0 if MaxUnavailable is 0. Absolute number is calculated from percentage by rounding up to a minimum of 1. Default value is 0. Example: when this is set to 30%, at most 30% of the total number of nodes that should be running the daemon pod (i.e. status.desiredNumberScheduled) can have their a new pod created before the old pod is marked as deleted. The update starts by launching new pods on 30% of nodes. Once an updated pod is available (Ready for at least minReadySeconds) the old DaemonSet pod on that node is marked deleted. If the old pod becomes unavailable for any reason (Ready transitions to false, is evicted, or is drained) an updated pod is immediatedly created on that node without considering surge limits. Allowing surge implies the possibility that the resources consumed by the daemonset on any given node can double if the readiness check fails, and so resource intensive daemonsets should take into account that they may cause evictions during disruption.
	MaxSurge IntOrString `field:"optional" json:"maxSurge" yaml:"maxSurge"`
	// The maximum number of DaemonSet pods that can be unavailable during the update.
	//
	// Value can be an absolute number (ex: 5) or a percentage of total number of DaemonSet pods at the start of the update (ex: 10%). Absolute number is calculated from percentage by rounding up. This cannot be 0 if MaxSurge is 0 Default value is 1. Example: when this is set to 30%, at most 30% of the total number of nodes that should be running the daemon pod (i.e. status.desiredNumberScheduled) can have their pods stopped for an update at any given time. The update starts by stopping at most 30% of those DaemonSet pods and then brings up new DaemonSet pods in their place. Once the new pods are available, it then proceeds onto other DaemonSet pods, thus ensuring that at least 70% of original number of DaemonSet pods are available at all times during the update.
	MaxUnavailable IntOrString `field:"optional" json:"maxUnavailable" yaml:"maxUnavailable"`
}

Spec to control the desired behavior of daemon set rolling update.

type RollingUpdateDeployment 

type RollingUpdateDeployment struct {
	// The maximum number of pods that can be scheduled above the desired number of pods.
	//
	// Value can be an absolute number (ex: 5) or a percentage of desired pods (ex: 10%). This can not be 0 if MaxUnavailable is 0. Absolute number is calculated from percentage by rounding up. Defaults to 25%. Example: when this is set to 30%, the new ReplicaSet can be scaled up immediately when the rolling update starts, such that the total number of old and new pods do not exceed 130% of desired pods. Once old pods have been killed, new ReplicaSet can be scaled up further, ensuring that total number of pods running at any time during the update is at most 130% of desired pods.
	// Default: 25%. Example: when this is set to 30%, the new ReplicaSet can be scaled up immediately when the rolling update starts, such that the total number of old and new pods do not exceed 130% of desired pods. Once old pods have been killed, new ReplicaSet can be scaled up further, ensuring that total number of pods running at any time during the update is at most 130% of desired pods.
	//
	MaxSurge IntOrString `field:"optional" json:"maxSurge" yaml:"maxSurge"`
	// The maximum number of pods that can be unavailable during the update.
	//
	// Value can be an absolute number (ex: 5) or a percentage of desired pods (ex: 10%). Absolute number is calculated from percentage by rounding down. This can not be 0 if MaxSurge is 0. Defaults to 25%. Example: when this is set to 30%, the old ReplicaSet can be scaled down to 70% of desired pods immediately when the rolling update starts. Once new pods are ready, old ReplicaSet can be scaled down further, followed by scaling up the new ReplicaSet, ensuring that the total number of pods available at all times during the update is at least 70% of desired pods.
	// Default: 25%. Example: when this is set to 30%, the old ReplicaSet can be scaled down to 70% of desired pods immediately when the rolling update starts. Once new pods are ready, old ReplicaSet can be scaled down further, followed by scaling up the new ReplicaSet, ensuring that the total number of pods available at all times during the update is at least 70% of desired pods.
	//
	MaxUnavailable IntOrString `field:"optional" json:"maxUnavailable" yaml:"maxUnavailable"`
}

Spec to control the desired behavior of rolling update.

type RollingUpdateStatefulSetStrategy 

type RollingUpdateStatefulSetStrategy struct {
	// The maximum number of pods that can be unavailable during the update.
	//
	// Value can be an absolute number (ex: 5) or a percentage of desired pods (ex: 10%). Absolute number is calculated from percentage by rounding up. This can not be 0. Defaults to 1. This field is alpha-level and is only honored by servers that enable the MaxUnavailableStatefulSet feature. The field applies to all pods in the range 0 to Replicas-1. That means if there is any unavailable pod in the range 0 to Replicas-1, it will be counted towards MaxUnavailable.
	// Default: 1. This field is alpha-level and is only honored by servers that enable the MaxUnavailableStatefulSet feature. The field applies to all pods in the range 0 to Replicas-1. That means if there is any unavailable pod in the range 0 to Replicas-1, it will be counted towards MaxUnavailable.
	//
	MaxUnavailable IntOrString `field:"optional" json:"maxUnavailable" yaml:"maxUnavailable"`
	// Partition indicates the ordinal at which the StatefulSet should be partitioned for updates.
	//
	// During a rolling update, all pods from ordinal Replicas-1 to Partition are updated. All pods from ordinal Partition-1 to 0 remain untouched. This is helpful in being able to do a canary based deployment. The default value is 0.
	Partition *float64 `field:"optional" json:"partition" yaml:"partition"`
}

RollingUpdateStatefulSetStrategy is used to communicate parameter for RollingUpdateStatefulSetStrategyType.

type RuleWithOperations 

type RuleWithOperations struct {
	// APIGroups is the API groups the resources belong to.
	//
	// '*' is all groups. If '*' is present, the length of the slice must be one. Required.
	ApiGroups *[]*string `field:"optional" json:"apiGroups" yaml:"apiGroups"`
	// APIVersions is the API versions the resources belong to.
	//
	// '*' is all versions. If '*' is present, the length of the slice must be one. Required.
	ApiVersions *[]*string `field:"optional" json:"apiVersions" yaml:"apiVersions"`
	// Operations is the operations the admission hook cares about - CREATE, UPDATE, DELETE, CONNECT or * for all of those operations and any future admission operations that are added.
	//
	// If '*' is present, the length of the slice must be one. Required.
	Operations *[]*string `field:"optional" json:"operations" yaml:"operations"`
	// Resources is a list of resources this rule applies to.
	//
	// For example: 'pods' means pods. 'pods/log' means the log subresource of pods. '*' means all resources, but not subresources. 'pods/*' means all subresources of pods. '_/scale' means all scale subresources. '_/*' means all resources and their subresources.
	//
	// If wildcard is present, the validation rule will ensure resources do not overlap with each other.
	//
	// Depending on the enclosing object, subresources might not be allowed. Required.
	Resources *[]*string `field:"optional" json:"resources" yaml:"resources"`
	// scope specifies the scope of this rule.
	//
	// Valid values are "Cluster", "Namespaced", and "*" "Cluster" means that only cluster-scoped resources will match this rule. Namespace API objects are cluster-scoped. "Namespaced" means that only namespaced resources will match this rule. "*" means that there are no scope restrictions. Subresources match the scope of their parent resource. Default is "*".
	// Default: .
	//
	Scope *string `field:"optional" json:"scope" yaml:"scope"`
}

RuleWithOperations is a tuple of Operations and Resources.

It is recommended to make sure that all the tuple expansions are valid.

type ScaleIoPersistentVolumeSource 

type ScaleIoPersistentVolumeSource struct {
	// gateway is the host address of the ScaleIO API Gateway.
	Gateway *string `field:"required" json:"gateway" yaml:"gateway"`
	// secretRef references to the secret for ScaleIO user and other sensitive information.
	//
	// If this is not provided, Login operation will fail.
	SecretRef *SecretReference `field:"required" json:"secretRef" yaml:"secretRef"`
	// system is the name of the storage system as configured in ScaleIO.
	System *string `field:"required" json:"system" yaml:"system"`
	// fsType is the filesystem type to mount.
	//
	// Must be a filesystem type supported by the host operating system. Ex. "ext4", "xfs", "ntfs". Default is "xfs"
	// Default: xfs".
	//
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// protectionDomain is the name of the ScaleIO Protection Domain for the configured storage.
	ProtectionDomain *string `field:"optional" json:"protectionDomain" yaml:"protectionDomain"`
	// readOnly defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts.
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// sslEnabled is the flag to enable/disable SSL communication with Gateway, default false.
	SslEnabled *bool `field:"optional" json:"sslEnabled" yaml:"sslEnabled"`
	// storageMode indicates whether the storage for a volume should be ThickProvisioned or ThinProvisioned.
	//
	// Default is ThinProvisioned.
	// Default: ThinProvisioned.
	//
	StorageMode *string `field:"optional" json:"storageMode" yaml:"storageMode"`
	// storagePool is the ScaleIO Storage Pool associated with the protection domain.
	StoragePool *string `field:"optional" json:"storagePool" yaml:"storagePool"`
	// volumeName is the name of a volume already created in the ScaleIO system that is associated with this volume source.
	VolumeName *string `field:"optional" json:"volumeName" yaml:"volumeName"`
}

ScaleIOPersistentVolumeSource represents a persistent ScaleIO volume.

type ScaleIoVolumeSource 

type ScaleIoVolumeSource struct {
	// gateway is the host address of the ScaleIO API Gateway.
	Gateway *string `field:"required" json:"gateway" yaml:"gateway"`
	// secretRef references to the secret for ScaleIO user and other sensitive information.
	//
	// If this is not provided, Login operation will fail.
	SecretRef *LocalObjectReference `field:"required" json:"secretRef" yaml:"secretRef"`
	// system is the name of the storage system as configured in ScaleIO.
	System *string `field:"required" json:"system" yaml:"system"`
	// fsType is the filesystem type to mount.
	//
	// Must be a filesystem type supported by the host operating system. Ex. "ext4", "xfs", "ntfs". Default is "xfs".
	// Default: xfs".
	//
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// protectionDomain is the name of the ScaleIO Protection Domain for the configured storage.
	ProtectionDomain *string `field:"optional" json:"protectionDomain" yaml:"protectionDomain"`
	// readOnly Defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts.
	// Default: false (read/write). ReadOnly here will force the ReadOnly setting in VolumeMounts.
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// sslEnabled Flag enable/disable SSL communication with Gateway, default false.
	SslEnabled *bool `field:"optional" json:"sslEnabled" yaml:"sslEnabled"`
	// storageMode indicates whether the storage for a volume should be ThickProvisioned or ThinProvisioned.
	//
	// Default is ThinProvisioned.
	// Default: ThinProvisioned.
	//
	StorageMode *string `field:"optional" json:"storageMode" yaml:"storageMode"`
	// storagePool is the ScaleIO Storage Pool associated with the protection domain.
	StoragePool *string `field:"optional" json:"storagePool" yaml:"storagePool"`
	// volumeName is the name of a volume already created in the ScaleIO system that is associated with this volume source.
	VolumeName *string `field:"optional" json:"volumeName" yaml:"volumeName"`
}

ScaleIOVolumeSource represents a persistent ScaleIO volume.

type ScaleSpec 

type ScaleSpec struct {
	// replicas is the desired number of instances for the scaled object.
	Replicas *float64 `field:"optional" json:"replicas" yaml:"replicas"`
}

ScaleSpec describes the attributes of a scale subresource.

type Scheduling 

type Scheduling struct {
	// nodeSelector lists labels that must be present on nodes that support this RuntimeClass.
	//
	// Pods using this RuntimeClass can only be scheduled to a node matched by this selector. The RuntimeClass nodeSelector is merged with a pod's existing nodeSelector. Any conflicts will cause the pod to be rejected in admission.
	NodeSelector *map[string]*string `field:"optional" json:"nodeSelector" yaml:"nodeSelector"`
	// tolerations are appended (excluding duplicates) to pods running with this RuntimeClass during admission, effectively unioning the set of nodes tolerated by the pod and the RuntimeClass.
	Tolerations *[]*Toleration `field:"optional" json:"tolerations" yaml:"tolerations"`
}

Scheduling specifies the scheduling constraints for nodes supporting a RuntimeClass.

type ScopeSelector 

type ScopeSelector struct {
	// A list of scope selector requirements by scope of the resources.
	MatchExpressions *[]*ScopedResourceSelectorRequirement `field:"optional" json:"matchExpressions" yaml:"matchExpressions"`
}

A scope selector represents the AND of the selectors represented by the scoped-resource selector requirements.

type ScopedResourceSelectorRequirement 

type ScopedResourceSelectorRequirement struct {
	// Represents a scope's relationship to a set of values.
	//
	// Valid operators are In, NotIn, Exists, DoesNotExist.
	Operator *string `field:"required" json:"operator" yaml:"operator"`
	// The name of the scope that the selector applies to.
	ScopeName *string `field:"required" json:"scopeName" yaml:"scopeName"`
	// An array of string values.
	//
	// If the operator is In or NotIn, the values array must be non-empty. If the operator is Exists or DoesNotExist, the values array must be empty. This array is replaced during a strategic merge patch.
	Values *[]*string `field:"optional" json:"values" yaml:"values"`
}

A scoped-resource selector requirement is a selector that contains values, a scope name, and an operator that relates the scope name and values.

type SeLinuxOptions 

type SeLinuxOptions struct {
	// Level is SELinux level label that applies to the container.
	Level *string `field:"optional" json:"level" yaml:"level"`
	// Role is a SELinux role label that applies to the container.
	Role *string `field:"optional" json:"role" yaml:"role"`
	// Type is a SELinux type label that applies to the container.
	Type *string `field:"optional" json:"type" yaml:"type"`
	// User is a SELinux user label that applies to the container.
	User *string `field:"optional" json:"user" yaml:"user"`
}

SELinuxOptions are the labels to be applied to the container.

type SeccompProfile 

type SeccompProfile struct {
	// type indicates which kind of seccomp profile will be applied. Valid options are:.
	//
	// Localhost - a profile defined in a file on the node should be used. RuntimeDefault - the container runtime default profile should be used. Unconfined - no profile should be applied.
	Type *string `field:"required" json:"type" yaml:"type"`
	// localhostProfile indicates a profile defined in a file on the node should be used.
	//
	// The profile must be preconfigured on the node to work. Must be a descending path, relative to the kubelet's configured seccomp profile location. Must only be set if type is "Localhost".
	LocalhostProfile *string `field:"optional" json:"localhostProfile" yaml:"localhostProfile"`
}

SeccompProfile defines a pod/container's seccomp profile settings.

Only one profile source may be set.

type SecretEnvSource 

type SecretEnvSource struct {
	// Name of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
	Name *string `field:"optional" json:"name" yaml:"name"`
	// Specify whether the Secret must be defined.
	Optional *bool `field:"optional" json:"optional" yaml:"optional"`
}

SecretEnvSource selects a Secret to populate the environment variables with.

The contents of the target Secret's Data field will represent the key-value pairs as environment variables.

type SecretKeySelector 

type SecretKeySelector struct {
	// The key of the secret to select from.
	//
	// Must be a valid secret key.
	Key *string `field:"required" json:"key" yaml:"key"`
	// Name of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
	Name *string `field:"optional" json:"name" yaml:"name"`
	// Specify whether the Secret or its key must be defined.
	Optional *bool `field:"optional" json:"optional" yaml:"optional"`
}

SecretKeySelector selects a key of a Secret.

type SecretProjection 

type SecretProjection struct {
	// items if unspecified, each key-value pair in the Data field of the referenced Secret will be projected into the volume as a file whose name is the key and content is the value.
	//
	// If specified, the listed keys will be projected into the specified paths, and unlisted keys will not be present. If a key is specified which is not present in the Secret, the volume setup will error unless it is marked optional. Paths must be relative and may not contain the '..' path or start with '..'.
	Items *[]*KeyToPath `field:"optional" json:"items" yaml:"items"`
	// Name of the referent.
	//
	// More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
	Name *string `field:"optional" json:"name" yaml:"name"`
	// optional field specify whether the Secret or its key must be defined.
	Optional *bool `field:"optional" json:"optional" yaml:"optional"`
}

Adapts a secret into a projected volume.

The contents of the target Secret's Data field will be presented in a projected volume as files using the keys in the Data field as the file names. Note that this is identical to a secret volume source without the default mode.

type SecretReference 

type SecretReference struct {
	// name is unique within a namespace to reference a secret resource.
	Name *string `field:"optional" json:"name" yaml:"name"`
	// namespace defines the space within which the secret name must be unique.
	Namespace *string `field:"optional" json:"namespace" yaml:"namespace"`
}

SecretReference represents a Secret Reference.

It has enough information to retrieve secret in any namespace.

type SecretVolumeSource 

type SecretVolumeSource struct {
	// defaultMode is Optional: mode bits used to set permissions on created files by default.
	//
	// Must be an octal value between 0000 and 0777 or a decimal value between 0 and 511. YAML accepts both octal and decimal values, JSON requires decimal values for mode bits. Defaults to 0644. Directories within the path are not affected by this setting. This might be in conflict with other options that affect the file mode, like fsGroup, and the result can be other mode bits set.
	// Default: 0644. Directories within the path are not affected by this setting. This might be in conflict with other options that affect the file mode, like fsGroup, and the result can be other mode bits set.
	//
	DefaultMode *float64 `field:"optional" json:"defaultMode" yaml:"defaultMode"`
	// items If unspecified, each key-value pair in the Data field of the referenced Secret will be projected into the volume as a file whose name is the key and content is the value.
	//
	// If specified, the listed keys will be projected into the specified paths, and unlisted keys will not be present. If a key is specified which is not present in the Secret, the volume setup will error unless it is marked optional. Paths must be relative and may not contain the '..' path or start with '..'.
	Items *[]*KeyToPath `field:"optional" json:"items" yaml:"items"`
	// optional field specify whether the Secret or its keys must be defined.
	Optional *bool `field:"optional" json:"optional" yaml:"optional"`
	// secretName is the name of the secret in the pod's namespace to use.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/volumes#secret
	SecretName *string `field:"optional" json:"secretName" yaml:"secretName"`
}

Adapts a Secret into a volume.

The contents of the target Secret's Data field will be presented in a volume as files using the keys in the Data field as the file names. Secret volumes support ownership management and SELinux relabeling.

type SecurityContext 

type SecurityContext struct {
	// AllowPrivilegeEscalation controls whether a process can gain more privileges than its parent process.
	//
	// This bool directly controls if the no_new_privs flag will be set on the container process. AllowPrivilegeEscalation is true always when the container is: 1) run as Privileged 2) has CAP_SYS_ADMIN Note that this field cannot be set when spec.os.name is windows.
	AllowPrivilegeEscalation *bool `field:"optional" json:"allowPrivilegeEscalation" yaml:"allowPrivilegeEscalation"`
	// The capabilities to add/drop when running containers.
	//
	// Defaults to the default set of capabilities granted by the container runtime. Note that this field cannot be set when spec.os.name is windows.
	// Default: the default set of capabilities granted by the container runtime. Note that this field cannot be set when spec.os.name is windows.
	//
	Capabilities *Capabilities `field:"optional" json:"capabilities" yaml:"capabilities"`
	// Run container in privileged mode.
	//
	// Processes in privileged containers are essentially equivalent to root on the host. Defaults to false. Note that this field cannot be set when spec.os.name is windows.
	// Default: false. Note that this field cannot be set when spec.os.name is windows.
	//
	Privileged *bool `field:"optional" json:"privileged" yaml:"privileged"`
	// procMount denotes the type of proc mount to use for the containers.
	//
	// The default is DefaultProcMount which uses the container runtime defaults for readonly paths and masked paths. This requires the ProcMountType feature flag to be enabled. Note that this field cannot be set when spec.os.name is windows.
	ProcMount *string `field:"optional" json:"procMount" yaml:"procMount"`
	// Whether this container has a read-only root filesystem.
	//
	// Default is false. Note that this field cannot be set when spec.os.name is windows.
	// Default: false. Note that this field cannot be set when spec.os.name is windows.
	//
	ReadOnlyRootFilesystem *bool `field:"optional" json:"readOnlyRootFilesystem" yaml:"readOnlyRootFilesystem"`
	// The GID to run the entrypoint of the container process.
	//
	// Uses runtime default if unset. May also be set in PodSecurityContext.  If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence. Note that this field cannot be set when spec.os.name is windows.
	RunAsGroup *float64 `field:"optional" json:"runAsGroup" yaml:"runAsGroup"`
	// Indicates that the container must run as a non-root user.
	//
	// If true, the Kubelet will validate the image at runtime to ensure that it does not run as UID 0 (root) and fail to start the container if it does. If unset or false, no such validation will be performed. May also be set in PodSecurityContext.  If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence.
	RunAsNonRoot *bool `field:"optional" json:"runAsNonRoot" yaml:"runAsNonRoot"`
	// The UID to run the entrypoint of the container process.
	//
	// Defaults to user specified in image metadata if unspecified. May also be set in PodSecurityContext.  If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence. Note that this field cannot be set when spec.os.name is windows.
	// Default: user specified in image metadata if unspecified. May also be set in PodSecurityContext.  If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence. Note that this field cannot be set when spec.os.name is windows.
	//
	RunAsUser *float64 `field:"optional" json:"runAsUser" yaml:"runAsUser"`
	// The seccomp options to use by this container.
	//
	// If seccomp options are provided at both the pod & container level, the container options override the pod options. Note that this field cannot be set when spec.os.name is windows.
	SeccompProfile *SeccompProfile `field:"optional" json:"seccompProfile" yaml:"seccompProfile"`
	// The SELinux context to be applied to the container.
	//
	// If unspecified, the container runtime will allocate a random SELinux context for each container.  May also be set in PodSecurityContext.  If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence. Note that this field cannot be set when spec.os.name is windows.
	SeLinuxOptions *SeLinuxOptions `field:"optional" json:"seLinuxOptions" yaml:"seLinuxOptions"`
	// The Windows specific settings applied to all containers.
	//
	// If unspecified, the options from the PodSecurityContext will be used. If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence. Note that this field cannot be set when spec.os.name is linux.
	WindowsOptions *WindowsSecurityContextOptions `field:"optional" json:"windowsOptions" yaml:"windowsOptions"`
}

SecurityContext holds security configuration that will be applied to a container.

Some fields are present in both SecurityContext and PodSecurityContext. When both are set, the values in SecurityContext take precedence.

type SelfSubjectAccessReviewSpec 

type SelfSubjectAccessReviewSpec struct {
	// NonResourceAttributes describes information for a non-resource access request.
	NonResourceAttributes *NonResourceAttributes `field:"optional" json:"nonResourceAttributes" yaml:"nonResourceAttributes"`
	// ResourceAuthorizationAttributes describes information for a resource access request.
	ResourceAttributes *ResourceAttributes `field:"optional" json:"resourceAttributes" yaml:"resourceAttributes"`
}

SelfSubjectAccessReviewSpec is a description of the access request.

Exactly one of ResourceAuthorizationAttributes and NonResourceAuthorizationAttributes must be set.

type SelfSubjectRulesReviewSpec 

type SelfSubjectRulesReviewSpec struct {
	// Namespace to evaluate rules for.
	//
	// Required.
	Namespace *string `field:"optional" json:"namespace" yaml:"namespace"`
}

SelfSubjectRulesReviewSpec defines the specification for SelfSubjectRulesReview.

type ServiceAccountSubjectV1Beta2 

type ServiceAccountSubjectV1Beta2 struct {
	// `name` is the name of matching ServiceAccount objects, or "*" to match regardless of name.
	//
	// Required.
	Name *string `field:"required" json:"name" yaml:"name"`
	// `namespace` is the namespace of matching ServiceAccount objects.
	//
	// Required.
	Namespace *string `field:"required" json:"namespace" yaml:"namespace"`
}

ServiceAccountSubject holds detailed information for service-account-kind subject.

type ServiceAccountSubjectV1Beta3 

type ServiceAccountSubjectV1Beta3 struct {
	// `name` is the name of matching ServiceAccount objects, or "*" to match regardless of name.
	//
	// Required.
	Name *string `field:"required" json:"name" yaml:"name"`
	// `namespace` is the namespace of matching ServiceAccount objects.
	//
	// Required.
	Namespace *string `field:"required" json:"namespace" yaml:"namespace"`
}

ServiceAccountSubject holds detailed information for service-account-kind subject.

type ServiceAccountTokenProjection 

type ServiceAccountTokenProjection struct {
	// path is the path relative to the mount point of the file to project the token into.
	Path *string `field:"required" json:"path" yaml:"path"`
	// audience is the intended audience of the token.
	//
	// A recipient of a token must identify itself with an identifier specified in the audience of the token, and otherwise should reject the token. The audience defaults to the identifier of the apiserver.
	Audience *string `field:"optional" json:"audience" yaml:"audience"`
	// expirationSeconds is the requested duration of validity of the service account token.
	//
	// As the token approaches expiration, the kubelet volume plugin will proactively rotate the service account token. The kubelet will start trying to rotate the token if the token is older than 80 percent of its time to live or if the token is older than 24 hours.Defaults to 1 hour and must be at least 10 minutes.
	// Default: 1 hour and must be at least 10 minutes.
	//
	ExpirationSeconds *float64 `field:"optional" json:"expirationSeconds" yaml:"expirationSeconds"`
}

ServiceAccountTokenProjection represents a projected service account token volume.

This projection can be used to insert a service account token into the pods runtime filesystem for use against APIs (Kubernetes API Server or otherwise).

type ServiceBackendPort 

type ServiceBackendPort struct {
	// name is the name of the port on the Service.
	//
	// This is a mutually exclusive setting with "Number".
	Name *string `field:"optional" json:"name" yaml:"name"`
	// number is the numerical port number (e.g. 80) on the Service. This is a mutually exclusive setting with "Name".
	Number *float64 `field:"optional" json:"number" yaml:"number"`
}

ServiceBackendPort is the service port being referenced.

type ServicePort 

type ServicePort struct {
	// The port that will be exposed by this service.
	Port *float64 `field:"required" json:"port" yaml:"port"`
	// The application protocol for this port.
	//
	// This field follows standard Kubernetes label syntax. Un-prefixed names are reserved for IANA standard service names (as per RFC-6335 and https://www.iana.org/assignments/service-names). Non-standard protocols should use prefixed names such as mycompany.com/my-custom-protocol.
	AppProtocol *string `field:"optional" json:"appProtocol" yaml:"appProtocol"`
	// The name of this port within the service.
	//
	// This must be a DNS_LABEL. All ports within a ServiceSpec must have unique names. When considering the endpoints for a Service, this must match the 'name' field in the EndpointPort. Optional if only one ServicePort is defined on this service.
	Name *string `field:"optional" json:"name" yaml:"name"`
	// The port on each node on which this service is exposed when type is NodePort or LoadBalancer.
	//
	// Usually assigned by the system. If a value is specified, in-range, and not in use it will be used, otherwise the operation will fail.  If not specified, a port will be allocated if this Service requires one.  If this field is specified when creating a Service which does not need it, creation will fail. This field will be wiped when updating a Service to no longer need it (e.g. changing type from NodePort to ClusterIP). More info: https://kubernetes.io/docs/concepts/services-networking/service/#type-nodeport
	NodePort *float64 `field:"optional" json:"nodePort" yaml:"nodePort"`
	// The IP protocol for this port.
	//
	// Supports "TCP", "UDP", and "SCTP". Default is TCP.
	// Default: TCP.
	//
	Protocol *string `field:"optional" json:"protocol" yaml:"protocol"`
	// Number or name of the port to access on the pods targeted by the service.
	//
	// Number must be in the range 1 to 65535. Name must be an IANA_SVC_NAME. If this is a string, it will be looked up as a named port in the target Pod's container ports. If this is not specified, the value of the 'port' field is used (an identity map). This field is ignored for services with clusterIP=None, and should be omitted or set equal to the 'port' field. More info: https://kubernetes.io/docs/concepts/services-networking/service/#defining-a-service
	TargetPort IntOrString `field:"optional" json:"targetPort" yaml:"targetPort"`
}

ServicePort contains information on service's port.

type ServiceReference 

type ServiceReference struct {
	// `name` is the name of the service.
	//
	// Required.
	Name *string `field:"required" json:"name" yaml:"name"`
	// `namespace` is the namespace of the service.
	//
	// Required.
	Namespace *string `field:"required" json:"namespace" yaml:"namespace"`
	// `path` is an optional URL path which will be sent in any request to this service.
	Path *string `field:"optional" json:"path" yaml:"path"`
	// If specified, the port on the service that hosting webhook.
	//
	// Default to 443 for backward compatibility. `port` should be a valid port number (1-65535, inclusive).
	// Default: 443 for backward compatibility. `port` should be a valid port number (1-65535, inclusive).
	//
	Port *float64 `field:"optional" json:"port" yaml:"port"`
}

ServiceReference holds a reference to Service.legacy.k8s.io.

type ServiceSpec 

type ServiceSpec struct {
	// allocateLoadBalancerNodePorts defines if NodePorts will be automatically allocated for services with type LoadBalancer.
	//
	// Default is "true". It may be set to "false" if the cluster load-balancer does not rely on NodePorts.  If the caller requests specific NodePorts (by specifying a value), those requests will be respected, regardless of this field. This field may only be set for services with type LoadBalancer and will be cleared if the type is changed to any other type.
	// Default: true". It may be set to "false" if the cluster load-balancer does not rely on NodePorts.  If the caller requests specific NodePorts (by specifying a value), those requests will be respected, regardless of this field. This field may only be set for services with type LoadBalancer and will be cleared if the type is changed to any other type.
	//
	AllocateLoadBalancerNodePorts *bool `field:"optional" json:"allocateLoadBalancerNodePorts" yaml:"allocateLoadBalancerNodePorts"`
	// clusterIP is the IP address of the service and is usually assigned randomly.
	//
	// If an address is specified manually, is in-range (as per system configuration), and is not in use, it will be allocated to the service; otherwise creation of the service will fail. This field may not be changed through updates unless the type field is also being changed to ExternalName (which requires this field to be blank) or the type field is being changed from ExternalName (in which case this field may optionally be specified, as describe above).  Valid values are "None", empty string (""), or a valid IP address. Setting this to "None" makes a "headless service" (no virtual IP), which is useful when direct endpoint connections are preferred and proxying is not required.  Only applies to types ClusterIP, NodePort, and LoadBalancer. If this field is specified when creating a Service of type ExternalName, creation will fail. This field will be wiped when updating a Service to type ExternalName. More info: https://kubernetes.io/docs/concepts/services-networking/service/#virtual-ips-and-service-proxies
	ClusterIp *string `field:"optional" json:"clusterIp" yaml:"clusterIp"`
	// ClusterIPs is a list of IP addresses assigned to this service, and are usually assigned randomly.
	//
	// If an address is specified manually, is in-range (as per system configuration), and is not in use, it will be allocated to the service; otherwise creation of the service will fail. This field may not be changed through updates unless the type field is also being changed to ExternalName (which requires this field to be empty) or the type field is being changed from ExternalName (in which case this field may optionally be specified, as describe above).  Valid values are "None", empty string (""), or a valid IP address.  Setting this to "None" makes a "headless service" (no virtual IP), which is useful when direct endpoint connections are preferred and proxying is not required.  Only applies to types ClusterIP, NodePort, and LoadBalancer. If this field is specified when creating a Service of type ExternalName, creation will fail. This field will be wiped when updating a Service to type ExternalName.  If this field is not specified, it will be initialized from the clusterIP field.  If this field is specified, clients must ensure that clusterIPs[0] and clusterIP have the same value.
	//
	// This field may hold a maximum of two entries (dual-stack IPs, in either order). These IPs must correspond to the values of the ipFamilies field. Both clusterIPs and ipFamilies are governed by the ipFamilyPolicy field. More info: https://kubernetes.io/docs/concepts/services-networking/service/#virtual-ips-and-service-proxies
	ClusterIPs *[]*string `field:"optional" json:"clusterIPs" yaml:"clusterIPs"`
	// externalIPs is a list of IP addresses for which nodes in the cluster will also accept traffic for this service.
	//
	// These IPs are not managed by Kubernetes.  The user is responsible for ensuring that traffic arrives at a node with this IP.  A common example is external load-balancers that are not part of the Kubernetes system.
	ExternalIPs *[]*string `field:"optional" json:"externalIPs" yaml:"externalIPs"`
	// externalName is the external reference that discovery mechanisms will return as an alias for this service (e.g. a DNS CNAME record). No proxying will be involved.  Must be a lowercase RFC-1123 hostname (https://tools.ietf.org/html/rfc1123) and requires `type` to be "ExternalName".
	ExternalName *string `field:"optional" json:"externalName" yaml:"externalName"`
	// externalTrafficPolicy describes how nodes distribute service traffic they receive on one of the Service's "externally-facing" addresses (NodePorts, ExternalIPs, and LoadBalancer IPs).
	//
	// If set to "Local", the proxy will configure the service in a way that assumes that external load balancers will take care of balancing the service traffic between nodes, and so each node will deliver traffic only to the node-local endpoints of the service, without masquerading the client source IP. (Traffic mistakenly sent to a node with no endpoints will be dropped.) The default value, "Cluster", uses the standard behavior of routing to all endpoints evenly (possibly modified by topology and other features). Note that traffic sent to an External IP or LoadBalancer IP from within the cluster will always get "Cluster" semantics, but clients sending to a NodePort from within the cluster may need to take traffic policy into account when picking a node.
	ExternalTrafficPolicy *string `field:"optional" json:"externalTrafficPolicy" yaml:"externalTrafficPolicy"`
	// healthCheckNodePort specifies the healthcheck nodePort for the service.
	//
	// This only applies when type is set to LoadBalancer and externalTrafficPolicy is set to Local. If a value is specified, is in-range, and is not in use, it will be used.  If not specified, a value will be automatically allocated.  External systems (e.g. load-balancers) can use this port to determine if a given node holds endpoints for this service or not.  If this field is specified when creating a Service which does not need it, creation will fail. This field will be wiped when updating a Service to no longer need it (e.g. changing type). This field cannot be updated once set.
	HealthCheckNodePort *float64 `field:"optional" json:"healthCheckNodePort" yaml:"healthCheckNodePort"`
	// InternalTrafficPolicy describes how nodes distribute service traffic they receive on the ClusterIP.
	//
	// If set to "Local", the proxy will assume that pods only want to talk to endpoints of the service on the same node as the pod, dropping the traffic if there are no local endpoints. The default value, "Cluster", uses the standard behavior of routing to all endpoints evenly (possibly modified by topology and other features).
	InternalTrafficPolicy *string `field:"optional" json:"internalTrafficPolicy" yaml:"internalTrafficPolicy"`
	// IPFamilies is a list of IP families (e.g. IPv4, IPv6) assigned to this service. This field is usually assigned automatically based on cluster configuration and the ipFamilyPolicy field. If this field is specified manually, the requested family is available in the cluster, and ipFamilyPolicy allows it, it will be used; otherwise creation of the service will fail. This field is conditionally mutable: it allows for adding or removing a secondary IP family, but it does not allow changing the primary IP family of the Service. Valid values are "IPv4" and "IPv6".  This field only applies to Services of types ClusterIP, NodePort, and LoadBalancer, and does apply to "headless" services. This field will be wiped when updating a Service to type ExternalName.
	//
	// This field may hold a maximum of two entries (dual-stack families, in either order).  These families must correspond to the values of the clusterIPs field, if specified. Both clusterIPs and ipFamilies are governed by the ipFamilyPolicy field.
	IpFamilies *[]*string `field:"optional" json:"ipFamilies" yaml:"ipFamilies"`
	// IPFamilyPolicy represents the dual-stack-ness requested or required by this Service.
	//
	// If there is no value provided, then this field will be set to SingleStack. Services can be "SingleStack" (a single IP family), "PreferDualStack" (two IP families on dual-stack configured clusters or a single IP family on single-stack clusters), or "RequireDualStack" (two IP families on dual-stack configured clusters, otherwise fail). The ipFamilies and clusterIPs fields depend on the value of this field. This field will be wiped when updating a service to type ExternalName.
	IpFamilyPolicy *string `field:"optional" json:"ipFamilyPolicy" yaml:"ipFamilyPolicy"`
	// loadBalancerClass is the class of the load balancer implementation this Service belongs to.
	//
	// If specified, the value of this field must be a label-style identifier, with an optional prefix, e.g. "internal-vip" or "example.com/internal-vip". Unprefixed names are reserved for end-users. This field can only be set when the Service type is 'LoadBalancer'. If not set, the default load balancer implementation is used, today this is typically done through the cloud provider integration, but should apply for any default implementation. If set, it is assumed that a load balancer implementation is watching for Services with a matching class. Any default load balancer implementation (e.g. cloud providers) should ignore Services that set this field. This field can only be set when creating or updating a Service to type 'LoadBalancer'. Once set, it can not be changed. This field will be wiped when a service is updated to a non 'LoadBalancer' type.
	LoadBalancerClass *string `field:"optional" json:"loadBalancerClass" yaml:"loadBalancerClass"`
	// Only applies to Service Type: LoadBalancer.
	//
	// This feature depends on whether the underlying cloud-provider supports specifying the loadBalancerIP when a load balancer is created. This field will be ignored if the cloud-provider does not support the feature. Deprecated: This field was under-specified and its meaning varies across implementations, and it cannot support dual-stack. As of Kubernetes v1.24, users are encouraged to use implementation-specific annotations when available. This field may be removed in a future API version.
	LoadBalancerIp *string `field:"optional" json:"loadBalancerIp" yaml:"loadBalancerIp"`
	// If specified and supported by the platform, this will restrict traffic through the cloud-provider load-balancer will be restricted to the specified client IPs.
	//
	// This field will be ignored if the cloud-provider does not support the feature." More info: https://kubernetes.io/docs/tasks/access-application-cluster/create-external-load-balancer/
	LoadBalancerSourceRanges *[]*string `field:"optional" json:"loadBalancerSourceRanges" yaml:"loadBalancerSourceRanges"`
	// The list of ports that are exposed by this service.
	//
	// More info: https://kubernetes.io/docs/concepts/services-networking/service/#virtual-ips-and-service-proxies
	Ports *[]*ServicePort `field:"optional" json:"ports" yaml:"ports"`
	// publishNotReadyAddresses indicates that any agent which deals with endpoints for this Service should disregard any indications of ready/not-ready.
	//
	// The primary use case for setting this field is for a StatefulSet's Headless Service to propagate SRV DNS records for its Pods for the purpose of peer discovery. The Kubernetes controllers that generate Endpoints and EndpointSlice resources for Services interpret this to mean that all endpoints are considered "ready" even if the Pods themselves are not. Agents which consume only Kubernetes generated endpoints through the Endpoints or EndpointSlice resources can safely assume this behavior.
	PublishNotReadyAddresses *bool `field:"optional" json:"publishNotReadyAddresses" yaml:"publishNotReadyAddresses"`
	// Route service traffic to pods with label keys and values matching this selector.
	//
	// If empty or not present, the service is assumed to have an external process managing its endpoints, which Kubernetes will not modify. Only applies to types ClusterIP, NodePort, and LoadBalancer. Ignored if type is ExternalName. More info: https://kubernetes.io/docs/concepts/services-networking/service/
	Selector *map[string]*string `field:"optional" json:"selector" yaml:"selector"`
	// Supports "ClientIP" and "None".
	//
	// Used to maintain session affinity. Enable client IP based session affinity. Must be ClientIP or None. Defaults to None. More info: https://kubernetes.io/docs/concepts/services-networking/service/#virtual-ips-and-service-proxies
	// Default: None. More info: https://kubernetes.io/docs/concepts/services-networking/service/#virtual-ips-and-service-proxies
	//
	SessionAffinity *string `field:"optional" json:"sessionAffinity" yaml:"sessionAffinity"`
	// sessionAffinityConfig contains the configurations of session affinity.
	SessionAffinityConfig *SessionAffinityConfig `field:"optional" json:"sessionAffinityConfig" yaml:"sessionAffinityConfig"`
	// type determines how the Service is exposed.
	//
	// Defaults to ClusterIP. Valid options are ExternalName, ClusterIP, NodePort, and LoadBalancer. "ClusterIP" allocates a cluster-internal IP address for load-balancing to endpoints. Endpoints are determined by the selector or if that is not specified, by manual construction of an Endpoints object or EndpointSlice objects. If clusterIP is "None", no virtual IP is allocated and the endpoints are published as a set of endpoints rather than a virtual IP. "NodePort" builds on ClusterIP and allocates a port on every node which routes to the same endpoints as the clusterIP. "LoadBalancer" builds on NodePort and creates an external load-balancer (if supported in the current cloud) which routes to the same endpoints as the clusterIP. "ExternalName" aliases this service to the specified externalName. Several other fields do not apply to ExternalName services. More info: https://kubernetes.io/docs/concepts/services-networking/service/#publishing-services-service-types
	// Default: ClusterIP. Valid options are ExternalName, ClusterIP, NodePort, and LoadBalancer. "ClusterIP" allocates a cluster-internal IP address for load-balancing to endpoints. Endpoints are determined by the selector or if that is not specified, by manual construction of an Endpoints object or EndpointSlice objects. If clusterIP is "None", no virtual IP is allocated and the endpoints are published as a set of endpoints rather than a virtual IP. "NodePort" builds on ClusterIP and allocates a port on every node which routes to the same endpoints as the clusterIP. "LoadBalancer" builds on NodePort and creates an external load-balancer (if supported in the current cloud) which routes to the same endpoints as the clusterIP. "ExternalName" aliases this service to the specified externalName. Several other fields do not apply to ExternalName services. More info: https://kubernetes.io/docs/concepts/services-networking/service/#publishing-services-service-types
	//
	Type *string `field:"optional" json:"type" yaml:"type"`
}

ServiceSpec describes the attributes that a user creates on a service.

type SessionAffinityConfig 

type SessionAffinityConfig struct {
	// clientIP contains the configurations of Client IP based session affinity.
	ClientIp *ClientIpConfig `field:"optional" json:"clientIp" yaml:"clientIp"`
}

SessionAffinityConfig represents the configurations of session affinity.

type StatefulSetOrdinals 

type StatefulSetOrdinals struct {
	// start is the number representing the first replica's index.
	//
	// It may be used to number replicas from an alternate index (eg: 1-indexed) over the default 0-indexed names, or to orchestrate progressive movement of replicas from one StatefulSet to another. If set, replica indices will be in the range:
	// [.spec.ordinals.start, .spec.ordinals.start + .spec.replicas).
	// If unset, defaults to 0. Replica indices will be in the range:
	// [0, .spec.replicas).
	Start *float64 `field:"optional" json:"start" yaml:"start"`
}

StatefulSetOrdinals describes the policy used for replica ordinal assignment in this StatefulSet.

type StatefulSetPersistentVolumeClaimRetentionPolicy 

type StatefulSetPersistentVolumeClaimRetentionPolicy struct {
	// WhenDeleted specifies what happens to PVCs created from StatefulSet VolumeClaimTemplates when the StatefulSet is deleted.
	//
	// The default policy of `Retain` causes PVCs to not be affected by StatefulSet deletion. The `Delete` policy causes those PVCs to be deleted.
	WhenDeleted *string `field:"optional" json:"whenDeleted" yaml:"whenDeleted"`
	// WhenScaled specifies what happens to PVCs created from StatefulSet VolumeClaimTemplates when the StatefulSet is scaled down.
	//
	// The default policy of `Retain` causes PVCs to not be affected by a scaledown. The `Delete` policy causes the associated PVCs for any excess pods above the replica count to be deleted.
	WhenScaled *string `field:"optional" json:"whenScaled" yaml:"whenScaled"`
}

StatefulSetPersistentVolumeClaimRetentionPolicy describes the policy used for PVCs created from the StatefulSet VolumeClaimTemplates.

type StatefulSetSpec 

type StatefulSetSpec struct {
	// selector is a label query over pods that should match the replica count.
	//
	// It must match the pod template's labels. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/#label-selectors
	Selector *LabelSelector `field:"required" json:"selector" yaml:"selector"`
	// serviceName is the name of the service that governs this StatefulSet.
	//
	// This service must exist before the StatefulSet, and is responsible for the network identity of the set. Pods get DNS/hostnames that follow the pattern: pod-specific-string.serviceName.default.svc.cluster.local where "pod-specific-string" is managed by the StatefulSet controller.
	ServiceName *string `field:"required" json:"serviceName" yaml:"serviceName"`
	// template is the object that describes the pod that will be created if insufficient replicas are detected.
	//
	// Each pod stamped out by the StatefulSet will fulfill this Template, but have a unique identity from the rest of the StatefulSet. Each pod will be named with the format <statefulsetname>-<podindex>. For example, a pod in a StatefulSet named "web" with index number "3" would be named "web-3". The only allowed template.spec.restartPolicy value is "Always".
	Template *PodTemplateSpec `field:"required" json:"template" yaml:"template"`
	// Minimum number of seconds for which a newly created pod should be ready without any of its container crashing for it to be considered available.
	//
	// Defaults to 0 (pod will be considered available as soon as it is ready).
	// Default: 0 (pod will be considered available as soon as it is ready).
	//
	MinReadySeconds *float64 `field:"optional" json:"minReadySeconds" yaml:"minReadySeconds"`
	// ordinals controls the numbering of replica indices in a StatefulSet.
	//
	// The default ordinals behavior assigns a "0" index to the first replica and increments the index by one for each additional replica requested. Using the ordinals field requires the StatefulSetStartOrdinal feature gate to be enabled, which is beta.
	Ordinals *StatefulSetOrdinals `field:"optional" json:"ordinals" yaml:"ordinals"`
	// persistentVolumeClaimRetentionPolicy describes the lifecycle of persistent volume claims created from volumeClaimTemplates.
	//
	// By default, all persistent volume claims are created as needed and retained until manually deleted. This policy allows the lifecycle to be altered, for example by deleting persistent volume claims when their stateful set is deleted, or when their pod is scaled down. This requires the StatefulSetAutoDeletePVC feature gate to be enabled, which is alpha.  +optional
	PersistentVolumeClaimRetentionPolicy *StatefulSetPersistentVolumeClaimRetentionPolicy `field:"optional" json:"persistentVolumeClaimRetentionPolicy" yaml:"persistentVolumeClaimRetentionPolicy"`
	// podManagementPolicy controls how pods are created during initial scale up, when replacing pods on nodes, or when scaling down.
	//
	// The default policy is `OrderedReady`, where pods are created in increasing order (pod-0, then pod-1, etc) and the controller will wait until each pod is ready before continuing. When scaling down, the pods are removed in the opposite order. The alternative policy is `Parallel` which will create pods in parallel to match the desired scale without waiting, and on scale down will delete all pods at once.
	PodManagementPolicy *string `field:"optional" json:"podManagementPolicy" yaml:"podManagementPolicy"`
	// replicas is the desired number of replicas of the given Template.
	//
	// These are replicas in the sense that they are instantiations of the same Template, but individual replicas also have a consistent identity. If unspecified, defaults to 1.
	Replicas *float64 `field:"optional" json:"replicas" yaml:"replicas"`
	// revisionHistoryLimit is the maximum number of revisions that will be maintained in the StatefulSet's revision history.
	//
	// The revision history consists of all revisions not represented by a currently applied StatefulSetSpec version. The default value is 10.
	RevisionHistoryLimit *float64 `field:"optional" json:"revisionHistoryLimit" yaml:"revisionHistoryLimit"`
	// updateStrategy indicates the StatefulSetUpdateStrategy that will be employed to update Pods in the StatefulSet when a revision is made to Template.
	UpdateStrategy *StatefulSetUpdateStrategy `field:"optional" json:"updateStrategy" yaml:"updateStrategy"`
	// volumeClaimTemplates is a list of claims that pods are allowed to reference.
	//
	// The StatefulSet controller is responsible for mapping network identities to claims in a way that maintains the identity of a pod. Every claim in this list must have at least one matching (by name) volumeMount in one container in the template. A claim in this list takes precedence over any volumes in the template, with the same name.
	VolumeClaimTemplates *[]*KubePersistentVolumeClaimProps `field:"optional" json:"volumeClaimTemplates" yaml:"volumeClaimTemplates"`
}

A StatefulSetSpec is the specification of a StatefulSet.

type StatefulSetUpdateStrategy 

type StatefulSetUpdateStrategy struct {
	// RollingUpdate is used to communicate parameters when Type is RollingUpdateStatefulSetStrategyType.
	RollingUpdate *RollingUpdateStatefulSetStrategy `field:"optional" json:"rollingUpdate" yaml:"rollingUpdate"`
	// Type indicates the type of the StatefulSetUpdateStrategy.
	//
	// Default is RollingUpdate.
	// Default: RollingUpdate.
	//
	Type *string `field:"optional" json:"type" yaml:"type"`
}

StatefulSetUpdateStrategy indicates the strategy that the StatefulSet controller will use to perform updates.

It includes any additional parameters necessary to perform the update for the indicated strategy.

type StatusCause 

type StatusCause struct {
	// The field of the resource that has caused this error, as named by its JSON serialization.
	//
	// May include dot and postfix notation for nested attributes. Arrays are zero-indexed.  Fields may appear more than once in an array of causes due to fields having multiple errors. Optional.
	//
	// Examples:
	// "name" - the field "name" on the current resource
	// "items[0].name" - the field "name" on the first array entry in "items"
	Field *string `field:"optional" json:"field" yaml:"field"`
	// A human-readable description of the cause of the error.
	//
	// This field may be presented as-is to a reader.
	Message *string `field:"optional" json:"message" yaml:"message"`
	// A machine-readable description of the cause of the error.
	//
	// If this value is empty there is no information available.
	Reason *string `field:"optional" json:"reason" yaml:"reason"`
}

StatusCause provides more information about an api.Status failure, including cases when multiple errors are encountered.

type StatusDetails 

type StatusDetails struct {
	// The Causes array includes more details associated with the StatusReason failure.
	//
	// Not all StatusReasons may provide detailed causes.
	Causes *[]*StatusCause `field:"optional" json:"causes" yaml:"causes"`
	// The group attribute of the resource associated with the status StatusReason.
	Group *string `field:"optional" json:"group" yaml:"group"`
	// The kind attribute of the resource associated with the status StatusReason.
	//
	// On some operations may differ from the requested resource Kind. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
	Kind *string `field:"optional" json:"kind" yaml:"kind"`
	// The name attribute of the resource associated with the status StatusReason (when there is a single name which can be described).
	Name *string `field:"optional" json:"name" yaml:"name"`
	// If specified, the time in seconds before the operation should be retried.
	//
	// Some errors may indicate the client must take an alternate action - for those errors this field may indicate how long to wait before taking the alternate action.
	RetryAfterSeconds *float64 `field:"optional" json:"retryAfterSeconds" yaml:"retryAfterSeconds"`
	// UID of the resource.
	//
	// (when there is a single resource which can be described). More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#uids
	Uid *string `field:"optional" json:"uid" yaml:"uid"`
}

StatusDetails is a set of additional properties that MAY be set by the server to provide additional information about a response.

The Reason field of a Status object defines what attributes will be set. Clients must ignore fields that do not match the defined type of each attribute, and should assume that any attribute may be empty, invalid, or under defined.

type StorageOsPersistentVolumeSource 

type StorageOsPersistentVolumeSource struct {
	// fsType is the filesystem type to mount.
	//
	// Must be a filesystem type supported by the host operating system. Ex. "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified.
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// readOnly defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts.
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretRef specifies the secret to use for obtaining the StorageOS API credentials.
	//
	// If not specified, default values will be attempted.
	SecretRef *ObjectReference `field:"optional" json:"secretRef" yaml:"secretRef"`
	// volumeName is the human-readable name of the StorageOS volume.
	//
	// Volume names are only unique within a namespace.
	VolumeName *string `field:"optional" json:"volumeName" yaml:"volumeName"`
	// volumeNamespace specifies the scope of the volume within StorageOS.
	//
	// If no namespace is specified then the Pod's namespace will be used.  This allows the Kubernetes name scoping to be mirrored within StorageOS for tighter integration. Set VolumeName to any name to override the default behaviour. Set to "default" if you are not using namespaces within StorageOS. Namespaces that do not pre-exist within StorageOS will be created.
	VolumeNamespace *string `field:"optional" json:"volumeNamespace" yaml:"volumeNamespace"`
}

Represents a StorageOS persistent volume resource.

type StorageOsVolumeSource 

type StorageOsVolumeSource struct {
	// fsType is the filesystem type to mount.
	//
	// Must be a filesystem type supported by the host operating system. Ex. "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified.
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// readOnly defaults to false (read/write).
	//
	// ReadOnly here will force the ReadOnly setting in VolumeMounts.
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// secretRef specifies the secret to use for obtaining the StorageOS API credentials.
	//
	// If not specified, default values will be attempted.
	SecretRef *LocalObjectReference `field:"optional" json:"secretRef" yaml:"secretRef"`
	// volumeName is the human-readable name of the StorageOS volume.
	//
	// Volume names are only unique within a namespace.
	VolumeName *string `field:"optional" json:"volumeName" yaml:"volumeName"`
	// volumeNamespace specifies the scope of the volume within StorageOS.
	//
	// If no namespace is specified then the Pod's namespace will be used.  This allows the Kubernetes name scoping to be mirrored within StorageOS for tighter integration. Set VolumeName to any name to override the default behaviour. Set to "default" if you are not using namespaces within StorageOS. Namespaces that do not pre-exist within StorageOS will be created.
	VolumeNamespace *string `field:"optional" json:"volumeNamespace" yaml:"volumeNamespace"`
}

Represents a StorageOS persistent volume resource.

type Subject 

type Subject struct {
	// Kind of object being referenced.
	//
	// Values defined by this API group are "User", "Group", and "ServiceAccount". If the Authorizer does not recognized the kind value, the Authorizer should report an error.
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// Name of the object being referenced.
	Name *string `field:"required" json:"name" yaml:"name"`
	// APIGroup holds the API group of the referenced subject.
	//
	// Defaults to "" for ServiceAccount subjects. Defaults to "rbac.authorization.k8s.io" for User and Group subjects.
	// Default: for ServiceAccount subjects. Defaults to "rbac.authorization.k8s.io" for User and Group subjects.
	//
	ApiGroup *string `field:"optional" json:"apiGroup" yaml:"apiGroup"`
	// Namespace of the referenced object.
	//
	// If the object kind is non-namespace, such as "User" or "Group", and this value is not empty the Authorizer should report an error.
	Namespace *string `field:"optional" json:"namespace" yaml:"namespace"`
}

Subject contains a reference to the object or user identities a role binding applies to.

This can either hold a direct API object reference, or a value for non-objects such as user and group names.

type SubjectAccessReviewSpec 

type SubjectAccessReviewSpec struct {
	// Extra corresponds to the user.Info.GetExtra() method from the authenticator.  Since that is input to the authorizer it needs a reflection here.
	Extra *map[string]*[]*string `field:"optional" json:"extra" yaml:"extra"`
	// Groups is the groups you're testing for.
	Groups *[]*string `field:"optional" json:"groups" yaml:"groups"`
	// NonResourceAttributes describes information for a non-resource access request.
	NonResourceAttributes *NonResourceAttributes `field:"optional" json:"nonResourceAttributes" yaml:"nonResourceAttributes"`
	// ResourceAuthorizationAttributes describes information for a resource access request.
	ResourceAttributes *ResourceAttributes `field:"optional" json:"resourceAttributes" yaml:"resourceAttributes"`
	// UID information about the requesting user.
	Uid *string `field:"optional" json:"uid" yaml:"uid"`
	// User is the user you're testing for.
	//
	// If you specify "User" but not "Groups", then is it interpreted as "What if User were not a member of any groups.
	User *string `field:"optional" json:"user" yaml:"user"`
}

SubjectAccessReviewSpec is a description of the access request.

Exactly one of ResourceAuthorizationAttributes and NonResourceAuthorizationAttributes must be set.

type SubjectV1Beta2 

type SubjectV1Beta2 struct {
	// `kind` indicates which one of the other fields is non-empty.
	//
	// Required.
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// `group` matches based on user group name.
	Group *GroupSubjectV1Beta2 `field:"optional" json:"group" yaml:"group"`
	// `serviceAccount` matches ServiceAccounts.
	ServiceAccount *ServiceAccountSubjectV1Beta2 `field:"optional" json:"serviceAccount" yaml:"serviceAccount"`
	// `user` matches based on username.
	User *UserSubjectV1Beta2 `field:"optional" json:"user" yaml:"user"`
}

Subject matches the originator of a request, as identified by the request authentication system.

There are three ways of matching an originator; by user, group, or service account.

type SubjectV1Beta3 

type SubjectV1Beta3 struct {
	// `kind` indicates which one of the other fields is non-empty.
	//
	// Required.
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// `group` matches based on user group name.
	Group *GroupSubjectV1Beta3 `field:"optional" json:"group" yaml:"group"`
	// `serviceAccount` matches ServiceAccounts.
	ServiceAccount *ServiceAccountSubjectV1Beta3 `field:"optional" json:"serviceAccount" yaml:"serviceAccount"`
	// `user` matches based on username.
	User *UserSubjectV1Beta3 `field:"optional" json:"user" yaml:"user"`
}

Subject matches the originator of a request, as identified by the request authentication system.

There are three ways of matching an originator; by user, group, or service account.

type Sysctl 

type Sysctl struct {
	// Name of a property to set.
	Name *string `field:"required" json:"name" yaml:"name"`
	// Value of a property to set.
	Value *string `field:"required" json:"value" yaml:"value"`
}

Sysctl defines a kernel parameter to be set.

type Taint 

type Taint struct {
	// Required.
	//
	// The effect of the taint on pods that do not tolerate the taint. Valid effects are NoSchedule, PreferNoSchedule and NoExecute.
	Effect *string `field:"required" json:"effect" yaml:"effect"`
	// Required.
	//
	// The taint key to be applied to a node.
	Key *string `field:"required" json:"key" yaml:"key"`
	// TimeAdded represents the time at which the taint was added.
	//
	// It is only written for NoExecute taints.
	TimeAdded *time.Time `field:"optional" json:"timeAdded" yaml:"timeAdded"`
	// The taint value corresponding to the taint key.
	Value *string `field:"optional" json:"value" yaml:"value"`
}

The node this Taint is attached to has the "effect" on any pod that does not tolerate the Taint.

type TcpSocketAction 

type TcpSocketAction struct {
	// Number or name of the port to access on the container.
	//
	// Number must be in the range 1 to 65535. Name must be an IANA_SVC_NAME.
	Port IntOrString `field:"required" json:"port" yaml:"port"`
	// Optional: Host name to connect to, defaults to the pod IP.
	Host *string `field:"optional" json:"host" yaml:"host"`
}

TCPSocketAction describes an action based on opening a socket.

type TokenRequest 

type TokenRequest struct {
	// audience is the intended audience of the token in "TokenRequestSpec".
	//
	// It will default to the audiences of kube apiserver.
	Audience *string `field:"required" json:"audience" yaml:"audience"`
	// expirationSeconds is the duration of validity of the token in "TokenRequestSpec".
	//
	// It has the same default value of "ExpirationSeconds" in "TokenRequestSpec".
	ExpirationSeconds *float64 `field:"optional" json:"expirationSeconds" yaml:"expirationSeconds"`
}

TokenRequest contains parameters of a service account token.

type TokenRequestSpec 

type TokenRequestSpec struct {
	// Audiences are the intendend audiences of the token.
	//
	// A recipient of a token must identify themself with an identifier in the list of audiences of the token, and otherwise should reject the token. A token issued for multiple audiences may be used to authenticate against any of the audiences listed but implies a high degree of trust between the target audiences.
	Audiences *[]*string `field:"required" json:"audiences" yaml:"audiences"`
	// BoundObjectRef is a reference to an object that the token will be bound to.
	//
	// The token will only be valid for as long as the bound object exists. NOTE: The API server's TokenReview endpoint will validate the BoundObjectRef, but other audiences may not. Keep ExpirationSeconds small if you want prompt revocation.
	BoundObjectRef *BoundObjectReference `field:"optional" json:"boundObjectRef" yaml:"boundObjectRef"`
	// ExpirationSeconds is the requested duration of validity of the request.
	//
	// The token issuer may return a token with a different validity duration so a client needs to check the 'expiration' field in a response.
	ExpirationSeconds *float64 `field:"optional" json:"expirationSeconds" yaml:"expirationSeconds"`
}

TokenRequestSpec contains client provided parameters of a token request.

type TokenReviewSpec 

type TokenReviewSpec struct {
	// Audiences is a list of the identifiers that the resource server presented with the token identifies as.
	//
	// Audience-aware token authenticators will verify that the token was intended for at least one of the audiences in this list. If no audiences are provided, the audience will default to the audience of the Kubernetes apiserver.
	Audiences *[]*string `field:"optional" json:"audiences" yaml:"audiences"`
	// Token is the opaque bearer token.
	Token *string `field:"optional" json:"token" yaml:"token"`
}

TokenReviewSpec is a description of the token authentication request.

type Toleration 

type Toleration struct {
	// Effect indicates the taint effect to match.
	//
	// Empty means match all taint effects. When specified, allowed values are NoSchedule, PreferNoSchedule and NoExecute.
	Effect *string `field:"optional" json:"effect" yaml:"effect"`
	// Key is the taint key that the toleration applies to.
	//
	// Empty means match all taint keys. If the key is empty, operator must be Exists; this combination means to match all values and all keys.
	Key *string `field:"optional" json:"key" yaml:"key"`
	// Operator represents a key's relationship to the value.
	//
	// Valid operators are Exists and Equal. Defaults to Equal. Exists is equivalent to wildcard for value, so that a pod can tolerate all taints of a particular category.
	// Default: Equal. Exists is equivalent to wildcard for value, so that a pod can tolerate all taints of a particular category.
	//
	Operator *string `field:"optional" json:"operator" yaml:"operator"`
	// TolerationSeconds represents the period of time the toleration (which must be of effect NoExecute, otherwise this field is ignored) tolerates the taint.
	//
	// By default, it is not set, which means tolerate the taint forever (do not evict). Zero and negative values will be treated as 0 (evict immediately) by the system.
	TolerationSeconds *float64 `field:"optional" json:"tolerationSeconds" yaml:"tolerationSeconds"`
	// Value is the taint value the toleration matches to.
	//
	// If the operator is Exists, the value should be empty, otherwise just a regular string.
	Value *string `field:"optional" json:"value" yaml:"value"`
}

The pod this Toleration is attached to tolerates any taint that matches the triple <key,value,effect> using the matching operator <operator>.

type TopologySelectorLabelRequirement 

type TopologySelectorLabelRequirement struct {
	// The label key that the selector applies to.
	Key *string `field:"required" json:"key" yaml:"key"`
	// An array of string values.
	//
	// One value must match the label to be selected. Each entry in Values is ORed.
	Values *[]*string `field:"required" json:"values" yaml:"values"`
}

A topology selector requirement is a selector that matches given label.

This is an alpha feature and may change in the future.

type TopologySelectorTerm 

type TopologySelectorTerm struct {
	// A list of topology selector requirements by labels.
	MatchLabelExpressions *[]*TopologySelectorLabelRequirement `field:"optional" json:"matchLabelExpressions" yaml:"matchLabelExpressions"`
}

A topology selector term represents the result of label queries.

A null or empty topology selector term matches no objects. The requirements of them are ANDed. It provides a subset of functionality as NodeSelectorTerm. This is an alpha feature and may change in the future.

type TopologySpreadConstraint 

type TopologySpreadConstraint struct {
	// MaxSkew describes the degree to which pods may be unevenly distributed.
	//
	// When `whenUnsatisfiable=DoNotSchedule`, it is the maximum permitted difference between the number of matching pods in the target topology and the global minimum. The global minimum is the minimum number of matching pods in an eligible domain or zero if the number of eligible domains is less than MinDomains. For example, in a 3-zone cluster, MaxSkew is set to 1, and pods with the same labelSelector spread as 2/2/1: In this case, the global minimum is 1. | zone1 | zone2 | zone3 | |  P P  |  P P  |   P   | - if MaxSkew is 1, incoming pod can only be scheduled to zone3 to become 2/2/2; scheduling it onto zone1(zone2) would make the ActualSkew(3-1) on zone1(zone2) violate MaxSkew(1). - if MaxSkew is 2, incoming pod can be scheduled onto any zone. When `whenUnsatisfiable=ScheduleAnyway`, it is used to give higher precedence to topologies that satisfy it. It's a required field. Default value is 1 and 0 is not allowed.
	MaxSkew *float64 `field:"required" json:"maxSkew" yaml:"maxSkew"`
	// TopologyKey is the key of node labels.
	//
	// Nodes that have a label with this key and identical values are considered to be in the same topology. We consider each <key, value> as a "bucket", and try to put balanced number of pods into each bucket. We define a domain as a particular instance of a topology. Also, we define an eligible domain as a domain whose nodes meet the requirements of nodeAffinityPolicy and nodeTaintsPolicy. e.g. If TopologyKey is "kubernetes.io/hostname", each Node is a domain of that topology. And, if TopologyKey is "topology.kubernetes.io/zone", each zone is a domain of that topology. It's a required field.
	TopologyKey *string `field:"required" json:"topologyKey" yaml:"topologyKey"`
	// WhenUnsatisfiable indicates how to deal with a pod if it doesn't satisfy the spread constraint.
	//
	// - DoNotSchedule (default) tells the scheduler not to schedule it. - ScheduleAnyway tells the scheduler to schedule the pod in any location,
	// but giving higher precedence to topologies that would help reduce the
	// skew.
	// A constraint is considered "Unsatisfiable" for an incoming pod if and only if every possible node assignment for that pod would violate "MaxSkew" on some topology. For example, in a 3-zone cluster, MaxSkew is set to 1, and pods with the same labelSelector spread as 3/1/1: | zone1 | zone2 | zone3 | | P P P |   P   |   P   | If WhenUnsatisfiable is set to DoNotSchedule, incoming pod can only be scheduled to zone2(zone3) to become 3/2/1(3/1/2) as ActualSkew(2-1) on zone2(zone3) satisfies MaxSkew(1). In other words, the cluster can still be imbalanced, but scheduler won't make it *more* imbalanced. It's a required field.
	WhenUnsatisfiable *string `field:"required" json:"whenUnsatisfiable" yaml:"whenUnsatisfiable"`
	// LabelSelector is used to find matching pods.
	//
	// Pods that match this label selector are counted to determine the number of pods in their corresponding topology domain.
	LabelSelector *LabelSelector `field:"optional" json:"labelSelector" yaml:"labelSelector"`
	// MatchLabelKeys is a set of pod label keys to select the pods over which spreading will be calculated.
	//
	// The keys are used to lookup values from the incoming pod labels, those key-value labels are ANDed with labelSelector to select the group of existing pods over which spreading will be calculated for the incoming pod. The same key is forbidden to exist in both MatchLabelKeys and LabelSelector. MatchLabelKeys cannot be set when LabelSelector isn't set. Keys that don't exist in the incoming pod labels will be ignored. A null or empty list means only match against labelSelector.
	//
	// This is a beta field and requires the MatchLabelKeysInPodTopologySpread feature gate to be enabled (enabled by default).
	MatchLabelKeys *[]*string `field:"optional" json:"matchLabelKeys" yaml:"matchLabelKeys"`
	// MinDomains indicates a minimum number of eligible domains.
	//
	// When the number of eligible domains with matching topology keys is less than minDomains, Pod Topology Spread treats "global minimum" as 0, and then the calculation of Skew is performed. And when the number of eligible domains with matching topology keys equals or greater than minDomains, this value has no effect on scheduling. As a result, when the number of eligible domains is less than minDomains, scheduler won't schedule more than maxSkew Pods to those domains. If value is nil, the constraint behaves as if MinDomains is equal to 1. Valid values are integers greater than 0. When value is not nil, WhenUnsatisfiable must be DoNotSchedule.
	//
	// For example, in a 3-zone cluster, MaxSkew is set to 2, MinDomains is set to 5 and pods with the same labelSelector spread as 2/2/2: | zone1 | zone2 | zone3 | |  P P  |  P P  |  P P  | The number of domains is less than 5(MinDomains), so "global minimum" is treated as 0. In this situation, new pod with the same labelSelector cannot be scheduled, because computed skew will be 3(3 - 0) if new Pod is scheduled to any of the three zones, it will violate MaxSkew.
	//
	// This is a beta field and requires the MinDomainsInPodTopologySpread feature gate to be enabled (enabled by default).
	MinDomains *float64 `field:"optional" json:"minDomains" yaml:"minDomains"`
	// NodeAffinityPolicy indicates how we will treat Pod's nodeAffinity/nodeSelector when calculating pod topology spread skew.
	//
	// Options are: - Honor: only nodes matching nodeAffinity/nodeSelector are included in the calculations. - Ignore: nodeAffinity/nodeSelector are ignored. All nodes are included in the calculations.
	//
	// If this value is nil, the behavior is equivalent to the Honor policy. This is a beta-level feature default enabled by the NodeInclusionPolicyInPodTopologySpread feature flag.
	NodeAffinityPolicy *string `field:"optional" json:"nodeAffinityPolicy" yaml:"nodeAffinityPolicy"`
	// NodeTaintsPolicy indicates how we will treat node taints when calculating pod topology spread skew.
	//
	// Options are: - Honor: nodes without taints, along with tainted nodes for which the incoming pod has a toleration, are included. - Ignore: node taints are ignored. All nodes are included.
	//
	// If this value is nil, the behavior is equivalent to the Ignore policy. This is a beta-level feature default enabled by the NodeInclusionPolicyInPodTopologySpread feature flag.
	NodeTaintsPolicy *string `field:"optional" json:"nodeTaintsPolicy" yaml:"nodeTaintsPolicy"`
}

TopologySpreadConstraint specifies how to spread matching pods among the given topology.

type TypedLocalObjectReference 

type TypedLocalObjectReference struct {
	// Kind is the type of resource being referenced.
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// Name is the name of resource being referenced.
	Name *string `field:"required" json:"name" yaml:"name"`
	// APIGroup is the group for the resource being referenced.
	//
	// If APIGroup is not specified, the specified Kind must be in the core API group. For any other third-party types, APIGroup is required.
	ApiGroup *string `field:"optional" json:"apiGroup" yaml:"apiGroup"`
}

TypedLocalObjectReference contains enough information to let you locate the typed referenced object inside the same namespace.

type TypedObjectReference 

type TypedObjectReference struct {
	// Kind is the type of resource being referenced.
	Kind *string `field:"required" json:"kind" yaml:"kind"`
	// Name is the name of resource being referenced.
	Name *string `field:"required" json:"name" yaml:"name"`
	// APIGroup is the group for the resource being referenced.
	//
	// If APIGroup is not specified, the specified Kind must be in the core API group. For any other third-party types, APIGroup is required.
	ApiGroup *string `field:"optional" json:"apiGroup" yaml:"apiGroup"`
	// Namespace is the namespace of resource being referenced Note that when a namespace is specified, a gateway.networking.k8s.io/ReferenceGrant object is required in the referent namespace to allow that namespace's owner to accept the reference. See the ReferenceGrant documentation for details. (Alpha) This field requires the CrossNamespaceVolumeDataSource feature gate to be enabled.
	Namespace *string `field:"optional" json:"namespace" yaml:"namespace"`
}

type UserSubjectV1Beta2 

type UserSubjectV1Beta2 struct {
	// `name` is the username that matches, or "*" to match all usernames.
	//
	// Required.
	Name *string `field:"required" json:"name" yaml:"name"`
}

UserSubject holds detailed information for user-kind subject.

type UserSubjectV1Beta3 

type UserSubjectV1Beta3 struct {
	// `name` is the username that matches, or "*" to match all usernames.
	//
	// Required.
	Name *string `field:"required" json:"name" yaml:"name"`
}

UserSubject holds detailed information for user-kind subject.

type ValidatingAdmissionPolicyBindingSpecV1Alpha1 

type ValidatingAdmissionPolicyBindingSpecV1Alpha1 struct {
	// MatchResources declares what resources match this binding and will be validated by it.
	//
	// Note that this is intersected with the policy's matchConstraints, so only requests that are matched by the policy can be selected by this. If this is unset, all resources matched by the policy are validated by this binding When resourceRules is unset, it does not constrain resource matching. If a resource is matched by the other fields of this object, it will be validated. Note that this is differs from ValidatingAdmissionPolicy matchConstraints, where resourceRules are required.
	MatchResources *MatchResourcesV1Alpha1 `field:"optional" json:"matchResources" yaml:"matchResources"`
	// ParamRef specifies the parameter resource used to configure the admission control policy.
	//
	// It should point to a resource of the type specified in ParamKind of the bound ValidatingAdmissionPolicy. If the policy specifies a ParamKind and the resource referred to by ParamRef does not exist, this binding is considered mis-configured and the FailurePolicy of the ValidatingAdmissionPolicy applied.
	ParamRef *ParamRefV1Alpha1 `field:"optional" json:"paramRef" yaml:"paramRef"`
	// PolicyName references a ValidatingAdmissionPolicy name which the ValidatingAdmissionPolicyBinding binds to.
	//
	// If the referenced resource does not exist, this binding is considered invalid and will be ignored Required.
	PolicyName *string `field:"optional" json:"policyName" yaml:"policyName"`
	// validationActions declares how Validations of the referenced ValidatingAdmissionPolicy are enforced.
	//
	// If a validation evaluates to false it is always enforced according to these actions.
	//
	// Failures defined by the ValidatingAdmissionPolicy's FailurePolicy are enforced according to these actions only if the FailurePolicy is set to Fail, otherwise the failures are ignored. This includes compilation errors, runtime errors and misconfigurations of the policy.
	//
	// validationActions is declared as a set of action values. Order does not matter. validationActions may not contain duplicates of the same action.
	//
	// The supported actions values are:
	//
	// "Deny" specifies that a validation failure results in a denied request.
	//
	// "Warn" specifies that a validation failure is reported to the request client in HTTP Warning headers, with a warning code of 299. Warnings can be sent both for allowed or denied admission responses.
	//
	// "Audit" specifies that a validation failure is included in the published audit event for the request. The audit event will contain a `validation.policy.admission.k8s.io/validation_failure` audit annotation with a value containing the details of the validation failures, formatted as a JSON list of objects, each with the following fields: - message: The validation failure message string - policy: The resource name of the ValidatingAdmissionPolicy - binding: The resource name of the ValidatingAdmissionPolicyBinding - expressionIndex: The index of the failed validations in the ValidatingAdmissionPolicy - validationActions: The enforcement actions enacted for the validation failure Example audit annotation: `"validation.policy.admission.k8s.io/validation_failure": "[{"message": "Invalid value", {"policy": "policy.example.com", {"binding": "policybinding.example.com", {"expressionIndex": "1", {"validationActions": ["Audit"]}]"`
	//
	// Clients should expect to handle additional values by ignoring any values not recognized.
	//
	// "Deny" and "Warn" may not be used together since this combination needlessly duplicates the validation failure both in the API response body and the HTTP warning headers.
	//
	// Required.
	ValidationActions *[]*string `field:"optional" json:"validationActions" yaml:"validationActions"`
}

ValidatingAdmissionPolicyBindingSpec is the specification of the ValidatingAdmissionPolicyBinding.

type ValidatingAdmissionPolicySpecV1Alpha1 

type ValidatingAdmissionPolicySpecV1Alpha1 struct {
	// auditAnnotations contains CEL expressions which are used to produce audit annotations for the audit event of the API request.
	//
	// validations and auditAnnotations may not both be empty; a least one of validations or auditAnnotations is required.
	AuditAnnotations *[]*AuditAnnotationV1Alpha1 `field:"optional" json:"auditAnnotations" yaml:"auditAnnotations"`
	// failurePolicy defines how to handle failures for the admission policy.
	//
	// Failures can occur from CEL expression parse errors, type check errors, runtime errors and invalid or mis-configured policy definitions or bindings.
	//
	// A policy is invalid if spec.paramKind refers to a non-existent Kind. A binding is invalid if spec.paramRef.name refers to a non-existent resource.
	//
	// failurePolicy does not define how validations that evaluate to false are handled.
	//
	// When failurePolicy is set to Fail, ValidatingAdmissionPolicyBinding validationActions define how failures are enforced.
	//
	// Allowed values are Ignore or Fail. Defaults to Fail.
	// Default: Fail.
	//
	FailurePolicy *string `field:"optional" json:"failurePolicy" yaml:"failurePolicy"`
	// MatchConditions is a list of conditions that must be met for a request to be validated.
	//
	// Match conditions filter requests that have already been matched by the rules, namespaceSelector, and objectSelector. An empty list of matchConditions matches all requests. There are a maximum of 64 match conditions allowed.
	//
	// If a parameter object is provided, it can be accessed via the `params` handle in the same manner as validation expressions.
	//
	// The exact matching logic is (in order):
	// 1. If ANY matchCondition evaluates to FALSE, the policy is skipped.
	// 2. If ALL matchConditions evaluate to TRUE, the policy is evaluated.
	// 3. If any matchCondition evaluates to an error (but none are FALSE):
	// - If failurePolicy=Fail, reject the request
	// - If failurePolicy=Ignore, the policy is skipped.
	MatchConditions *[]*MatchConditionV1Alpha1 `field:"optional" json:"matchConditions" yaml:"matchConditions"`
	// MatchConstraints specifies what resources this policy is designed to validate.
	//
	// The AdmissionPolicy cares about a request if it matches _all_ Constraints. However, in order to prevent clusters from being put into an unstable state that cannot be recovered from via the API ValidatingAdmissionPolicy cannot match ValidatingAdmissionPolicy and ValidatingAdmissionPolicyBinding. Required.
	MatchConstraints *MatchResourcesV1Alpha1 `field:"optional" json:"matchConstraints" yaml:"matchConstraints"`
	// ParamKind specifies the kind of resources used to parameterize this policy.
	//
	// If absent, there are no parameters for this policy and the param CEL variable will not be provided to validation expressions. If ParamKind refers to a non-existent kind, this policy definition is mis-configured and the FailurePolicy is applied. If paramKind is specified but paramRef is unset in ValidatingAdmissionPolicyBinding, the params variable will be null.
	ParamKind *ParamKindV1Alpha1 `field:"optional" json:"paramKind" yaml:"paramKind"`
	// Validations contain CEL expressions which is used to apply the validation.
	//
	// Validations and AuditAnnotations may not both be empty; a minimum of one Validations or AuditAnnotations is required.
	Validations *[]*ValidationV1Alpha1 `field:"optional" json:"validations" yaml:"validations"`
}

ValidatingAdmissionPolicySpec is the specification of the desired behavior of the AdmissionPolicy.

type ValidatingWebhook 

type ValidatingWebhook struct {
	// AdmissionReviewVersions is an ordered list of preferred `AdmissionReview` versions the Webhook expects.
	//
	// API server will try to use first version in the list which it supports. If none of the versions specified in this list supported by API server, validation will fail for this object. If a persisted webhook configuration specifies allowed versions and does not include any versions known to the API Server, calls to the webhook will fail and be subject to the failure policy.
	AdmissionReviewVersions *[]*string `field:"required" json:"admissionReviewVersions" yaml:"admissionReviewVersions"`
	// ClientConfig defines how to communicate with the hook.
	//
	// Required.
	ClientConfig *WebhookClientConfig `field:"required" json:"clientConfig" yaml:"clientConfig"`
	// The name of the admission webhook.
	//
	// Name should be fully qualified, e.g., imagepolicy.kubernetes.io, where "imagepolicy" is the name of the webhook, and kubernetes.io is the name of the organization. Required.
	Name *string `field:"required" json:"name" yaml:"name"`
	// SideEffects states whether this webhook has side effects.
	//
	// Acceptable values are: None, NoneOnDryRun (webhooks created via v1beta1 may also specify Some or Unknown). Webhooks with side effects MUST implement a reconciliation system, since a request may be rejected by a future step in the admission chain and the side effects therefore need to be undone. Requests with the dryRun attribute will be auto-rejected if they match a webhook with sideEffects == Unknown or Some.
	SideEffects *string `field:"required" json:"sideEffects" yaml:"sideEffects"`
	// FailurePolicy defines how unrecognized errors from the admission endpoint are handled - allowed values are Ignore or Fail.
	//
	// Defaults to Fail.
	// Default: Fail.
	//
	FailurePolicy *string `field:"optional" json:"failurePolicy" yaml:"failurePolicy"`
	// MatchConditions is a list of conditions that must be met for a request to be sent to this webhook.
	//
	// Match conditions filter requests that have already been matched by the rules, namespaceSelector, and objectSelector. An empty list of matchConditions matches all requests. There are a maximum of 64 match conditions allowed.
	//
	// The exact matching logic is (in order):
	// 1. If ANY matchCondition evaluates to FALSE, the webhook is skipped.
	// 2. If ALL matchConditions evaluate to TRUE, the webhook is called.
	// 3. If any matchCondition evaluates to an error (but none are FALSE):
	// - If failurePolicy=Fail, reject the request
	// - If failurePolicy=Ignore, the error is ignored and the webhook is skipped
	//
	// This is an alpha feature and managed by the AdmissionWebhookMatchConditions feature gate.
	MatchConditions *[]*MatchCondition `field:"optional" json:"matchConditions" yaml:"matchConditions"`
	// matchPolicy defines how the "rules" list is used to match incoming requests. Allowed values are "Exact" or "Equivalent".
	//
	// - Exact: match a request only if it exactly matches a specified rule. For example, if deployments can be modified via apps/v1, apps/v1beta1, and extensions/v1beta1, but "rules" only included `apiGroups:["apps"], apiVersions:["v1"], resources: ["deployments"]`, a request to apps/v1beta1 or extensions/v1beta1 would not be sent to the webhook.
	//
	// - Equivalent: match a request if modifies a resource listed in rules, even via another API group or version. For example, if deployments can be modified via apps/v1, apps/v1beta1, and extensions/v1beta1, and "rules" only included `apiGroups:["apps"], apiVersions:["v1"], resources: ["deployments"]`, a request to apps/v1beta1 or extensions/v1beta1 would be converted to apps/v1 and sent to the webhook.
	//
	// Defaults to "Equivalent".
	// Default: Equivalent".
	//
	MatchPolicy *string `field:"optional" json:"matchPolicy" yaml:"matchPolicy"`
	// NamespaceSelector decides whether to run the webhook on an object based on whether the namespace for that object matches the selector.
	//
	// If the object itself is a namespace, the matching is performed on object.metadata.labels. If the object is another cluster scoped resource, it never skips the webhook.
	//
	// For example, to run the webhook on any objects whose namespace is not associated with "runlevel" of "0" or "1";  you will set the selector as follows: "namespaceSelector": {
	// "matchExpressions": [
	// {
	// "key": "runlevel",
	// "operator": "NotIn",
	// "values": [
	// "0",
	// "1"
	// ]
	// }
	// ]
	// }
	//
	// If instead you want to only run the webhook on any objects whose namespace is associated with the "environment" of "prod" or "staging"; you will set the selector as follows: "namespaceSelector": {
	// "matchExpressions": [
	// {
	// "key": "environment",
	// "operator": "In",
	// "values": [
	// "prod",
	// "staging"
	// ]
	// }
	// ]
	// }
	//
	// See https://kubernetes.io/docs/concepts/overview/working-with-objects/labels for more examples of label selectors.
	//
	// Default to the empty LabelSelector, which matches everything.
	// Default: the empty LabelSelector, which matches everything.
	//
	NamespaceSelector *LabelSelector `field:"optional" json:"namespaceSelector" yaml:"namespaceSelector"`
	// ObjectSelector decides whether to run the webhook based on if the object has matching labels.
	//
	// objectSelector is evaluated against both the oldObject and newObject that would be sent to the webhook, and is considered to match if either object matches the selector. A null object (oldObject in the case of create, or newObject in the case of delete) or an object that cannot have labels (like a DeploymentRollback or a PodProxyOptions object) is not considered to match. Use the object selector only if the webhook is opt-in, because end users may skip the admission webhook by setting the labels. Default to the empty LabelSelector, which matches everything.
	// Default: the empty LabelSelector, which matches everything.
	//
	ObjectSelector *LabelSelector `field:"optional" json:"objectSelector" yaml:"objectSelector"`
	// Rules describes what operations on what resources/subresources the webhook cares about.
	//
	// The webhook cares about an operation if it matches _any_ Rule. However, in order to prevent ValidatingAdmissionWebhooks and MutatingAdmissionWebhooks from putting the cluster in a state which cannot be recovered from without completely disabling the plugin, ValidatingAdmissionWebhooks and MutatingAdmissionWebhooks are never called on admission requests for ValidatingWebhookConfiguration and MutatingWebhookConfiguration objects.
	Rules *[]*RuleWithOperations `field:"optional" json:"rules" yaml:"rules"`
	// TimeoutSeconds specifies the timeout for this webhook.
	//
	// After the timeout passes, the webhook call will be ignored or the API call will fail based on the failure policy. The timeout value must be between 1 and 30 seconds. Default to 10 seconds.
	// Default: 10 seconds.
	//
	TimeoutSeconds *float64 `field:"optional" json:"timeoutSeconds" yaml:"timeoutSeconds"`
}

ValidatingWebhook describes an admission webhook and the resources and operations it applies to.

type ValidationRule 

type ValidationRule struct {
	// Rule represents the expression which will be evaluated by CEL.
	//
	// ref: https://github.com/google/cel-spec The Rule is scoped to the location of the x-kubernetes-validations extension in the schema. The `self` variable in the CEL expression is bound to the scoped value. Example: - Rule scoped to the root of a resource with a status subresource: {"rule": "self.status.actual <= self.spec.maxDesired"}
	//
	// If the Rule is scoped to an object with properties, the accessible properties of the object are field selectable via `self.field` and field presence can be checked via `has(self.field)`. Null valued fields are treated as absent fields in CEL expressions. If the Rule is scoped to an object with additionalProperties (i.e. a map) the value of the map are accessible via `self[mapKey]`, map containment can be checked via `mapKey in self` and all entries of the map are accessible via CEL macros and functions such as `self.all(...)`. If the Rule is scoped to an array, the elements of the array are accessible via `self[i]` and also by macros and functions. If the Rule is scoped to a scalar, `self` is bound to the scalar value. Examples: - Rule scoped to a map of objects: {"rule": "self.components['Widget'].priority < 10"} - Rule scoped to a list of integers: {"rule": "self.values.all(value, value >= 0 && value < 100)"} - Rule scoped to a string value: {"rule": "self.startsWith('kube')"}
	//
	// The `apiVersion`, `kind`, `metadata.name` and `metadata.generateName` are always accessible from the root of the object and from any x-kubernetes-embedded-resource annotated objects. No other metadata properties are accessible.
	//
	// Unknown data preserved in custom resources via x-kubernetes-preserve-unknown-fields is not accessible in CEL expressions. This includes: - Unknown field values that are preserved by object schemas with x-kubernetes-preserve-unknown-fields. - Object properties where the property schema is of an "unknown type". An "unknown type" is recursively defined as:
	// - A schema with no type and x-kubernetes-preserve-unknown-fields set to true
	// - An array where the items schema is of an "unknown type"
	// - An object where the additionalProperties schema is of an "unknown type"
	//
	// Only property names of the form `[a-zA-Z_.-/][a-zA-Z0-9_.-/]*` are accessible. Accessible property names are escaped according to the following rules when accessed in the expression: - '__' escapes to '__underscores__' - '.' escapes to '__dot__' - '-' escapes to '__dash__' - '/' escapes to '__slash__' - Property names that exactly match a CEL RESERVED keyword escape to '__{keyword}__'. The keywords are:
	// "true", "false", "null", "in", "as", "break", "const", "continue", "else", "for", "function", "if",
	// "import", "let", "loop", "package", "namespace", "return".
	// Examples:
	// - Rule accessing a property named "namespace": {"rule": "self.__namespace__ > 0"}
	// - Rule accessing a property named "x-prop": {"rule": "self.x__dash__prop > 0"}
	// - Rule accessing a property named "redact__d": {"rule": "self.redact__underscores__d > 0"}
	//
	// Equality on arrays with x-kubernetes-list-type of 'set' or 'map' ignores element order, i.e. [1, 2] == [2, 1]. Concatenation on arrays with x-kubernetes-list-type use the semantics of the list type:
	// - 'set': `X + Y` performs a union where the array positions of all elements in `X` are preserved and
	// non-intersecting elements in `Y` are appended, retaining their partial order.
	// - 'map': `X + Y` performs a merge where the array positions of all keys in `X` are preserved but the values
	// are overwritten by values in `Y` when the key sets of `X` and `Y` intersect. Elements in `Y` with
	// non-intersecting keys are appended, retaining their partial order.
	Rule *string `field:"required" json:"rule" yaml:"rule"`
	// Message represents the message displayed when validation fails.
	//
	// The message is required if the Rule contains line breaks. The message must not contain line breaks. If unset, the message is "failed rule: {Rule}". e.g. "must be a URL with the host matching spec.host"
	Message *string `field:"optional" json:"message" yaml:"message"`
	// MessageExpression declares a CEL expression that evaluates to the validation failure message that is returned when this rule fails.
	//
	// Since messageExpression is used as a failure message, it must evaluate to a string. If both message and messageExpression are present on a rule, then messageExpression will be used if validation fails. If messageExpression results in a runtime error, the runtime error is logged, and the validation failure message is produced as if the messageExpression field were unset. If messageExpression evaluates to an empty string, a string with only spaces, or a string that contains line breaks, then the validation failure message will also be produced as if the messageExpression field were unset, and the fact that messageExpression produced an empty string/string with only spaces/string with line breaks will be logged. messageExpression has access to all the same variables as the rule; the only difference is the return type. Example: "x must be less than max ("+string(self.max)+")"
	MessageExpression *string `field:"optional" json:"messageExpression" yaml:"messageExpression"`
}

ValidationRule describes a validation rule written in the CEL expression language.

type ValidationV1Alpha1 

type ValidationV1Alpha1 struct {
	// Expression represents the expression which will be evaluated by CEL.
	//
	// ref: https://github.com/google/cel-spec CEL expressions have access to the contents of the API request/response, organized into CEL variables as well as some other useful variables:
	//
	// - 'object' - The object from the incoming request. The value is null for DELETE requests. - 'oldObject' - The existing object. The value is null for CREATE requests. - 'request' - Attributes of the API request([ref](/pkg/apis/admission/types.go#AdmissionRequest)). - 'params' - Parameter resource referred to by the policy binding being evaluated. Only populated if the policy has a ParamKind. - 'authorizer' - A CEL Authorizer. May be used to perform authorization checks for the principal (user or service account) of the request.
	// See https://pkg.go.dev/k8s.io/apiserver/pkg/cel/library#Authz
	// - 'authorizer.requestResource' - A CEL ResourceCheck constructed from the 'authorizer' and configured with the
	// request resource.
	//
	// The `apiVersion`, `kind`, `metadata.name` and `metadata.generateName` are always accessible from the root of the object. No other metadata properties are accessible.
	//
	// Only property names of the form `[a-zA-Z_.-/][a-zA-Z0-9_.-/]*` are accessible. Accessible property names are escaped according to the following rules when accessed in the expression: - '__' escapes to '__underscores__' - '.' escapes to '__dot__' - '-' escapes to '__dash__' - '/' escapes to '__slash__' - Property names that exactly match a CEL RESERVED keyword escape to '__{keyword}__'. The keywords are:
	// "true", "false", "null", "in", "as", "break", "const", "continue", "else", "for", "function", "if",
	// "import", "let", "loop", "package", "namespace", "return".
	// Examples:
	// - Expression accessing a property named "namespace": {"Expression": "object.__namespace__ > 0"}
	// - Expression accessing a property named "x-prop": {"Expression": "object.x__dash__prop > 0"}
	// - Expression accessing a property named "redact__d": {"Expression": "object.redact__underscores__d > 0"}
	//
	// Equality on arrays with list type of 'set' or 'map' ignores element order, i.e. [1, 2] == [2, 1]. Concatenation on arrays with x-kubernetes-list-type use the semantics of the list type:
	// - 'set': `X + Y` performs a union where the array positions of all elements in `X` are preserved and
	// non-intersecting elements in `Y` are appended, retaining their partial order.
	// - 'map': `X + Y` performs a merge where the array positions of all keys in `X` are preserved but the values
	// are overwritten by values in `Y` when the key sets of `X` and `Y` intersect. Elements in `Y` with
	// non-intersecting keys are appended, retaining their partial order.
	// Required.
	Expression *string `field:"required" json:"expression" yaml:"expression"`
	// Message represents the message displayed when validation fails.
	//
	// The message is required if the Expression contains line breaks. The message must not contain line breaks. If unset, the message is "failed rule: {Rule}". e.g. "must be a URL with the host matching spec.host" If the Expression contains line breaks. Message is required. The message must not contain line breaks. If unset, the message is "failed Expression: {Expression}".
	Message *string `field:"optional" json:"message" yaml:"message"`
	// messageExpression declares a CEL expression that evaluates to the validation failure message that is returned when this rule fails.
	//
	// Since messageExpression is used as a failure message, it must evaluate to a string. If both message and messageExpression are present on a validation, then messageExpression will be used if validation fails. If messageExpression results in a runtime error, the runtime error is logged, and the validation failure message is produced as if the messageExpression field were unset. If messageExpression evaluates to an empty string, a string with only spaces, or a string that contains line breaks, then the validation failure message will also be produced as if the messageExpression field were unset, and the fact that messageExpression produced an empty string/string with only spaces/string with line breaks will be logged. messageExpression has access to all the same variables as the `expression` except for 'authorizer' and 'authorizer.requestResource'. Example: "object.x must be less than max ("+string(params.max)+")"
	MessageExpression *string `field:"optional" json:"messageExpression" yaml:"messageExpression"`
	// Reason represents a machine-readable description of why this validation failed.
	//
	// If this is the first validation in the list to fail, this reason, as well as the corresponding HTTP response code, are used in the HTTP response to the client. The currently supported reasons are: "Unauthorized", "Forbidden", "Invalid", "RequestEntityTooLarge". If not set, StatusReasonInvalid is used in the response to the client.
	Reason *string `field:"optional" json:"reason" yaml:"reason"`
}

Validation specifies the CEL expression which is used to apply the validation.

type Volume 

type Volume struct {
	// name of the volume.
	//
	// Must be a DNS_LABEL and unique within the pod. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names/#names
	Name *string `field:"required" json:"name" yaml:"name"`
	// awsElasticBlockStore represents an AWS Disk resource that is attached to a kubelet's host machine and then exposed to the pod.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/volumes#awselasticblockstore
	AwsElasticBlockStore *AwsElasticBlockStoreVolumeSource `field:"optional" json:"awsElasticBlockStore" yaml:"awsElasticBlockStore"`
	// azureDisk represents an Azure Data Disk mount on the host and bind mount to the pod.
	AzureDisk *AzureDiskVolumeSource `field:"optional" json:"azureDisk" yaml:"azureDisk"`
	// azureFile represents an Azure File Service mount on the host and bind mount to the pod.
	AzureFile *AzureFileVolumeSource `field:"optional" json:"azureFile" yaml:"azureFile"`
	// cephFS represents a Ceph FS mount on the host that shares a pod's lifetime.
	Cephfs *CephFsVolumeSource `field:"optional" json:"cephfs" yaml:"cephfs"`
	// cinder represents a cinder volume attached and mounted on kubelets host machine.
	//
	// More info: https://examples.k8s.io/mysql-cinder-pd/README.md
	Cinder *CinderVolumeSource `field:"optional" json:"cinder" yaml:"cinder"`
	// configMap represents a configMap that should populate this volume.
	ConfigMap *ConfigMapVolumeSource `field:"optional" json:"configMap" yaml:"configMap"`
	// csi (Container Storage Interface) represents ephemeral storage that is handled by certain external CSI drivers (Beta feature).
	Csi *CsiVolumeSource `field:"optional" json:"csi" yaml:"csi"`
	// downwardAPI represents downward API about the pod that should populate this volume.
	DownwardApi *DownwardApiVolumeSource `field:"optional" json:"downwardApi" yaml:"downwardApi"`
	// emptyDir represents a temporary directory that shares a pod's lifetime.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/volumes#emptydir
	EmptyDir *EmptyDirVolumeSource `field:"optional" json:"emptyDir" yaml:"emptyDir"`
	// ephemeral represents a volume that is handled by a cluster storage driver.
	//
	// The volume's lifecycle is tied to the pod that defines it - it will be created before the pod starts, and deleted when the pod is removed.
	//
	// Use this if: a) the volume is only needed while the pod runs, b) features of normal volumes like restoring from snapshot or capacity
	// tracking are needed,
	// c) the storage driver is specified through a storage class, and d) the storage driver supports dynamic volume provisioning through
	// a PersistentVolumeClaim (see EphemeralVolumeSource for more
	// information on the connection between this volume type
	// and PersistentVolumeClaim).
	//
	// Use PersistentVolumeClaim or one of the vendor-specific APIs for volumes that persist for longer than the lifecycle of an individual pod.
	//
	// Use CSI for light-weight local ephemeral volumes if the CSI driver is meant to be used that way - see the documentation of the driver for more information.
	//
	// A pod can use both types of ephemeral volumes and persistent volumes at the same time.
	Ephemeral *EphemeralVolumeSource `field:"optional" json:"ephemeral" yaml:"ephemeral"`
	// fc represents a Fibre Channel resource that is attached to a kubelet's host machine and then exposed to the pod.
	Fc *FcVolumeSource `field:"optional" json:"fc" yaml:"fc"`
	// flexVolume represents a generic volume resource that is provisioned/attached using an exec based plugin.
	FlexVolume *FlexVolumeSource `field:"optional" json:"flexVolume" yaml:"flexVolume"`
	// flocker represents a Flocker volume attached to a kubelet's host machine.
	//
	// This depends on the Flocker control service being running.
	Flocker *FlockerVolumeSource `field:"optional" json:"flocker" yaml:"flocker"`
	// gcePersistentDisk represents a GCE Disk resource that is attached to a kubelet's host machine and then exposed to the pod.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/volumes#gcepersistentdisk
	GcePersistentDisk *GcePersistentDiskVolumeSource `field:"optional" json:"gcePersistentDisk" yaml:"gcePersistentDisk"`
	// gitRepo represents a git repository at a particular revision.
	//
	// DEPRECATED: GitRepo is deprecated. To provision a container with a git repo, mount an EmptyDir into an InitContainer that clones the repo using git, then mount the EmptyDir into the Pod's container.
	GitRepo *GitRepoVolumeSource `field:"optional" json:"gitRepo" yaml:"gitRepo"`
	// glusterfs represents a Glusterfs mount on the host that shares a pod's lifetime.
	//
	// More info: https://examples.k8s.io/volumes/glusterfs/README.md
	Glusterfs *GlusterfsVolumeSource `field:"optional" json:"glusterfs" yaml:"glusterfs"`
	// hostPath represents a pre-existing file or directory on the host machine that is directly exposed to the container.
	//
	// This is generally used for system agents or other privileged things that are allowed to see the host machine. Most containers will NOT need this. More info: https://kubernetes.io/docs/concepts/storage/volumes#hostpath
	HostPath *HostPathVolumeSource `field:"optional" json:"hostPath" yaml:"hostPath"`
	// iscsi represents an ISCSI Disk resource that is attached to a kubelet's host machine and then exposed to the pod.
	//
	// More info: https://examples.k8s.io/volumes/iscsi/README.md
	Iscsi *IscsiVolumeSource `field:"optional" json:"iscsi" yaml:"iscsi"`
	// nfs represents an NFS mount on the host that shares a pod's lifetime More info: https://kubernetes.io/docs/concepts/storage/volumes#nfs.
	Nfs *NfsVolumeSource `field:"optional" json:"nfs" yaml:"nfs"`
	// persistentVolumeClaimVolumeSource represents a reference to a PersistentVolumeClaim in the same namespace.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/persistent-volumes#persistentvolumeclaims
	PersistentVolumeClaim *PersistentVolumeClaimVolumeSource `field:"optional" json:"persistentVolumeClaim" yaml:"persistentVolumeClaim"`
	// photonPersistentDisk represents a PhotonController persistent disk attached and mounted on kubelets host machine.
	PhotonPersistentDisk *PhotonPersistentDiskVolumeSource `field:"optional" json:"photonPersistentDisk" yaml:"photonPersistentDisk"`
	// portworxVolume represents a portworx volume attached and mounted on kubelets host machine.
	PortworxVolume *PortworxVolumeSource `field:"optional" json:"portworxVolume" yaml:"portworxVolume"`
	// projected items for all in one resources secrets, configmaps, and downward API.
	Projected *ProjectedVolumeSource `field:"optional" json:"projected" yaml:"projected"`
	// quobyte represents a Quobyte mount on the host that shares a pod's lifetime.
	Quobyte *QuobyteVolumeSource `field:"optional" json:"quobyte" yaml:"quobyte"`
	// rbd represents a Rados Block Device mount on the host that shares a pod's lifetime.
	//
	// More info: https://examples.k8s.io/volumes/rbd/README.md
	Rbd *RbdVolumeSource `field:"optional" json:"rbd" yaml:"rbd"`
	// scaleIO represents a ScaleIO persistent volume attached and mounted on Kubernetes nodes.
	ScaleIo *ScaleIoVolumeSource `field:"optional" json:"scaleIo" yaml:"scaleIo"`
	// secret represents a secret that should populate this volume.
	//
	// More info: https://kubernetes.io/docs/concepts/storage/volumes#secret
	Secret *SecretVolumeSource `field:"optional" json:"secret" yaml:"secret"`
	// storageOS represents a StorageOS volume attached and mounted on Kubernetes nodes.
	Storageos *StorageOsVolumeSource `field:"optional" json:"storageos" yaml:"storageos"`
	// vsphereVolume represents a vSphere volume attached and mounted on kubelets host machine.
	VsphereVolume *VsphereVirtualDiskVolumeSource `field:"optional" json:"vsphereVolume" yaml:"vsphereVolume"`
}

Volume represents a named volume in a pod that may be accessed by any container in the pod.

type VolumeAttachmentSource 

type VolumeAttachmentSource struct {
	// inlineVolumeSpec contains all the information necessary to attach a persistent volume defined by a pod's inline VolumeSource.
	//
	// This field is populated only for the CSIMigration feature. It contains translated fields from a pod's inline VolumeSource to a PersistentVolumeSpec. This field is beta-level and is only honored by servers that enabled the CSIMigration feature.
	InlineVolumeSpec *PersistentVolumeSpec `field:"optional" json:"inlineVolumeSpec" yaml:"inlineVolumeSpec"`
	// persistentVolumeName represents the name of the persistent volume to attach.
	PersistentVolumeName *string `field:"optional" json:"persistentVolumeName" yaml:"persistentVolumeName"`
}

VolumeAttachmentSource represents a volume that should be attached.

Right now only PersistenVolumes can be attached via external attacher, in future we may allow also inline volumes in pods. Exactly one member can be set.

type VolumeAttachmentSpec 

type VolumeAttachmentSpec struct {
	// attacher indicates the name of the volume driver that MUST handle this request.
	//
	// This is the name returned by GetPluginName().
	Attacher *string `field:"required" json:"attacher" yaml:"attacher"`
	// nodeName represents the node that the volume should be attached to.
	NodeName *string `field:"required" json:"nodeName" yaml:"nodeName"`
	// source represents the volume that should be attached.
	Source *VolumeAttachmentSource `field:"required" json:"source" yaml:"source"`
}

VolumeAttachmentSpec is the specification of a VolumeAttachment request.

type VolumeDevice 

type VolumeDevice struct {
	// devicePath is the path inside of the container that the device will be mapped to.
	DevicePath *string `field:"required" json:"devicePath" yaml:"devicePath"`
	// name must match the name of a persistentVolumeClaim in the pod.
	Name *string `field:"required" json:"name" yaml:"name"`
}

volumeDevice describes a mapping of a raw block device within a container.

type VolumeMount 

type VolumeMount struct {
	// Path within the container at which the volume should be mounted.
	//
	// Must not contain ':'.
	MountPath *string `field:"required" json:"mountPath" yaml:"mountPath"`
	// This must match the Name of a Volume.
	Name *string `field:"required" json:"name" yaml:"name"`
	// mountPropagation determines how mounts are propagated from the host to container and the other way around.
	//
	// When not set, MountPropagationNone is used. This field is beta in 1.10.
	MountPropagation *string `field:"optional" json:"mountPropagation" yaml:"mountPropagation"`
	// Mounted read-only if true, read-write otherwise (false or unspecified).
	//
	// Defaults to false.
	// Default: false.
	//
	ReadOnly *bool `field:"optional" json:"readOnly" yaml:"readOnly"`
	// Path within the volume from which the container's volume should be mounted.
	//
	// Defaults to "" (volume's root).
	// Default: volume's root).
	//
	SubPath *string `field:"optional" json:"subPath" yaml:"subPath"`
	// Expanded path within the volume from which the container's volume should be mounted.
	//
	// Behaves similarly to SubPath but environment variable references $(VAR_NAME) are expanded using the container's environment. Defaults to "" (volume's root). SubPathExpr and SubPath are mutually exclusive.
	// Default: volume's root). SubPathExpr and SubPath are mutually exclusive.
	//
	SubPathExpr *string `field:"optional" json:"subPathExpr" yaml:"subPathExpr"`
}

VolumeMount describes a mounting of a Volume within a container.

type VolumeNodeAffinity 

type VolumeNodeAffinity struct {
	// required specifies hard node constraints that must be met.
	Required *NodeSelector `field:"optional" json:"required" yaml:"required"`
}

VolumeNodeAffinity defines constraints that limit what nodes this volume can be accessed from.

type VolumeNodeResources 

type VolumeNodeResources struct {
	// count indicates the maximum number of unique volumes managed by the CSI driver that can be used on a node.
	//
	// A volume that is both attached and mounted on a node is considered to be used once, not twice. The same rule applies for a unique volume that is shared among multiple pods on the same node. If this field is not specified, then the supported number of volumes on this node is unbounded.
	Count *float64 `field:"optional" json:"count" yaml:"count"`
}

VolumeNodeResources is a set of resource limits for scheduling of volumes.

type VolumeProjection 

type VolumeProjection struct {
	// configMap information about the configMap data to project.
	ConfigMap *ConfigMapProjection `field:"optional" json:"configMap" yaml:"configMap"`
	// downwardAPI information about the downwardAPI data to project.
	DownwardApi *DownwardApiProjection `field:"optional" json:"downwardApi" yaml:"downwardApi"`
	// secret information about the secret data to project.
	Secret *SecretProjection `field:"optional" json:"secret" yaml:"secret"`
	// serviceAccountToken is information about the serviceAccountToken data to project.
	ServiceAccountToken *ServiceAccountTokenProjection `field:"optional" json:"serviceAccountToken" yaml:"serviceAccountToken"`
}

Projection that may be projected along with other supported volume types.

type VsphereVirtualDiskVolumeSource 

type VsphereVirtualDiskVolumeSource struct {
	// volumePath is the path that identifies vSphere volume vmdk.
	VolumePath *string `field:"required" json:"volumePath" yaml:"volumePath"`
	// fsType is filesystem type to mount.
	//
	// Must be a filesystem type supported by the host operating system. Ex. "ext4", "xfs", "ntfs". Implicitly inferred to be "ext4" if unspecified.
	FsType *string `field:"optional" json:"fsType" yaml:"fsType"`
	// storagePolicyID is the storage Policy Based Management (SPBM) profile ID associated with the StoragePolicyName.
	StoragePolicyId *string `field:"optional" json:"storagePolicyId" yaml:"storagePolicyId"`
	// storagePolicyName is the storage Policy Based Management (SPBM) profile name.
	StoragePolicyName *string `field:"optional" json:"storagePolicyName" yaml:"storagePolicyName"`
}

Represents a vSphere volume resource.

type WebhookClientConfig 

type WebhookClientConfig struct {
	// `caBundle` is a PEM encoded CA bundle which will be used to validate the webhook's server certificate.
	//
	// If unspecified, system trust roots on the apiserver are used.
	CaBundle *string `field:"optional" json:"caBundle" yaml:"caBundle"`
	// `service` is a reference to the service for this webhook. Either `service` or `url` must be specified.
	//
	// If the webhook is running within the cluster, then you should use `service`.
	Service *ServiceReference `field:"optional" json:"service" yaml:"service"`
	// `url` gives the location of the webhook, in standard URL form (`scheme://host:port/path`).
	//
	// Exactly one of `url` or `service` must be specified.
	//
	// The `host` should not refer to a service running in the cluster; use the `service` field instead. The host might be resolved via external DNS in some apiservers (e.g., `kube-apiserver` cannot resolve in-cluster DNS as that would be a layering violation). `host` may also be an IP address.
	//
	// Please note that using `localhost` or `127.0.0.1` as a `host` is risky unless you take great care to run this webhook on all hosts which run an apiserver which might need to make calls to this webhook. Such installs are likely to be non-portable, i.e., not easy to turn up in a new cluster.
	//
	// The scheme must be "https"; the URL must begin with "https://".
	//
	// A path is optional, and if present may be any string permissible in a URL. You may use the path to pass an arbitrary string to the webhook, for example, a cluster identifier.
	//
	// Attempting to use a user or basic auth e.g. "user:password@" is not allowed. Fragments ("#...") and query parameters ("?...") are not allowed, either.
	Url *string `field:"optional" json:"url" yaml:"url"`
}

WebhookClientConfig contains the information to make a TLS connection with the webhook.

type WebhookConversion 

type WebhookConversion struct {
	// conversionReviewVersions is an ordered list of preferred `ConversionReview` versions the Webhook expects.
	//
	// The API server will use the first version in the list which it supports. If none of the versions specified in this list are supported by API server, conversion will fail for the custom resource. If a persisted Webhook configuration specifies allowed versions and does not include any versions known to the API Server, calls to the webhook will fail.
	ConversionReviewVersions *[]*string `field:"required" json:"conversionReviewVersions" yaml:"conversionReviewVersions"`
	// clientConfig is the instructions for how to call the webhook if strategy is `Webhook`.
	ClientConfig *WebhookClientConfig `field:"optional" json:"clientConfig" yaml:"clientConfig"`
}

WebhookConversion describes how to call a conversion webhook.

type WeightedPodAffinityTerm 

type WeightedPodAffinityTerm struct {
	// Required.
	//
	// A pod affinity term, associated with the corresponding weight.
	PodAffinityTerm *PodAffinityTerm `field:"required" json:"podAffinityTerm" yaml:"podAffinityTerm"`
	// weight associated with matching the corresponding podAffinityTerm, in the range 1-100.
	Weight *float64 `field:"required" json:"weight" yaml:"weight"`
}

The weights of all of the matched WeightedPodAffinityTerm fields are added per-node to find the most preferred node(s).

type WindowsSecurityContextOptions 

type WindowsSecurityContextOptions struct {
	// GMSACredentialSpec is where the GMSA admission webhook (https://github.com/kubernetes-sigs/windows-gmsa) inlines the contents of the GMSA credential spec named by the GMSACredentialSpecName field.
	GmsaCredentialSpec *string `field:"optional" json:"gmsaCredentialSpec" yaml:"gmsaCredentialSpec"`
	// GMSACredentialSpecName is the name of the GMSA credential spec to use.
	GmsaCredentialSpecName *string `field:"optional" json:"gmsaCredentialSpecName" yaml:"gmsaCredentialSpecName"`
	// HostProcess determines if a container should be run as a 'Host Process' container.
	//
	// This field is alpha-level and will only be honored by components that enable the WindowsHostProcessContainers feature flag. Setting this field without the feature flag will result in errors when validating the Pod. All of a Pod's containers must have the same effective HostProcess value (it is not allowed to have a mix of HostProcess containers and non-HostProcess containers).  In addition, if HostProcess is true then HostNetwork must also be set to true.
	HostProcess *bool `field:"optional" json:"hostProcess" yaml:"hostProcess"`
	// The UserName in Windows to run the entrypoint of the container process.
	//
	// Defaults to the user specified in image metadata if unspecified. May also be set in PodSecurityContext. If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence.
	// Default: the user specified in image metadata if unspecified. May also be set in PodSecurityContext. If set in both SecurityContext and PodSecurityContext, the value specified in SecurityContext takes precedence.
	//
	RunAsUserName *string `field:"optional" json:"runAsUserName" yaml:"runAsUserName"`
}

WindowsSecurityContextOptions contain Windows-specific options and credentials.

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