core

type AWSElasticBlockStoreVolumeSource struct {
	// Unique id of the persistent disk resource. Used to identify the disk in AWS
	VolumeID string
	// 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.
	// TODO: how do we prevent errors in the filesystem from compromising the machine
	// +optional
	FSType string
	// Optional: Partition on the disk to mount.
	// If omitted, kubelet will attempt to mount the device name.
	// Ex. For /dev/sda1, this field is "1", for /dev/sda, this field is 0 or empty.
	// +optional
	Partition int32
	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
}

type Affinity struct {
	// Describes node affinity scheduling rules for the pod.
	// +optional
	NodeAffinity *NodeAffinity
	// Describes pod affinity scheduling rules (e.g. co-locate this pod in the same node, zone, etc. as some other pod(s)).
	// +optional
	PodAffinity *PodAffinity
	// Describes pod anti-affinity scheduling rules (e.g. avoid putting this pod in the same node, zone, etc. as some other pod(s)).
	// +optional
	PodAntiAffinity *PodAntiAffinity
}

type AttachedVolume struct {
	// Name of the attached volume
	Name UniqueVolumeName

	// DevicePath represents the device path where the volume should be available
	DevicePath string
}

type AvoidPods struct {
	// Bounded-sized list of signatures of pods that should avoid this node, sorted
	// in timestamp order from oldest to newest. Size of the slice is unspecified.
	// +optional
	PreferAvoidPods []PreferAvoidPodsEntry
}

type AzureDataDiskCachingMode string

type AzureDataDiskKind string

type AzureDiskVolumeSource struct {
	// The Name of the data disk in the blob storage
	DiskName string
	// The URI of the data disk in the blob storage
	DataDiskURI string
	// Host Caching mode: None, Read Only, Read Write.
	// +optional
	CachingMode *AzureDataDiskCachingMode
	// 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.
	// +optional
	FSType *string
	// Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly *bool
	// Expected values 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 *AzureDataDiskKind
}

type AzureFilePersistentVolumeSource struct {
	// the name of secret that contains Azure Storage Account Name and Key
	SecretName string
	// Share Name
	ShareName string
	// Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
	// the namespace of the secret that contains Azure Storage Account Name and Key
	// default is the same as the Pod
	// +optional
	SecretNamespace *string
}

type AzureFileVolumeSource struct {
	// the name of secret that contains Azure Storage Account Name and Key
	SecretName string
	// Share Name
	ShareName string
	// Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
}

type Binding struct {
	metav1.TypeMeta
	// ObjectMeta describes the object that is being bound.
	// +optional
	metav1.ObjectMeta

	// Target is the object to bind to.
	Target ObjectReference
}

type CSIPersistentVolumeSource struct {
	// Driver is the name of the driver to use for this volume.
	// Required.
	Driver string

	// 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

	// Optional: The value to pass to ControllerPublishVolumeRequest.
	// Defaults to false (read/write).
	// +optional
	ReadOnly bool

	// Filesystem type to mount.
	// Must be a filesystem type supported by the host operating system.
	// Ex. "ext4", "xfs", "ntfs".
	// +optional
	FSType string

	// Attributes of the volume to publish.
	// +optional
	VolumeAttributes map[string]string

	// 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.
	// +optional
	ControllerPublishSecretRef *SecretReference

	// 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.
	// +optional
	NodeStageSecretRef *SecretReference

	// 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.
	// +optional
	NodePublishSecretRef *SecretReference

	// 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.
	// +optional
	ControllerExpandSecretRef *SecretReference

	// NodeExpandSecretRef is a reference to the secret object containing
	// sensitive information to pass to the CSI driver to complete the CSI
	// NodeExpandVolume call.
	// 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.
	// +optional
	NodeExpandSecretRef *SecretReference
}

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.
	// Required.
	Driver string

	// Specifies a read-only configuration for the volume.
	// Defaults to false (read/write).
	// +optional
	ReadOnly *bool

	// Filesystem type 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.
	// +optional
	FSType *string

	// VolumeAttributes stores driver-specific properties that are passed to the CSI
	// driver. Consult your driver's documentation for supported values.
	// +optional
	VolumeAttributes map[string]string

	// 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.
	// +optional
	NodePublishSecretRef *LocalObjectReference
}

type Capabilities struct {
	// Added capabilities
	// +optional
	Add []Capability
	// Removed capabilities
	// +optional
	Drop []Capability
}

type Capability string

type CephFSPersistentVolumeSource struct {
	// Required: Monitors is a collection of Ceph monitors
	Monitors []string
	// Optional: Used as the mounted root, rather than the full Ceph tree, default is /
	// +optional
	Path string
	// Optional: User is the rados user name, default is admin
	// +optional
	User string
	// Optional: SecretFile is the path to key ring for User, default is /etc/ceph/user.secret
	// +optional
	SecretFile string
	// Optional: SecretRef is reference to the authentication secret for User, default is empty.
	// +optional
	SecretRef *SecretReference
	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
}

type CephFSVolumeSource struct {
	// Required: Monitors is a collection of Ceph monitors
	Monitors []string
	// Optional: Used as the mounted root, rather than the full Ceph tree, default is /
	// +optional
	Path string
	// Optional: User is the rados user name, default is admin
	// +optional
	User string
	// Optional: SecretFile is the path to key ring for User, default is /etc/ceph/user.secret
	// +optional
	SecretFile string
	// Optional: SecretRef is reference to the authentication secret for User, default is empty.
	// +optional
	SecretRef *LocalObjectReference
	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
}

type CinderPersistentVolumeSource struct {
	// Unique id of the volume used to identify the cinder volume.
	VolumeID string
	// 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.
	// +optional
	FSType string
	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
	// Optional: points to a secret object containing parameters used to connect
	// to OpenStack.
	// +optional
	SecretRef *SecretReference
}

type CinderVolumeSource struct {
	// Unique id of the volume used to identify the cinder volume.
	VolumeID string
	// 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.
	// +optional
	FSType string
	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
	// Optional: points to a secret object containing parameters used to connect
	// to OpenStack.
	// +optional
	SecretRef *LocalObjectReference
}

type ClaimResourceStatus string

type ClaimSource struct {
	// ResourceClaimName is the name of a ResourceClaim object in the same
	// namespace as this pod.
	ResourceClaimName *string

	// 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 pod name and resource name, along with a
	// generated component, will be used to form a unique name for the
	// ResourceClaim, which will be recorded in pod.status.resourceClaimStatuses.
	//
	// This field is immutable and no changes will be made to the
	// corresponding ResourceClaim by the control plane after creating the
	// ResourceClaim.
	ResourceClaimTemplateName *string
}

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).
	// +optional
	TimeoutSeconds *int32
}

type ClusterTrustBundleProjection struct {
	// Select a single ClusterTrustBundle by object name.   Mutually-exclusive
	// with SignerName and LabelSelector.
	Name *string

	// Select all ClusterTrustBundles for this signer that match LabelSelector.
	// Mutually-exclusive with Name.
	SignerName *string

	// Select all ClusterTrustBundles that match this LabelSelecotr.
	// Mutually-exclusive with Name.
	LabelSelector *metav1.LabelSelector

	// Block pod startup if the selected ClusterTrustBundle(s) aren't available?
	Optional *bool

	// Relative path from the volume root to write the bundle.
	Path string
}

type ComponentCondition struct {
	Type   ComponentConditionType
	Status ConditionStatus
	// +optional
	Message string
	// +optional
	Error string
}

type ComponentConditionType string

type ComponentStatus struct {
	metav1.TypeMeta
	// +optional
	metav1.ObjectMeta

	// +optional
	Conditions []ComponentCondition
}

type ComponentStatusList struct {
	metav1.TypeMeta
	// +optional
	metav1.ListMeta

	Items []ComponentStatus
}

type ConditionStatus string

type ConfigMap struct {
	metav1.TypeMeta
	// +optional
	metav1.ObjectMeta

	// Immutable field, if set, ensures that data stored in the ConfigMap cannot
	// be updated (only object metadata can be modified).
	// +optional
	Immutable *bool

	// 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.
	// +optional
	Data map[string]string

	// 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.
	// +optional
	BinaryData map[string][]byte
}

type ConfigMapEnvSource struct {
	// The ConfigMap to select from.
	LocalObjectReference
	// Specify whether the ConfigMap must be defined
	// +optional
	Optional *bool
}

type ConfigMapKeySelector struct {
	// The ConfigMap to select from.
	LocalObjectReference
	// The key to select.
	Key string
	// Specify whether the ConfigMap or its key must be defined
	// +optional
	Optional *bool
}

type ConfigMapList struct {
	metav1.TypeMeta
	// +optional
	metav1.ListMeta

	// Items is the list of ConfigMaps.
	Items []ConfigMap
}

type ConfigMapProjection struct {
	LocalObjectReference
	// 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 '..'.
	// +optional
	Items []KeyToPath
	// Specify whether the ConfigMap or its keys must be defined
	// +optional
	Optional *bool
}

type ConfigMapVolumeSource struct {
	LocalObjectReference
	// 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 '..'.
	// +optional
	Items []KeyToPath
	// Mode bits to use on created files by default. Must be a value between
	// 0 and 0777.
	// 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.
	// +optional
	DefaultMode *int32
	// Specify whether the ConfigMap or its keys must be defined
	// +optional
	Optional *bool
}

type Container struct {
	// Required: This must be a DNS_LABEL.  Each container in a pod must
	// have a unique name.
	Name string
	// Required.
	Image string
	// Optional: The container image's entrypoint is used if this is not provided; cannot be updated.
	// 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.
	// +optional
	Command []string
	// Optional: The container image's cmd is used if this is not provided; cannot be updated.
	// 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.
	// +optional
	Args []string
	// Optional: Defaults to the container runtime's default working directory.
	// +optional
	WorkingDir string
	// +optional
	Ports []ContainerPort
	// 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.
	// +optional
	EnvFrom []EnvFromSource
	// +optional
	Env []EnvVar
	// Compute resource requirements.
	// +optional
	Resources ResourceRequirements
	// Resources resize policy for the container.
	// +featureGate=InPlacePodVerticalScaling
	// +optional
	ResizePolicy []ContainerResizePolicy
	// RestartPolicy defines the restart behavior of individual containers in a pod.
	// This field may only be set for init containers, and the only allowed value is "Always".
	// For non-init containers or when this field is not specified,
	// the restart behavior is defined by the Pod's restart policy and the container type.
	// Setting the RestartPolicy as "Always" for the init container will have the following effect:
	// this init container will be continually restarted on
	// exit until all regular containers have terminated. Once all regular
	// containers have completed, all init containers with restartPolicy "Always"
	// will be shut down. This lifecycle differs from normal init containers and
	// is often referred to as a "sidecar" container. Although this init
	// container still starts in the init container sequence, it does not wait
	// for the container to complete before proceeding to the next init
	// container. Instead, the next init container starts immediately after this
	// init container is started, or after any startupProbe has successfully
	// completed.
	// +featureGate=SidecarContainers
	// +optional
	RestartPolicy *ContainerRestartPolicy
	// +optional
	VolumeMounts []VolumeMount
	// volumeDevices is the list of block devices to be used by the container.
	// +optional
	VolumeDevices []VolumeDevice
	// +optional
	LivenessProbe *Probe
	// +optional
	ReadinessProbe *Probe
	// +optional
	StartupProbe *Probe
	// +optional
	Lifecycle *Lifecycle
	// Required.
	// +optional
	TerminationMessagePath string
	// +optional
	TerminationMessagePolicy TerminationMessagePolicy
	// Required: Policy for pulling images for this container
	ImagePullPolicy PullPolicy
	// Optional: SecurityContext defines the security options the container should be run with.
	// If set, the fields of SecurityContext override the equivalent fields of PodSecurityContext.
	// +optional
	SecurityContext *SecurityContext

	// Variables for interactive containers, these have very specialized use-cases (e.g. debugging)
	// and shouldn't be used for general purpose containers.
	// +optional
	Stdin bool
	// +optional
	StdinOnce bool
	// +optional
	TTY bool
}

type ContainerImage struct {
	// Names by which this image is known.
	// +optional
	Names []string
	// The size of the image in bytes.
	// +optional
	SizeBytes int64
}

type ContainerPort struct {
	// Optional: If specified, this must be an IANA_SVC_NAME  Each named port
	// in a pod must have a unique name.
	// +optional
	Name string
	// Optional: If specified, this must be a valid port number, 0 < x < 65536.
	// If HostNetwork is specified, this must match ContainerPort.
	// +optional
	HostPort int32
	// Required: This must be a valid port number, 0 < x < 65536.
	ContainerPort int32
	// Required: Supports "TCP", "UDP" and "SCTP"
	// +optional
	Protocol Protocol
	// Optional: What host IP to bind the external port to.
	// +optional
	HostIP string
}

type ContainerResizePolicy struct {
	// Name of the resource to which this resource resize policy applies.
	// Supported values: cpu, memory.
	ResourceName ResourceName
	// Restart policy to apply when specified resource is resized.
	// If not specified, it defaults to NotRequired.
	RestartPolicy ResourceResizeRestartPolicy
}

type ContainerRestartPolicy string

type ContainerState struct {
	// +optional
	Waiting *ContainerStateWaiting
	// +optional
	Running *ContainerStateRunning
	// +optional
	Terminated *ContainerStateTerminated
}

type ContainerStateRunning struct {
	// +optional
	StartedAt metav1.Time
}

type ContainerStateTerminated struct {
	ExitCode int32
	// +optional
	Signal int32
	// +optional
	Reason string
	// +optional
	Message string
	// +optional
	StartedAt metav1.Time
	// +optional
	FinishedAt metav1.Time
	// +optional
	ContainerID string
}

type ContainerStateWaiting struct {
	// A brief CamelCase string indicating details about why the container is in waiting state.
	// +optional
	Reason string
	// A human-readable message indicating details about why the container is in waiting state.
	// +optional
	Message string
}

type ContainerStatus struct {
	// Name is a DNS_LABEL representing the unique name of the container.
	// Each container in a pod must have a unique name across all container types.
	// Cannot be updated.
	Name string
	// State holds details about the container's current condition.
	// +optional
	State ContainerState
	// LastTerminationState holds the last termination state of the container to
	// help debug container crashes and restarts. This field is not
	// populated if the container is still running and RestartCount is 0.
	// +optional
	LastTerminationState ContainerState
	// Ready specifies whether the container is currently passing its readiness check.
	// The value will change as readiness probes keep executing. If no readiness
	// probes are specified, this field defaults to true once the container is
	// fully started (see Started field).
	//
	// The value is typically used to determine whether a container is ready to
	// accept traffic.
	Ready bool
	// RestartCount holds the number of times the container has been restarted.
	// Kubelet makes an effort to always increment the value, but there
	// are cases when the state may be lost due to node restarts and then the value
	// may be reset to 0. The value is never negative.
	RestartCount int32
	// Image is the name of container image that the container is running.
	// The container image may not match the image used in the PodSpec,
	// as it may have been resolved by the runtime.
	// More info: https://kubernetes.io/docs/concepts/containers/images.
	Image string
	// ImageID is the image ID of the container's image. The image ID may not
	// match the image ID of the image used in the PodSpec, as it may have been
	// resolved by the runtime.
	ImageID string
	// ContainerID is the ID of the container in the format '<type>://<container_id>'.
	// Where type is a container runtime identifier, returned from Version call of CRI API
	// (for example "containerd").
	// +optional
	ContainerID string
	// Started indicates whether the container has finished its postStart lifecycle hook
	// and passed its startup probe.
	// Initialized as false, becomes true after startupProbe is considered
	// successful. Resets to false when the container is restarted, or if kubelet
	// loses state temporarily. In both cases, startup probes will run again.
	// Is always true when no startupProbe is defined and container is running and
	// has passed the postStart lifecycle hook. The null value must be treated the
	// same as false.
	// +optional
	Started *bool
	// AllocatedResources represents the compute resources allocated for this container by the
	// node. Kubelet sets this value to Container.Resources.Requests upon successful pod admission
	// and after successfully admitting desired pod resize.
	// +featureGate=InPlacePodVerticalScaling
	// +optional
	AllocatedResources ResourceList
	// Resources represents the compute resource requests and limits that have been successfully
	// enacted on the running container after it has been started or has been successfully resized.
	// +featureGate=InPlacePodVerticalScaling
	// +optional
	Resources *ResourceRequirements
}

type DNSPolicy string

type DaemonEndpoint struct {

	// Port number of the given endpoint.
	Port int32
}

type DownwardAPIProjection struct {
	// Items is a list of DownwardAPIVolume file
	// +optional
	Items []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
	// Required: Selects a field of the pod: only annotations, labels, name, namespace and uid are supported.
	// +optional
	FieldRef *ObjectFieldSelector
	// Selects a resource of the container: only resources limits and requests
	// (limits.cpu, limits.memory, requests.cpu and requests.memory) are currently supported.
	// +optional
	ResourceFieldRef *ResourceFieldSelector
	// Optional: mode bits to use on this file, must be a value between 0
	// and 0777. 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.
	// +optional
	Mode *int32
}

type DownwardAPIVolumeSource struct {
	// Items is a list of DownwardAPIVolume file
	// +optional
	Items []DownwardAPIVolumeFile
	// Mode bits to use on created files by default. Must be a value between
	// 0 and 0777.
	// 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.
	// +optional
	DefaultMode *int32
}

type EmptyDirVolumeSource struct {
	// TODO: Longer term we want to represent the selection of underlying
	// media more like a scheduling problem - user says what traits they
	// need, we give them a backing store that satisfies that.  For now
	// this will cover the most common needs.
	// Optional: what type of storage medium should back this directory.
	// The default is "" which means to use the node's default medium.
	// +optional
	Medium StorageMedium
	// 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
	// +optional
	SizeLimit *resource.Quantity
}

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
	// Optional: Hostname of this endpoint
	// Meant to be used by DNS servers etc.
	// +optional
	Hostname string
	// Optional: Node hosting this endpoint. This can be used to determine endpoints local to a node.
	// +optional
	NodeName *string
	// Optional: The kubernetes object related to the entry point.
	TargetRef *ObjectReference
}

type EndpointPort struct {
	// The name of this port (corresponds to ServicePort.Name).  Optional
	// if only one port is defined.  Must be a DNS_LABEL.
	Name string

	// The port number.
	Port int32

	// The IP protocol for this port.
	Protocol Protocol

	// 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 prior knowledge over cleartext as described in https://www.rfc-editor.org/rfc/rfc9113.html#name-starting-http-2-with-prior-
	//   * 'kubernetes.io/ws'  - WebSocket over cleartext as described in https://www.rfc-editor.org/rfc/rfc6455
	//   * 'kubernetes.io/wss' - WebSocket over TLS as described in https://www.rfc-editor.org/rfc/rfc6455
	//
	// * Other protocols should use implementation-defined prefixed names such as
	// mycompany.com/my-custom-protocol.
	// +optional
	AppProtocol *string
}

type EndpointSubset struct {
	Addresses         []EndpointAddress
	NotReadyAddresses []EndpointAddress
	Ports             []EndpointPort
}

type Endpoints struct {
	metav1.TypeMeta
	// +optional
	metav1.ObjectMeta

	// The set of all endpoints is the union of all subsets.
	Subsets []EndpointSubset
}

type EndpointsList struct {
	metav1.TypeMeta
	// +optional
	metav1.ListMeta

	Items []Endpoints
}

type EnvFromSource struct {
	// An optional identifier to prepend to each key in the ConfigMap.
	// +optional
	Prefix string
	// The ConfigMap to select from.
	// +optional
	ConfigMapRef *ConfigMapEnvSource
	// The Secret to select from.
	// +optional
	SecretRef *SecretEnvSource
}

type EnvVar struct {
	// Required: This must be a C_IDENTIFIER.
	Name string
	// Optional: no more than one of the following may be specified.
	// Optional: Defaults to ""; 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.
	// +optional
	Value string
	// Optional: Specifies a source the value of this var should come from.
	// +optional
	ValueFrom *EnvVarSource
}

type EnvVarSource struct {
	// Selects a field of the pod: supports metadata.name, metadata.namespace, `metadata.labels['<KEY>']`, `metadata.annotations['<KEY>']`,
	// metadata.uid, spec.nodeName, spec.serviceAccountName, status.hostIP, status.podIP, status.podIPs.
	// +optional
	FieldRef *ObjectFieldSelector
	// 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.
	// +optional
	ResourceFieldRef *ResourceFieldSelector
	// Selects a key of a ConfigMap.
	// +optional
	ConfigMapKeyRef *ConfigMapKeySelector
	// Selects a key of a secret in the pod's namespace.
	// +optional
	SecretKeyRef *SecretKeySelector
}

type EphemeralContainer struct {
	// Ephemeral containers have all of the fields of Container, plus additional fields
	// specific to ephemeral containers. Fields in common with Container are in the
	// following inlined struct so than an EphemeralContainer may easily be converted
	// to a Container.
	EphemeralContainerCommon

	// 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.
	// +optional
	TargetContainerName string
}

type EphemeralContainerCommon struct {
	// Required: This must be a DNS_LABEL.  Each container in a pod must
	// have a unique name.
	Name string
	// Required.
	Image string
	// Optional: The container image's entrypoint is used if this is not provided; cannot be updated.
	// 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.
	// +optional
	Command []string
	// Optional: The container image's cmd is used if this is not provided; cannot be updated.
	// 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.
	// +optional
	Args []string
	// Optional: Defaults to the container runtime's default working directory.
	// +optional
	WorkingDir string
	// Ports are not allowed for ephemeral containers.
	// +optional
	Ports []ContainerPort
	// 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.
	// +optional
	EnvFrom []EnvFromSource
	// +optional
	Env []EnvVar
	// Resources are not allowed for ephemeral containers. Ephemeral containers use spare resources
	// already allocated to the pod.
	// +optional
	Resources ResourceRequirements
	// Resources resize policy for the container.
	// +featureGate=InPlacePodVerticalScaling
	// +optional
	ResizePolicy []ContainerResizePolicy
	// Restart policy for the container to manage the restart behavior of each
	// container within a pod.
	// This may only be set for init containers. You cannot set this field on
	// ephemeral containers.
	// +featureGate=SidecarContainers
	// +optional
	RestartPolicy *ContainerRestartPolicy
	// Pod volumes to mount into the container's filesystem. Subpath mounts are not allowed for ephemeral containers.
	// +optional
	VolumeMounts []VolumeMount
	// volumeDevices is the list of block devices to be used by the container.
	// +optional
	VolumeDevices []VolumeDevice
	// Probes are not allowed for ephemeral containers.
	// +optional
	LivenessProbe *Probe
	// Probes are not allowed for ephemeral containers.
	// +optional
	ReadinessProbe *Probe
	// Probes are not allowed for ephemeral containers.
	// +optional
	StartupProbe *Probe
	// Lifecycle is not allowed for ephemeral containers.
	// +optional
	Lifecycle *Lifecycle
	// Required.
	// +optional
	TerminationMessagePath string
	// +optional
	TerminationMessagePolicy TerminationMessagePolicy
	// Required: Policy for pulling images for this container
	ImagePullPolicy PullPolicy
	// 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.
	// +optional
	SecurityContext *SecurityContext

	// Variables for interactive containers, these have very specialized use-cases (e.g. debugging)
	// and shouldn't be used for general purpose containers.
	// +optional
	Stdin bool
	// +optional
	StdinOnce bool
	// +optional
	TTY bool
}

type EphemeralVolumeSource struct {
	// VolumeClaimTemplate 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
}

type Event struct {
	metav1.TypeMeta

	metav1.ObjectMeta

	// The object that this event is about. Mapped to events.Event.regarding
	// +optional
	InvolvedObject ObjectReference

	// Optional; this should be a short, machine understandable string that gives the reason
	// for this event being generated. For example, if the event is reporting that a container
	// can't start, the Reason might be "ImageNotFound".
	// TODO: provide exact specification for format.
	// +optional
	Reason string

	// Optional. A human-readable description of the status of this operation.
	// TODO: decide on maximum length. Mapped to events.Event.note
	// +optional
	Message string

	// Optional. The component reporting this event. Should be a short machine understandable string.
	// +optional
	Source EventSource

	// The time at which the event was first recorded. (Time of server receipt is in TypeMeta.)
	// +optional
	FirstTimestamp metav1.Time

	// The time at which the most recent occurrence of this event was recorded.
	// +optional
	LastTimestamp metav1.Time

	// The number of times this event has occurred.
	// +optional
	Count int32

	// Type of this event (Normal, Warning), new types could be added in the future.
	// +optional
	Type string

	// Time when this Event was first observed.
	// +optional
	EventTime metav1.MicroTime

	// Data about the Event series this event represents or nil if it's a singleton Event.
	// +optional
	Series *EventSeries

	// What action was taken/failed regarding to the Regarding object.
	// +optional
	Action string

	// Optional secondary object for more complex actions.
	// +optional
	Related *ObjectReference

	// Name of the controller that emitted this Event, e.g. `kubernetes.io/kubelet`.
	// +optional
	ReportingController string

	// ID of the controller instance, e.g. `kubelet-xyzf`.
	// +optional
	ReportingInstance string
}

type EventList struct {
	metav1.TypeMeta
	// +optional
	metav1.ListMeta

	Items []Event
}

type EventSeries struct {
	// Number of occurrences in this series up to the last heartbeat time
	Count int32
	// Time of the last occurrence observed
	LastObservedTime metav1.MicroTime
}

type EventSource struct {
	// Component from which the event is generated.
	// +optional
	Component string
	// Node name on which the event is generated.
	// +optional
	Host string
}

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.
	// +optional
	Command []string
}

type FCVolumeSource struct {
	// Optional: FC target worldwide names (WWNs)
	// +optional
	TargetWWNs []string
	// Optional: FC target lun number
	// +optional
	Lun *int32
	// 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.
	// TODO: how do we prevent errors in the filesystem from compromising the machine
	// +optional
	FSType string
	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
	// Optional: FC volume World Wide Identifiers (WWIDs)
	// Either WWIDs or TargetWWNs and Lun must be set, but not both simultaneously.
	// +optional
	WWIDs []string
}

type FinalizerName string

type FlexPersistentVolumeSource struct {
	// Driver is the name of the driver to use for this volume.
	Driver string
	// 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.
	// +optional
	FSType string
	// 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.
	// +optional
	SecretRef *SecretReference
	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
	// Optional: Extra driver options if any.
	// +optional
	Options map[string]string
}

type FlexVolumeSource struct {
	// Driver is the name of the driver to use for this volume.
	Driver string
	// 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.
	// +optional
	FSType string
	// 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.
	// +optional
	SecretRef *LocalObjectReference
	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
	// Optional: Extra driver options if any.
	// +optional
	Options map[string]string
}

type FlockerVolumeSource struct {
	// Name of the dataset stored as metadata -> name on the dataset for Flocker
	// should be considered as deprecated
	// +optional
	DatasetName string
	// UUID of the dataset. This is unique identifier of a Flocker dataset
	// +optional
	DatasetUUID string
}

type GCEPersistentDiskVolumeSource struct {
	// Unique name of the PD resource. Used to identify the disk in GCE
	PDName string
	// 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.
	// TODO: how do we prevent errors in the filesystem from compromising the machine
	// +optional
	FSType string
	// Optional: Partition on the disk to mount.
	// If omitted, kubelet will attempt to mount the device name.
	// Ex. For /dev/sda1, this field is "1", for /dev/sda, this field is 0 or empty.
	// +optional
	Partition int32
	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
}

type GRPCAction struct {
	// Port number of the gRPC service.
	// Note: Number must be in the range 1 to 65535.
	Port int32

	// 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 to probe the server's overall health status.
	// +optional
	Service *string
}

type GitRepoVolumeSource struct {
	// Repository URL
	Repository string
	// Commit hash, this is optional
	// +optional
	Revision string
	// Clone target, this is optional
	// 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.
	// +optional
	Directory string
}

type GlusterfsPersistentVolumeSource struct {
	// EndpointsName is the endpoint name that details Glusterfs topology.
	// More info: https://examples.k8s.io/volumes/glusterfs/README.md#create-a-pod
	EndpointsName string

	// Path is the Glusterfs volume path.
	// More info: https://examples.k8s.io/volumes/glusterfs/README.md#create-a-pod
	Path string

	// 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
	// +optional
	ReadOnly bool

	// 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
	// +optional
	EndpointsNamespace *string
}

type GlusterfsVolumeSource struct {
	// Required: EndpointsName is the endpoint name that details Glusterfs topology
	EndpointsName string

	// Required: Path is the Glusterfs volume path
	Path string

	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the Glusterfs to be mounted with read-only permissions
	// +optional
	ReadOnly bool
}

type HTTPGetAction struct {
	// Optional: Path to access on the HTTP server.
	// +optional
	Path string
	// Required: Name or number of the port to access on the container.
	// +optional
	Port intstr.IntOrString
	// Optional: Host name to connect to, defaults to the pod IP. You
	// probably want to set "Host" in httpHeaders instead.
	// +optional
	Host string
	// Optional: Scheme to use for connecting to the host, defaults to HTTP.
	// +optional
	Scheme URIScheme
	// Optional: Custom headers to set in the request. HTTP allows repeated headers.
	// +optional
	HTTPHeaders []HTTPHeader
}

type HTTPHeader struct {
	// The header field name.
	// This will be canonicalized upon output, so case-variant names will be understood as the same header.
	Name string
	// The header field value
	Value string
}

type HostAlias struct {
	IP        string
	Hostnames []string
}

type HostIP struct {
	// IP is the IP address assigned to the host
	IP string
}

type HostPathType string

type HostPathVolumeSource struct {
	// If the path is a symlink, it will follow the link to the real path.
	Path string
	// Defaults to ""
	Type *HostPathType
}

type IPFamily string

type IPFamilyPolicy string

type ISCSIPersistentVolumeSource struct {
	// Required: iSCSI target portal
	// the portal is either an IP or ip_addr:port if port is other than default (typically TCP ports 860 and 3260)
	// +optional
	TargetPortal string
	// Required:  target iSCSI Qualified Name
	// +optional
	IQN string
	// Required: iSCSI target lun number
	// +optional
	Lun int32
	// Optional: Defaults to 'default' (tcp). iSCSI interface name that uses an iSCSI transport.
	// +optional
	ISCSIInterface string
	// 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.
	// TODO: how do we prevent errors in the filesystem from compromising the machine
	// +optional
	FSType string
	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
	// Optional: list of iSCSI target portal ips for high availability.
	// the portal is either an IP or ip_addr:port if port is other than default (typically TCP ports 860 and 3260)
	// +optional
	Portals []string
	// Optional: whether support iSCSI Discovery CHAP authentication
	// +optional
	DiscoveryCHAPAuth bool
	// Optional: whether support iSCSI Session CHAP authentication
	// +optional
	SessionCHAPAuth bool
	// Optional: CHAP secret for iSCSI target and initiator authentication.
	// The secret is used if either DiscoveryCHAPAuth or SessionCHAPAuth is true
	// +optional
	SecretRef *SecretReference
	// Optional: Custom initiator name per volume.
	// If initiatorName is specified with iscsiInterface simultaneously, new iSCSI interface
	// <target portal>:<volume name> will be created for the connection.
	// +optional
	InitiatorName *string
}

type ISCSIVolumeSource struct {
	// Required: iSCSI target portal
	// the portal is either an IP or ip_addr:port if port is other than default (typically TCP ports 860 and 3260)
	// +optional
	TargetPortal string
	// Required:  target iSCSI Qualified Name
	// +optional
	IQN string
	// Required: iSCSI target lun number
	// +optional
	Lun int32
	// Optional: Defaults to 'default' (tcp). iSCSI interface name that uses an iSCSI transport.
	// +optional
	ISCSIInterface string
	// 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.
	// TODO: how do we prevent errors in the filesystem from compromising the machine
	// +optional
	FSType string
	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the ReadOnly setting in VolumeMounts.
	// +optional
	ReadOnly bool
	// Optional: list of iSCSI target portal ips for high availability.
	// the portal is either an IP or ip_addr:port if port is other than default (typically TCP ports 860 and 3260)
	// +optional
	Portals []string
	// Optional: whether support iSCSI Discovery CHAP authentication
	// +optional
	DiscoveryCHAPAuth bool
	// Optional: whether support iSCSI Session CHAP authentication
	// +optional
	SessionCHAPAuth bool
	// Optional: CHAP secret for iSCSI target and initiator authentication.
	// The secret is used if either DiscoveryCHAPAuth or SessionCHAPAuth is true
	// +optional
	SecretRef *LocalObjectReference
	// Optional: Custom initiator name per volume.
	// If initiatorName is specified with iscsiInterface simultaneously, new iSCSI interface
	// <target portal>:<volume name> will be created for the connection.
	// +optional
	InitiatorName *string
}

type KeyToPath struct {
	// The key to project.
	Key string

	// 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
	// Optional: mode bits to use on this file, should be a value between 0
	// and 0777. 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.
	// +optional
	Mode *int32
}

type Lifecycle struct {
	// PostStart is called immediately after a container is created.  If the handler fails, the container
	// is terminated and restarted.
	// More info: https://kubernetes.io/docs/concepts/containers/container-lifecycle-hooks/#container-hooks
	// +optional
	PostStart *LifecycleHandler
	// 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
	// +optional
	PreStop *LifecycleHandler
}

type LifecycleHandler struct {
	// Exec specifies the action to take.
	// +optional
	Exec *ExecAction
	// HTTPGet specifies the http request to perform.
	// +optional
	HTTPGet *HTTPGetAction
	// 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.
	// +optional
	TCPSocket *TCPSocketAction
	// Sleep represents the duration that the container should sleep before being terminated.
	// +featureGate=PodLifecycleSleepAction
	// +optional
	Sleep *SleepAction
}

type LimitRange struct {
	metav1.TypeMeta
	// +optional
	metav1.ObjectMeta

	// Spec defines the limits enforced
	// +optional
	Spec LimitRangeSpec
}

type LimitRangeItem struct {
	// Type of resource that this limit applies to
	// +optional
	Type LimitType
	// Max usage constraints on this kind by resource name
	// +optional
	Max ResourceList
	// Min usage constraints on this kind by resource name
	// +optional
	Min ResourceList
	// Default resource requirement limit value by resource name.
	// +optional
	Default ResourceList
	// DefaultRequest resource requirement request value by resource name.
	// +optional
	DefaultRequest ResourceList
	// MaxLimitRequestRatio represents the max burst value for the named resource
	// +optional
	MaxLimitRequestRatio ResourceList
}

type LimitRangeList struct {
	metav1.TypeMeta
	// +optional
	metav1.ListMeta

	// Items is a list of LimitRange objects
	Items []LimitRange
}

type LimitRangeSpec struct {
	// Limits is the list of LimitRangeItem objects that are enforced
	Limits []LimitRangeItem
}

type LimitType string

type List metainternalversion.List

type LoadBalancerIPMode string

type LoadBalancerIngress struct {
	// IP is set for load-balancer ingress points that are IP based
	// (typically GCE or OpenStack load-balancers)
	// +optional
	IP string

	// Hostname is set for load-balancer ingress points that are DNS based
	// (typically AWS load-balancers)
	// +optional
	Hostname string

	// IPMode specifies how the load-balancer IP behaves, and may only be specified when the ip field is specified.
	// Setting this to "VIP" indicates that traffic is delivered to the node with
	// the destination set to the load-balancer's IP and port.
	// Setting this to "Proxy" indicates that traffic is delivered to the node or pod with
	// the destination set to the node's IP and node port or the pod's IP and port.
	// Service implementations may use this information to adjust traffic routing.
	// +optional
	IPMode *LoadBalancerIPMode

	// Ports is a list of records of service ports
	// If used, every port defined in the service should have an entry in it
	// +optional
	Ports []PortStatus
}

type LoadBalancerStatus struct {
	// Ingress is a list containing ingress points for the load-balancer;
	// traffic intended for the service should be sent to these ingress points.
	// +optional
	Ingress []LoadBalancerIngress
}

type LocalObjectReference struct {
	// TODO: Add other useful fields.  apiVersion, kind, uid?
	Name string
}

type LocalVolumeSource struct {
	// The full path to the volume on the node.
	// It can be either a directory or block device (disk, partition, ...).
	Path string

	// 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.
	// +optional
	FSType *string
}

type ModifyVolumeStatus struct {
	// targetVolumeAttributesClassName is the name of the VolumeAttributesClass the PVC currently being reconciled
	TargetVolumeAttributesClassName string
	// status is the status of the ControllerModifyVolume operation. It can be in any of following states:
	//  - Pending
	//    Pending indicates that the PersistentVolumeClaim cannot be modified due to unmet requirements, such as
	//    the specified VolumeAttributesClass not existing.
	//  - InProgress
	//    InProgress indicates that the volume is being modified.
	//  - Infeasible
	//   Infeasible indicates that the request has been rejected as invalid by the CSI driver. To
	// 	  resolve the error, a valid VolumeAttributesClass needs to be specified.
	// Note: New statuses can be added in the future. Consumers should check for unknown statuses and fail appropriately.
	Status PersistentVolumeClaimModifyVolumeStatus
}

type MountPropagationMode string

type NFSVolumeSource struct {
	// Server is the hostname or IP address of the NFS server
	Server string

	// Path is the exported NFS share
	Path string

	// Optional: Defaults to false (read/write). ReadOnly here will force
	// the NFS export to be mounted with read-only permissions
	// +optional
	ReadOnly bool
}

type Namespace struct {
	metav1.TypeMeta
	// +optional
	metav1.ObjectMeta

	// Spec defines the behavior of the Namespace.
	// +optional
	Spec NamespaceSpec

	// Status describes the current status of a Namespace
	// +optional
	Status NamespaceStatus
}

type NamespaceCondition struct {
	// Type of namespace controller condition.
	Type NamespaceConditionType
	// Status of the condition, one of True, False, Unknown.
	Status ConditionStatus
	// +optional
	LastTransitionTime metav1.Time
	// +optional
	Reason string
	// +optional
	Message string
}

type NamespaceConditionType string

type NamespaceList struct {
	metav1.TypeMeta
	// +optional
	metav1.ListMeta

	Items []Namespace
}

type NamespacePhase string

type NamespaceSpec struct {
	// Finalizers is an opaque list of values that must be empty to permanently remove object from storage
	Finalizers []FinalizerName
}

type NamespaceStatus struct {
	// Phase is the current lifecycle phase of the namespace.
	// +optional
	Phase NamespacePhase
	// +optional
	Conditions []NamespaceCondition
}

type Node struct {
	metav1.TypeMeta
	// +optional
	metav1.ObjectMeta

	// Spec defines the behavior of a node.
	// +optional
	Spec NodeSpec

	// Status describes the current status of a Node
	// +optional
	Status NodeStatus
}

type NodeAddress struct {
	Type    NodeAddressType
	Address string
}

type NodeAddressType string

type NodeAffinity struct {

	// 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.
	// +optional
	RequiredDuringSchedulingIgnoredDuringExecution *NodeSelector
	// 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.
	// +optional
	PreferredDuringSchedulingIgnoredDuringExecution []PreferredSchedulingTerm
}