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Kubernetes v4.18.3 published on Thursday, Oct 31, 2024 by Pulumi

kubernetes.resource.k8s.io/v1alpha3.ResourceClaim

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Kubernetes v4.18.3 published on Thursday, Oct 31, 2024 by Pulumi

    ResourceClaim describes a request for access to resources in the cluster, for use by workloads. For example, if a workload needs an accelerator device with specific properties, this is how that request is expressed. The status stanza tracks whether this claim has been satisfied and what specific resources have been allocated.

    This is an alpha type and requires enabling the DynamicResourceAllocation feature gate.

    Create ResourceClaim Resource

    Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.

    Constructor syntax

    new ResourceClaim(name: string, args: ResourceClaim, opts?: CustomResourceOptions);
    @overload
    def ResourceClaim(resource_name: str,
                      args: ResourceClaimInitArgs,
                      opts: Optional[ResourceOptions] = None)
    
    @overload
    def ResourceClaim(resource_name: str,
                      opts: Optional[ResourceOptions] = None,
                      spec: Optional[_resource_k8s_io.v1alpha3.ResourceClaimSpecArgs] = None,
                      metadata: Optional[_meta.v1.ObjectMetaArgs] = None)
    func NewResourceClaim(ctx *Context, name string, args ResourceClaimArgs, opts ...ResourceOption) (*ResourceClaim, error)
    public ResourceClaim(string name, ResourceClaimArgs args, CustomResourceOptions? opts = null)
    public ResourceClaim(String name, ResourceClaimArgs args)
    public ResourceClaim(String name, ResourceClaimArgs args, CustomResourceOptions options)
    
    type: kubernetes:resource.k8s.io/v1alpha3:ResourceClaim
    properties: # The arguments to resource properties.
    options: # Bag of options to control resource's behavior.
    
    

    Parameters

    name string
    The unique name of the resource.
    args ResourceClaim
    The arguments to resource properties.
    opts CustomResourceOptions
    Bag of options to control resource's behavior.
    resource_name str
    The unique name of the resource.
    args ResourceClaimInitArgs
    The arguments to resource properties.
    opts ResourceOptions
    Bag of options to control resource's behavior.
    ctx Context
    Context object for the current deployment.
    name string
    The unique name of the resource.
    args ResourceClaimArgs
    The arguments to resource properties.
    opts ResourceOption
    Bag of options to control resource's behavior.
    name string
    The unique name of the resource.
    args ResourceClaimArgs
    The arguments to resource properties.
    opts CustomResourceOptions
    Bag of options to control resource's behavior.
    name String
    The unique name of the resource.
    args ResourceClaimArgs
    The arguments to resource properties.
    options CustomResourceOptions
    Bag of options to control resource's behavior.

    ResourceClaim Resource Properties

    To learn more about resource properties and how to use them, see Inputs and Outputs in the Architecture and Concepts docs.

    Inputs

    In Python, inputs that are objects can be passed either as argument classes or as dictionary literals.

    The ResourceClaim resource accepts the following input properties:

    Spec ResourceClaimSpec
    Spec describes what is being requested and how to configure it. The spec is immutable.
    Metadata Pulumi.Kubernetes.Meta.V1.Inputs.ObjectMeta
    Standard object metadata
    Spec ResourceClaimSpecArgs
    Spec describes what is being requested and how to configure it. The spec is immutable.
    Metadata ObjectMetaArgs
    Standard object metadata
    spec ResourceClaimSpec
    Spec describes what is being requested and how to configure it. The spec is immutable.
    metadata ObjectMeta
    Standard object metadata
    spec ResourceClaimSpec
    Spec describes what is being requested and how to configure it. The spec is immutable.
    metadata meta.v1.ObjectMeta
    Standard object metadata
    spec resource_k8s_io.v1alpha3.ResourceClaimSpecArgs
    Spec describes what is being requested and how to configure it. The spec is immutable.
    metadata meta.v1.ObjectMetaArgs
    Standard object metadata
    spec Property Map
    Spec describes what is being requested and how to configure it. The spec is immutable.
    metadata Property Map
    Standard object metadata

    Outputs

    All input properties are implicitly available as output properties. Additionally, the ResourceClaim resource produces the following output properties:

    Id string
    The provider-assigned unique ID for this managed resource.
    Status ResourceClaimStatus
    Status describes whether the claim is ready to use and what has been allocated.
    Id string
    The provider-assigned unique ID for this managed resource.
    Status ResourceClaimStatus
    Status describes whether the claim is ready to use and what has been allocated.
    id String
    The provider-assigned unique ID for this managed resource.
    status ResourceClaimStatus
    Status describes whether the claim is ready to use and what has been allocated.
    id string
    The provider-assigned unique ID for this managed resource.
    status ResourceClaimStatus
    Status describes whether the claim is ready to use and what has been allocated.
    id str
    The provider-assigned unique ID for this managed resource.
    status resource_k8s_io.v1alpha3.ResourceClaimStatus
    Status describes whether the claim is ready to use and what has been allocated.
    id String
    The provider-assigned unique ID for this managed resource.
    status Property Map
    Status describes whether the claim is ready to use and what has been allocated.

    Supporting Types

    AllocationResult, AllocationResultArgs

    Controller string

    Controller is the name of the DRA driver which handled the allocation. That driver is also responsible for deallocating the claim. It is empty when the claim can be deallocated without involving a driver.

    A driver may allocate devices provided by other drivers, so this driver name here can be different from the driver names listed for the results.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    Devices DeviceAllocationResult
    Devices is the result of allocating devices.
    NodeSelector Pulumi.Kubernetes.Core.V1.Inputs.NodeSelector
    NodeSelector defines where the allocated resources are available. If unset, they are available everywhere.
    Controller string

    Controller is the name of the DRA driver which handled the allocation. That driver is also responsible for deallocating the claim. It is empty when the claim can be deallocated without involving a driver.

    A driver may allocate devices provided by other drivers, so this driver name here can be different from the driver names listed for the results.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    Devices DeviceAllocationResult
    Devices is the result of allocating devices.
    NodeSelector NodeSelector
    NodeSelector defines where the allocated resources are available. If unset, they are available everywhere.
    controller String

    Controller is the name of the DRA driver which handled the allocation. That driver is also responsible for deallocating the claim. It is empty when the claim can be deallocated without involving a driver.

    A driver may allocate devices provided by other drivers, so this driver name here can be different from the driver names listed for the results.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    devices DeviceAllocationResult
    Devices is the result of allocating devices.
    nodeSelector NodeSelector
    NodeSelector defines where the allocated resources are available. If unset, they are available everywhere.
    controller string

    Controller is the name of the DRA driver which handled the allocation. That driver is also responsible for deallocating the claim. It is empty when the claim can be deallocated without involving a driver.

    A driver may allocate devices provided by other drivers, so this driver name here can be different from the driver names listed for the results.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    devices DeviceAllocationResult
    Devices is the result of allocating devices.
    nodeSelector core.v1.NodeSelector
    NodeSelector defines where the allocated resources are available. If unset, they are available everywhere.
    controller str

    Controller is the name of the DRA driver which handled the allocation. That driver is also responsible for deallocating the claim. It is empty when the claim can be deallocated without involving a driver.

    A driver may allocate devices provided by other drivers, so this driver name here can be different from the driver names listed for the results.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    devices resource_k8s_io.v1alpha3.DeviceAllocationResult
    Devices is the result of allocating devices.
    node_selector core.v1.NodeSelector
    NodeSelector defines where the allocated resources are available. If unset, they are available everywhere.
    controller String

    Controller is the name of the DRA driver which handled the allocation. That driver is also responsible for deallocating the claim. It is empty when the claim can be deallocated without involving a driver.

    A driver may allocate devices provided by other drivers, so this driver name here can be different from the driver names listed for the results.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    devices Property Map
    Devices is the result of allocating devices.
    nodeSelector Property Map
    NodeSelector defines where the allocated resources are available. If unset, they are available everywhere.

    CELDeviceSelector, CELDeviceSelectorArgs

    Expression string

    Expression is a CEL expression which evaluates a single device. It must evaluate to true when the device under consideration satisfies the desired criteria, and false when it does not. Any other result is an error and causes allocation of devices to abort.

    The expression's input is an object named "device", which carries the following properties:

    • driver (string): the name of the driver which defines this device.
    • attributes (map[string]object): the device's attributes, grouped by prefix (e.g. device.attributes["dra.example.com"] evaluates to an object with all of the attributes which were prefixed by "dra.example.com".
    • capacity (map[string]object): the device's capacities, grouped by prefix.

    Example: Consider a device with driver="dra.example.com", which exposes two attributes named "model" and "ext.example.com/family" and which exposes one capacity named "modules". This input to this expression would have the following fields:

    device.driver
    device.attributes["dra.example.com"].model
    device.attributes["ext.example.com"].family
    device.capacity["dra.example.com"].modules
    

    The device.driver field can be used to check for a specific driver, either as a high-level precondition (i.e. you only want to consider devices from this driver) or as part of a multi-clause expression that is meant to consider devices from different drivers.

    The value type of each attribute is defined by the device definition, and users who write these expressions must consult the documentation for their specific drivers. The value type of each capacity is Quantity.

    If an unknown prefix is used as a lookup in either device.attributes or device.capacity, an empty map will be returned. Any reference to an unknown field will cause an evaluation error and allocation to abort.

    A robust expression should check for the existence of attributes before referencing them.

    For ease of use, the cel.bind() function is enabled, and can be used to simplify expressions that access multiple attributes with the same domain. For example:

    cel.bind(dra, device.attributes["dra.example.com"], dra.someBool && dra.anotherBool)
    Expression string

    Expression is a CEL expression which evaluates a single device. It must evaluate to true when the device under consideration satisfies the desired criteria, and false when it does not. Any other result is an error and causes allocation of devices to abort.

    The expression's input is an object named "device", which carries the following properties:

    • driver (string): the name of the driver which defines this device.
    • attributes (map[string]object): the device's attributes, grouped by prefix (e.g. device.attributes["dra.example.com"] evaluates to an object with all of the attributes which were prefixed by "dra.example.com".
    • capacity (map[string]object): the device's capacities, grouped by prefix.

    Example: Consider a device with driver="dra.example.com", which exposes two attributes named "model" and "ext.example.com/family" and which exposes one capacity named "modules". This input to this expression would have the following fields:

    device.driver
    device.attributes["dra.example.com"].model
    device.attributes["ext.example.com"].family
    device.capacity["dra.example.com"].modules
    

    The device.driver field can be used to check for a specific driver, either as a high-level precondition (i.e. you only want to consider devices from this driver) or as part of a multi-clause expression that is meant to consider devices from different drivers.

    The value type of each attribute is defined by the device definition, and users who write these expressions must consult the documentation for their specific drivers. The value type of each capacity is Quantity.

    If an unknown prefix is used as a lookup in either device.attributes or device.capacity, an empty map will be returned. Any reference to an unknown field will cause an evaluation error and allocation to abort.

    A robust expression should check for the existence of attributes before referencing them.

    For ease of use, the cel.bind() function is enabled, and can be used to simplify expressions that access multiple attributes with the same domain. For example:

    cel.bind(dra, device.attributes["dra.example.com"], dra.someBool && dra.anotherBool)
    expression String

    Expression is a CEL expression which evaluates a single device. It must evaluate to true when the device under consideration satisfies the desired criteria, and false when it does not. Any other result is an error and causes allocation of devices to abort.

    The expression's input is an object named "device", which carries the following properties:

    • driver (string): the name of the driver which defines this device.
    • attributes (map[string]object): the device's attributes, grouped by prefix (e.g. device.attributes["dra.example.com"] evaluates to an object with all of the attributes which were prefixed by "dra.example.com".
    • capacity (map[string]object): the device's capacities, grouped by prefix.

    Example: Consider a device with driver="dra.example.com", which exposes two attributes named "model" and "ext.example.com/family" and which exposes one capacity named "modules". This input to this expression would have the following fields:

    device.driver
    device.attributes["dra.example.com"].model
    device.attributes["ext.example.com"].family
    device.capacity["dra.example.com"].modules
    

    The device.driver field can be used to check for a specific driver, either as a high-level precondition (i.e. you only want to consider devices from this driver) or as part of a multi-clause expression that is meant to consider devices from different drivers.

    The value type of each attribute is defined by the device definition, and users who write these expressions must consult the documentation for their specific drivers. The value type of each capacity is Quantity.

    If an unknown prefix is used as a lookup in either device.attributes or device.capacity, an empty map will be returned. Any reference to an unknown field will cause an evaluation error and allocation to abort.

    A robust expression should check for the existence of attributes before referencing them.

    For ease of use, the cel.bind() function is enabled, and can be used to simplify expressions that access multiple attributes with the same domain. For example:

    cel.bind(dra, device.attributes["dra.example.com"], dra.someBool && dra.anotherBool)
    expression string

    Expression is a CEL expression which evaluates a single device. It must evaluate to true when the device under consideration satisfies the desired criteria, and false when it does not. Any other result is an error and causes allocation of devices to abort.

    The expression's input is an object named "device", which carries the following properties:

    • driver (string): the name of the driver which defines this device.
    • attributes (map[string]object): the device's attributes, grouped by prefix (e.g. device.attributes["dra.example.com"] evaluates to an object with all of the attributes which were prefixed by "dra.example.com".
    • capacity (map[string]object): the device's capacities, grouped by prefix.

    Example: Consider a device with driver="dra.example.com", which exposes two attributes named "model" and "ext.example.com/family" and which exposes one capacity named "modules". This input to this expression would have the following fields:

    device.driver
    device.attributes["dra.example.com"].model
    device.attributes["ext.example.com"].family
    device.capacity["dra.example.com"].modules
    

    The device.driver field can be used to check for a specific driver, either as a high-level precondition (i.e. you only want to consider devices from this driver) or as part of a multi-clause expression that is meant to consider devices from different drivers.

    The value type of each attribute is defined by the device definition, and users who write these expressions must consult the documentation for their specific drivers. The value type of each capacity is Quantity.

    If an unknown prefix is used as a lookup in either device.attributes or device.capacity, an empty map will be returned. Any reference to an unknown field will cause an evaluation error and allocation to abort.

    A robust expression should check for the existence of attributes before referencing them.

    For ease of use, the cel.bind() function is enabled, and can be used to simplify expressions that access multiple attributes with the same domain. For example:

    cel.bind(dra, device.attributes["dra.example.com"], dra.someBool && dra.anotherBool)
    expression str

    Expression is a CEL expression which evaluates a single device. It must evaluate to true when the device under consideration satisfies the desired criteria, and false when it does not. Any other result is an error and causes allocation of devices to abort.

    The expression's input is an object named "device", which carries the following properties:

    • driver (string): the name of the driver which defines this device.
    • attributes (map[string]object): the device's attributes, grouped by prefix (e.g. device.attributes["dra.example.com"] evaluates to an object with all of the attributes which were prefixed by "dra.example.com".
    • capacity (map[string]object): the device's capacities, grouped by prefix.

    Example: Consider a device with driver="dra.example.com", which exposes two attributes named "model" and "ext.example.com/family" and which exposes one capacity named "modules". This input to this expression would have the following fields:

    device.driver
    device.attributes["dra.example.com"].model
    device.attributes["ext.example.com"].family
    device.capacity["dra.example.com"].modules
    

    The device.driver field can be used to check for a specific driver, either as a high-level precondition (i.e. you only want to consider devices from this driver) or as part of a multi-clause expression that is meant to consider devices from different drivers.

    The value type of each attribute is defined by the device definition, and users who write these expressions must consult the documentation for their specific drivers. The value type of each capacity is Quantity.

    If an unknown prefix is used as a lookup in either device.attributes or device.capacity, an empty map will be returned. Any reference to an unknown field will cause an evaluation error and allocation to abort.

    A robust expression should check for the existence of attributes before referencing them.

    For ease of use, the cel.bind() function is enabled, and can be used to simplify expressions that access multiple attributes with the same domain. For example:

    cel.bind(dra, device.attributes["dra.example.com"], dra.someBool && dra.anotherBool)
    expression String

    Expression is a CEL expression which evaluates a single device. It must evaluate to true when the device under consideration satisfies the desired criteria, and false when it does not. Any other result is an error and causes allocation of devices to abort.

    The expression's input is an object named "device", which carries the following properties:

    • driver (string): the name of the driver which defines this device.
    • attributes (map[string]object): the device's attributes, grouped by prefix (e.g. device.attributes["dra.example.com"] evaluates to an object with all of the attributes which were prefixed by "dra.example.com".
    • capacity (map[string]object): the device's capacities, grouped by prefix.

    Example: Consider a device with driver="dra.example.com", which exposes two attributes named "model" and "ext.example.com/family" and which exposes one capacity named "modules". This input to this expression would have the following fields:

    device.driver
    device.attributes["dra.example.com"].model
    device.attributes["ext.example.com"].family
    device.capacity["dra.example.com"].modules
    

    The device.driver field can be used to check for a specific driver, either as a high-level precondition (i.e. you only want to consider devices from this driver) or as part of a multi-clause expression that is meant to consider devices from different drivers.

    The value type of each attribute is defined by the device definition, and users who write these expressions must consult the documentation for their specific drivers. The value type of each capacity is Quantity.

    If an unknown prefix is used as a lookup in either device.attributes or device.capacity, an empty map will be returned. Any reference to an unknown field will cause an evaluation error and allocation to abort.

    A robust expression should check for the existence of attributes before referencing them.

    For ease of use, the cel.bind() function is enabled, and can be used to simplify expressions that access multiple attributes with the same domain. For example:

    cel.bind(dra, device.attributes["dra.example.com"], dra.someBool && dra.anotherBool)

    DeviceAllocationConfiguration, DeviceAllocationConfigurationArgs

    Source string
    Source records whether the configuration comes from a class and thus is not something that a normal user would have been able to set or from a claim.
    Opaque OpaqueDeviceConfiguration
    Opaque provides driver-specific configuration parameters.
    Requests List<string>
    Requests lists the names of requests where the configuration applies. If empty, its applies to all requests.
    Source string
    Source records whether the configuration comes from a class and thus is not something that a normal user would have been able to set or from a claim.
    Opaque OpaqueDeviceConfiguration
    Opaque provides driver-specific configuration parameters.
    Requests []string
    Requests lists the names of requests where the configuration applies. If empty, its applies to all requests.
    source String
    Source records whether the configuration comes from a class and thus is not something that a normal user would have been able to set or from a claim.
    opaque OpaqueDeviceConfiguration
    Opaque provides driver-specific configuration parameters.
    requests List<String>
    Requests lists the names of requests where the configuration applies. If empty, its applies to all requests.
    source string
    Source records whether the configuration comes from a class and thus is not something that a normal user would have been able to set or from a claim.
    opaque OpaqueDeviceConfiguration
    Opaque provides driver-specific configuration parameters.
    requests string[]
    Requests lists the names of requests where the configuration applies. If empty, its applies to all requests.
    source str
    Source records whether the configuration comes from a class and thus is not something that a normal user would have been able to set or from a claim.
    opaque resource_k8s_io.v1alpha3.OpaqueDeviceConfiguration
    Opaque provides driver-specific configuration parameters.
    requests Sequence[str]
    Requests lists the names of requests where the configuration applies. If empty, its applies to all requests.
    source String
    Source records whether the configuration comes from a class and thus is not something that a normal user would have been able to set or from a claim.
    opaque Property Map
    Opaque provides driver-specific configuration parameters.
    requests List<String>
    Requests lists the names of requests where the configuration applies. If empty, its applies to all requests.

    DeviceAllocationResult, DeviceAllocationResultArgs

    Config List<DeviceAllocationConfiguration>

    This field is a combination of all the claim and class configuration parameters. Drivers can distinguish between those based on a flag.

    This includes configuration parameters for drivers which have no allocated devices in the result because it is up to the drivers which configuration parameters they support. They can silently ignore unknown configuration parameters.

    Results List<DeviceRequestAllocationResult>
    Results lists all allocated devices.
    Config []DeviceAllocationConfiguration

    This field is a combination of all the claim and class configuration parameters. Drivers can distinguish between those based on a flag.

    This includes configuration parameters for drivers which have no allocated devices in the result because it is up to the drivers which configuration parameters they support. They can silently ignore unknown configuration parameters.

    Results []DeviceRequestAllocationResult
    Results lists all allocated devices.
    config List<DeviceAllocationConfiguration>

    This field is a combination of all the claim and class configuration parameters. Drivers can distinguish between those based on a flag.

    This includes configuration parameters for drivers which have no allocated devices in the result because it is up to the drivers which configuration parameters they support. They can silently ignore unknown configuration parameters.

    results List<DeviceRequestAllocationResult>
    Results lists all allocated devices.
    config DeviceAllocationConfiguration[]

    This field is a combination of all the claim and class configuration parameters. Drivers can distinguish between those based on a flag.

    This includes configuration parameters for drivers which have no allocated devices in the result because it is up to the drivers which configuration parameters they support. They can silently ignore unknown configuration parameters.

    results DeviceRequestAllocationResult[]
    Results lists all allocated devices.
    config Sequence[resource_k8s_io.v1alpha3.DeviceAllocationConfiguration]

    This field is a combination of all the claim and class configuration parameters. Drivers can distinguish between those based on a flag.

    This includes configuration parameters for drivers which have no allocated devices in the result because it is up to the drivers which configuration parameters they support. They can silently ignore unknown configuration parameters.

    results Sequence[resource_k8s_io.v1alpha3.DeviceRequestAllocationResult]
    Results lists all allocated devices.
    config List<Property Map>

    This field is a combination of all the claim and class configuration parameters. Drivers can distinguish between those based on a flag.

    This includes configuration parameters for drivers which have no allocated devices in the result because it is up to the drivers which configuration parameters they support. They can silently ignore unknown configuration parameters.

    results List<Property Map>
    Results lists all allocated devices.

    DeviceClaim, DeviceClaimArgs

    Config List<DeviceClaimConfiguration>
    This field holds configuration for multiple potential drivers which could satisfy requests in this claim. It is ignored while allocating the claim.
    Constraints List<DeviceConstraint>
    These constraints must be satisfied by the set of devices that get allocated for the claim.
    Requests List<DeviceRequest>
    Requests represent individual requests for distinct devices which must all be satisfied. If empty, nothing needs to be allocated.
    Config []DeviceClaimConfiguration
    This field holds configuration for multiple potential drivers which could satisfy requests in this claim. It is ignored while allocating the claim.
    Constraints []DeviceConstraint
    These constraints must be satisfied by the set of devices that get allocated for the claim.
    Requests []DeviceRequest
    Requests represent individual requests for distinct devices which must all be satisfied. If empty, nothing needs to be allocated.
    config List<DeviceClaimConfiguration>
    This field holds configuration for multiple potential drivers which could satisfy requests in this claim. It is ignored while allocating the claim.
    constraints List<DeviceConstraint>
    These constraints must be satisfied by the set of devices that get allocated for the claim.
    requests List<DeviceRequest>
    Requests represent individual requests for distinct devices which must all be satisfied. If empty, nothing needs to be allocated.
    config DeviceClaimConfiguration[]
    This field holds configuration for multiple potential drivers which could satisfy requests in this claim. It is ignored while allocating the claim.
    constraints DeviceConstraint[]
    These constraints must be satisfied by the set of devices that get allocated for the claim.
    requests DeviceRequest[]
    Requests represent individual requests for distinct devices which must all be satisfied. If empty, nothing needs to be allocated.
    config Sequence[resource_k8s_io.v1alpha3.DeviceClaimConfiguration]
    This field holds configuration for multiple potential drivers which could satisfy requests in this claim. It is ignored while allocating the claim.
    constraints Sequence[resource_k8s_io.v1alpha3.DeviceConstraint]
    These constraints must be satisfied by the set of devices that get allocated for the claim.
    requests Sequence[resource_k8s_io.v1alpha3.DeviceRequest]
    Requests represent individual requests for distinct devices which must all be satisfied. If empty, nothing needs to be allocated.
    config List<Property Map>
    This field holds configuration for multiple potential drivers which could satisfy requests in this claim. It is ignored while allocating the claim.
    constraints List<Property Map>
    These constraints must be satisfied by the set of devices that get allocated for the claim.
    requests List<Property Map>
    Requests represent individual requests for distinct devices which must all be satisfied. If empty, nothing needs to be allocated.

    DeviceClaimConfiguration, DeviceClaimConfigurationArgs

    Opaque OpaqueDeviceConfiguration
    Opaque provides driver-specific configuration parameters.
    Requests List<string>
    Requests lists the names of requests where the configuration applies. If empty, it applies to all requests.
    Opaque OpaqueDeviceConfiguration
    Opaque provides driver-specific configuration parameters.
    Requests []string
    Requests lists the names of requests where the configuration applies. If empty, it applies to all requests.
    opaque OpaqueDeviceConfiguration
    Opaque provides driver-specific configuration parameters.
    requests List<String>
    Requests lists the names of requests where the configuration applies. If empty, it applies to all requests.
    opaque OpaqueDeviceConfiguration
    Opaque provides driver-specific configuration parameters.
    requests string[]
    Requests lists the names of requests where the configuration applies. If empty, it applies to all requests.
    opaque resource_k8s_io.v1alpha3.OpaqueDeviceConfiguration
    Opaque provides driver-specific configuration parameters.
    requests Sequence[str]
    Requests lists the names of requests where the configuration applies. If empty, it applies to all requests.
    opaque Property Map
    Opaque provides driver-specific configuration parameters.
    requests List<String>
    Requests lists the names of requests where the configuration applies. If empty, it applies to all requests.

    DeviceConstraint, DeviceConstraintArgs

    MatchAttribute string

    MatchAttribute requires that all devices in question have this attribute and that its type and value are the same across those devices.

    For example, if you specified "dra.example.com/numa" (a hypothetical example!), then only devices in the same NUMA node will be chosen. A device which does not have that attribute will not be chosen. All devices should use a value of the same type for this attribute because that is part of its specification, but if one device doesn't, then it also will not be chosen.

    Must include the domain qualifier.

    Requests List<string>
    Requests is a list of the one or more requests in this claim which must co-satisfy this constraint. If a request is fulfilled by multiple devices, then all of the devices must satisfy the constraint. If this is not specified, this constraint applies to all requests in this claim.
    MatchAttribute string

    MatchAttribute requires that all devices in question have this attribute and that its type and value are the same across those devices.

    For example, if you specified "dra.example.com/numa" (a hypothetical example!), then only devices in the same NUMA node will be chosen. A device which does not have that attribute will not be chosen. All devices should use a value of the same type for this attribute because that is part of its specification, but if one device doesn't, then it also will not be chosen.

    Must include the domain qualifier.

    Requests []string
    Requests is a list of the one or more requests in this claim which must co-satisfy this constraint. If a request is fulfilled by multiple devices, then all of the devices must satisfy the constraint. If this is not specified, this constraint applies to all requests in this claim.
    matchAttribute String

    MatchAttribute requires that all devices in question have this attribute and that its type and value are the same across those devices.

    For example, if you specified "dra.example.com/numa" (a hypothetical example!), then only devices in the same NUMA node will be chosen. A device which does not have that attribute will not be chosen. All devices should use a value of the same type for this attribute because that is part of its specification, but if one device doesn't, then it also will not be chosen.

    Must include the domain qualifier.

    requests List<String>
    Requests is a list of the one or more requests in this claim which must co-satisfy this constraint. If a request is fulfilled by multiple devices, then all of the devices must satisfy the constraint. If this is not specified, this constraint applies to all requests in this claim.
    matchAttribute string

    MatchAttribute requires that all devices in question have this attribute and that its type and value are the same across those devices.

    For example, if you specified "dra.example.com/numa" (a hypothetical example!), then only devices in the same NUMA node will be chosen. A device which does not have that attribute will not be chosen. All devices should use a value of the same type for this attribute because that is part of its specification, but if one device doesn't, then it also will not be chosen.

    Must include the domain qualifier.

    requests string[]
    Requests is a list of the one or more requests in this claim which must co-satisfy this constraint. If a request is fulfilled by multiple devices, then all of the devices must satisfy the constraint. If this is not specified, this constraint applies to all requests in this claim.
    match_attribute str

    MatchAttribute requires that all devices in question have this attribute and that its type and value are the same across those devices.

    For example, if you specified "dra.example.com/numa" (a hypothetical example!), then only devices in the same NUMA node will be chosen. A device which does not have that attribute will not be chosen. All devices should use a value of the same type for this attribute because that is part of its specification, but if one device doesn't, then it also will not be chosen.

    Must include the domain qualifier.

    requests Sequence[str]
    Requests is a list of the one or more requests in this claim which must co-satisfy this constraint. If a request is fulfilled by multiple devices, then all of the devices must satisfy the constraint. If this is not specified, this constraint applies to all requests in this claim.
    matchAttribute String

    MatchAttribute requires that all devices in question have this attribute and that its type and value are the same across those devices.

    For example, if you specified "dra.example.com/numa" (a hypothetical example!), then only devices in the same NUMA node will be chosen. A device which does not have that attribute will not be chosen. All devices should use a value of the same type for this attribute because that is part of its specification, but if one device doesn't, then it also will not be chosen.

    Must include the domain qualifier.

    requests List<String>
    Requests is a list of the one or more requests in this claim which must co-satisfy this constraint. If a request is fulfilled by multiple devices, then all of the devices must satisfy the constraint. If this is not specified, this constraint applies to all requests in this claim.

    DeviceRequest, DeviceRequestArgs

    DeviceClassName string

    DeviceClassName references a specific DeviceClass, which can define additional configuration and selectors to be inherited by this request.

    A class is required. Which classes are available depends on the cluster.

    Administrators may use this to restrict which devices may get requested by only installing classes with selectors for permitted devices. If users are free to request anything without restrictions, then administrators can create an empty DeviceClass for users to reference.

    Name string

    Name can be used to reference this request in a pod.spec.containers[].resources.claims entry and in a constraint of the claim.

    Must be a DNS label.

    AdminAccess bool
    AdminAccess indicates that this is a claim for administrative access to the device(s). Claims with AdminAccess are expected to be used for monitoring or other management services for a device. They ignore all ordinary claims to the device with respect to access modes and any resource allocations.
    AllocationMode string

    AllocationMode and its related fields define how devices are allocated to satisfy this request. Supported values are:

    • ExactCount: This request is for a specific number of devices. This is the default. The exact number is provided in the count field.

    • All: This request is for all of the matching devices in a pool. Allocation will fail if some devices are already allocated, unless adminAccess is requested.

    If AlloctionMode is not specified, the default mode is ExactCount. If the mode is ExactCount and count is not specified, the default count is one. Any other requests must specify this field.

    More modes may get added in the future. Clients must refuse to handle requests with unknown modes.

    Count int
    Count is used only when the count mode is "ExactCount". Must be greater than zero. If AllocationMode is ExactCount and this field is not specified, the default is one.
    Selectors List<DeviceSelector>
    Selectors define criteria which must be satisfied by a specific device in order for that device to be considered for this request. All selectors must be satisfied for a device to be considered.
    DeviceClassName string

    DeviceClassName references a specific DeviceClass, which can define additional configuration and selectors to be inherited by this request.

    A class is required. Which classes are available depends on the cluster.

    Administrators may use this to restrict which devices may get requested by only installing classes with selectors for permitted devices. If users are free to request anything without restrictions, then administrators can create an empty DeviceClass for users to reference.

    Name string

    Name can be used to reference this request in a pod.spec.containers[].resources.claims entry and in a constraint of the claim.

    Must be a DNS label.

    AdminAccess bool
    AdminAccess indicates that this is a claim for administrative access to the device(s). Claims with AdminAccess are expected to be used for monitoring or other management services for a device. They ignore all ordinary claims to the device with respect to access modes and any resource allocations.
    AllocationMode string

    AllocationMode and its related fields define how devices are allocated to satisfy this request. Supported values are:

    • ExactCount: This request is for a specific number of devices. This is the default. The exact number is provided in the count field.

    • All: This request is for all of the matching devices in a pool. Allocation will fail if some devices are already allocated, unless adminAccess is requested.

    If AlloctionMode is not specified, the default mode is ExactCount. If the mode is ExactCount and count is not specified, the default count is one. Any other requests must specify this field.

    More modes may get added in the future. Clients must refuse to handle requests with unknown modes.

    Count int
    Count is used only when the count mode is "ExactCount". Must be greater than zero. If AllocationMode is ExactCount and this field is not specified, the default is one.
    Selectors []DeviceSelector
    Selectors define criteria which must be satisfied by a specific device in order for that device to be considered for this request. All selectors must be satisfied for a device to be considered.
    deviceClassName String

    DeviceClassName references a specific DeviceClass, which can define additional configuration and selectors to be inherited by this request.

    A class is required. Which classes are available depends on the cluster.

    Administrators may use this to restrict which devices may get requested by only installing classes with selectors for permitted devices. If users are free to request anything without restrictions, then administrators can create an empty DeviceClass for users to reference.

    name String

    Name can be used to reference this request in a pod.spec.containers[].resources.claims entry and in a constraint of the claim.

    Must be a DNS label.

    adminAccess Boolean
    AdminAccess indicates that this is a claim for administrative access to the device(s). Claims with AdminAccess are expected to be used for monitoring or other management services for a device. They ignore all ordinary claims to the device with respect to access modes and any resource allocations.
    allocationMode String

    AllocationMode and its related fields define how devices are allocated to satisfy this request. Supported values are:

    • ExactCount: This request is for a specific number of devices. This is the default. The exact number is provided in the count field.

    • All: This request is for all of the matching devices in a pool. Allocation will fail if some devices are already allocated, unless adminAccess is requested.

    If AlloctionMode is not specified, the default mode is ExactCount. If the mode is ExactCount and count is not specified, the default count is one. Any other requests must specify this field.

    More modes may get added in the future. Clients must refuse to handle requests with unknown modes.

    count Integer
    Count is used only when the count mode is "ExactCount". Must be greater than zero. If AllocationMode is ExactCount and this field is not specified, the default is one.
    selectors List<DeviceSelector>
    Selectors define criteria which must be satisfied by a specific device in order for that device to be considered for this request. All selectors must be satisfied for a device to be considered.
    deviceClassName string

    DeviceClassName references a specific DeviceClass, which can define additional configuration and selectors to be inherited by this request.

    A class is required. Which classes are available depends on the cluster.

    Administrators may use this to restrict which devices may get requested by only installing classes with selectors for permitted devices. If users are free to request anything without restrictions, then administrators can create an empty DeviceClass for users to reference.

    name string

    Name can be used to reference this request in a pod.spec.containers[].resources.claims entry and in a constraint of the claim.

    Must be a DNS label.

    adminAccess boolean
    AdminAccess indicates that this is a claim for administrative access to the device(s). Claims with AdminAccess are expected to be used for monitoring or other management services for a device. They ignore all ordinary claims to the device with respect to access modes and any resource allocations.
    allocationMode string

    AllocationMode and its related fields define how devices are allocated to satisfy this request. Supported values are:

    • ExactCount: This request is for a specific number of devices. This is the default. The exact number is provided in the count field.

    • All: This request is for all of the matching devices in a pool. Allocation will fail if some devices are already allocated, unless adminAccess is requested.

    If AlloctionMode is not specified, the default mode is ExactCount. If the mode is ExactCount and count is not specified, the default count is one. Any other requests must specify this field.

    More modes may get added in the future. Clients must refuse to handle requests with unknown modes.

    count number
    Count is used only when the count mode is "ExactCount". Must be greater than zero. If AllocationMode is ExactCount and this field is not specified, the default is one.
    selectors DeviceSelector[]
    Selectors define criteria which must be satisfied by a specific device in order for that device to be considered for this request. All selectors must be satisfied for a device to be considered.
    device_class_name str

    DeviceClassName references a specific DeviceClass, which can define additional configuration and selectors to be inherited by this request.

    A class is required. Which classes are available depends on the cluster.

    Administrators may use this to restrict which devices may get requested by only installing classes with selectors for permitted devices. If users are free to request anything without restrictions, then administrators can create an empty DeviceClass for users to reference.

    name str

    Name can be used to reference this request in a pod.spec.containers[].resources.claims entry and in a constraint of the claim.

    Must be a DNS label.

    admin_access bool
    AdminAccess indicates that this is a claim for administrative access to the device(s). Claims with AdminAccess are expected to be used for monitoring or other management services for a device. They ignore all ordinary claims to the device with respect to access modes and any resource allocations.
    allocation_mode str

    AllocationMode and its related fields define how devices are allocated to satisfy this request. Supported values are:

    • ExactCount: This request is for a specific number of devices. This is the default. The exact number is provided in the count field.

    • All: This request is for all of the matching devices in a pool. Allocation will fail if some devices are already allocated, unless adminAccess is requested.

    If AlloctionMode is not specified, the default mode is ExactCount. If the mode is ExactCount and count is not specified, the default count is one. Any other requests must specify this field.

    More modes may get added in the future. Clients must refuse to handle requests with unknown modes.

    count int
    Count is used only when the count mode is "ExactCount". Must be greater than zero. If AllocationMode is ExactCount and this field is not specified, the default is one.
    selectors Sequence[resource_k8s_io.v1alpha3.DeviceSelector]
    Selectors define criteria which must be satisfied by a specific device in order for that device to be considered for this request. All selectors must be satisfied for a device to be considered.
    deviceClassName String

    DeviceClassName references a specific DeviceClass, which can define additional configuration and selectors to be inherited by this request.

    A class is required. Which classes are available depends on the cluster.

    Administrators may use this to restrict which devices may get requested by only installing classes with selectors for permitted devices. If users are free to request anything without restrictions, then administrators can create an empty DeviceClass for users to reference.

    name String

    Name can be used to reference this request in a pod.spec.containers[].resources.claims entry and in a constraint of the claim.

    Must be a DNS label.

    adminAccess Boolean
    AdminAccess indicates that this is a claim for administrative access to the device(s). Claims with AdminAccess are expected to be used for monitoring or other management services for a device. They ignore all ordinary claims to the device with respect to access modes and any resource allocations.
    allocationMode String

    AllocationMode and its related fields define how devices are allocated to satisfy this request. Supported values are:

    • ExactCount: This request is for a specific number of devices. This is the default. The exact number is provided in the count field.

    • All: This request is for all of the matching devices in a pool. Allocation will fail if some devices are already allocated, unless adminAccess is requested.

    If AlloctionMode is not specified, the default mode is ExactCount. If the mode is ExactCount and count is not specified, the default count is one. Any other requests must specify this field.

    More modes may get added in the future. Clients must refuse to handle requests with unknown modes.

    count Number
    Count is used only when the count mode is "ExactCount". Must be greater than zero. If AllocationMode is ExactCount and this field is not specified, the default is one.
    selectors List<Property Map>
    Selectors define criteria which must be satisfied by a specific device in order for that device to be considered for this request. All selectors must be satisfied for a device to be considered.

    DeviceRequestAllocationResult, DeviceRequestAllocationResultArgs

    Device string
    Device references one device instance via its name in the driver's resource pool. It must be a DNS label.
    Driver string

    Driver specifies the name of the DRA driver whose kubelet plugin should be invoked to process the allocation once the claim is needed on a node.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    Pool string

    This name together with the driver name and the device name field identify which device was allocated (<driver name>/<pool name>/<device name>).

    Must not be longer than 253 characters and may contain one or more DNS sub-domains separated by slashes.

    Request string
    Request is the name of the request in the claim which caused this device to be allocated. Multiple devices may have been allocated per request.
    Device string
    Device references one device instance via its name in the driver's resource pool. It must be a DNS label.
    Driver string

    Driver specifies the name of the DRA driver whose kubelet plugin should be invoked to process the allocation once the claim is needed on a node.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    Pool string

    This name together with the driver name and the device name field identify which device was allocated (<driver name>/<pool name>/<device name>).

    Must not be longer than 253 characters and may contain one or more DNS sub-domains separated by slashes.

    Request string
    Request is the name of the request in the claim which caused this device to be allocated. Multiple devices may have been allocated per request.
    device String
    Device references one device instance via its name in the driver's resource pool. It must be a DNS label.
    driver String

    Driver specifies the name of the DRA driver whose kubelet plugin should be invoked to process the allocation once the claim is needed on a node.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    pool String

    This name together with the driver name and the device name field identify which device was allocated (<driver name>/<pool name>/<device name>).

    Must not be longer than 253 characters and may contain one or more DNS sub-domains separated by slashes.

    request String
    Request is the name of the request in the claim which caused this device to be allocated. Multiple devices may have been allocated per request.
    device string
    Device references one device instance via its name in the driver's resource pool. It must be a DNS label.
    driver string

    Driver specifies the name of the DRA driver whose kubelet plugin should be invoked to process the allocation once the claim is needed on a node.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    pool string

    This name together with the driver name and the device name field identify which device was allocated (<driver name>/<pool name>/<device name>).

    Must not be longer than 253 characters and may contain one or more DNS sub-domains separated by slashes.

    request string
    Request is the name of the request in the claim which caused this device to be allocated. Multiple devices may have been allocated per request.
    device str
    Device references one device instance via its name in the driver's resource pool. It must be a DNS label.
    driver str

    Driver specifies the name of the DRA driver whose kubelet plugin should be invoked to process the allocation once the claim is needed on a node.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    pool str

    This name together with the driver name and the device name field identify which device was allocated (<driver name>/<pool name>/<device name>).

    Must not be longer than 253 characters and may contain one or more DNS sub-domains separated by slashes.

    request str
    Request is the name of the request in the claim which caused this device to be allocated. Multiple devices may have been allocated per request.
    device String
    Device references one device instance via its name in the driver's resource pool. It must be a DNS label.
    driver String

    Driver specifies the name of the DRA driver whose kubelet plugin should be invoked to process the allocation once the claim is needed on a node.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    pool String

    This name together with the driver name and the device name field identify which device was allocated (<driver name>/<pool name>/<device name>).

    Must not be longer than 253 characters and may contain one or more DNS sub-domains separated by slashes.

    request String
    Request is the name of the request in the claim which caused this device to be allocated. Multiple devices may have been allocated per request.

    DeviceSelector, DeviceSelectorArgs

    Cel CELDeviceSelector
    CEL contains a CEL expression for selecting a device.
    Cel CELDeviceSelector
    CEL contains a CEL expression for selecting a device.
    cel CELDeviceSelector
    CEL contains a CEL expression for selecting a device.
    cel CELDeviceSelector
    CEL contains a CEL expression for selecting a device.
    cel resource_k8s_io.v1alpha3.CELDeviceSelector
    CEL contains a CEL expression for selecting a device.
    cel Property Map
    CEL contains a CEL expression for selecting a device.

    ManagedFieldsEntry, ManagedFieldsEntryArgs

    ApiVersion string
    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.
    FieldsType string
    FieldsType is the discriminator for the different fields format and version. There is currently only one possible value: "FieldsV1"
    FieldsV1 System.Text.Json.JsonElement
    FieldsV1 holds the first JSON version format as described in the "FieldsV1" type.
    Manager string
    Manager is an identifier of the workflow managing these fields.
    Operation string
    Operation is the type of operation which lead to this ManagedFieldsEntry being created. The only valid values for this field are 'Apply' and 'Update'.
    Subresource string
    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.
    Time string
    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.
    ApiVersion string
    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.
    FieldsType string
    FieldsType is the discriminator for the different fields format and version. There is currently only one possible value: "FieldsV1"
    FieldsV1 interface{}
    FieldsV1 holds the first JSON version format as described in the "FieldsV1" type.
    Manager string
    Manager is an identifier of the workflow managing these fields.
    Operation string
    Operation is the type of operation which lead to this ManagedFieldsEntry being created. The only valid values for this field are 'Apply' and 'Update'.
    Subresource string
    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.
    Time string
    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.
    apiVersion String
    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.
    fieldsType String
    FieldsType is the discriminator for the different fields format and version. There is currently only one possible value: "FieldsV1"
    fieldsV1 JsonElement
    FieldsV1 holds the first JSON version format as described in the "FieldsV1" type.
    manager String
    Manager is an identifier of the workflow managing these fields.
    operation String
    Operation is the type of operation which lead to this ManagedFieldsEntry being created. The only valid values for this field are 'Apply' and 'Update'.
    subresource String
    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.
    time String
    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.
    apiVersion string
    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.
    fieldsType string
    FieldsType is the discriminator for the different fields format and version. There is currently only one possible value: "FieldsV1"
    fieldsV1 any
    FieldsV1 holds the first JSON version format as described in the "FieldsV1" type.
    manager string
    Manager is an identifier of the workflow managing these fields.
    operation string
    Operation is the type of operation which lead to this ManagedFieldsEntry being created. The only valid values for this field are 'Apply' and 'Update'.
    subresource string
    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.
    time string
    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.
    api_version str
    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.
    fields_type str
    FieldsType is the discriminator for the different fields format and version. There is currently only one possible value: "FieldsV1"
    fields_v1 Any
    FieldsV1 holds the first JSON version format as described in the "FieldsV1" type.
    manager str
    Manager is an identifier of the workflow managing these fields.
    operation str
    Operation is the type of operation which lead to this ManagedFieldsEntry being created. The only valid values for this field are 'Apply' and 'Update'.
    subresource str
    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.
    time str
    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.
    apiVersion String
    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.
    fieldsType String
    FieldsType is the discriminator for the different fields format and version. There is currently only one possible value: "FieldsV1"
    fieldsV1 JSON
    FieldsV1 holds the first JSON version format as described in the "FieldsV1" type.
    manager String
    Manager is an identifier of the workflow managing these fields.
    operation String
    Operation is the type of operation which lead to this ManagedFieldsEntry being created. The only valid values for this field are 'Apply' and 'Update'.
    subresource String
    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.
    time String
    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.

    NodeSelector, NodeSelectorArgs

    NodeSelectorTerms List<Pulumi.Kubernetes.Core.V1.Inputs.NodeSelectorTerm>
    Required. A list of node selector terms. The terms are ORed.
    NodeSelectorTerms NodeSelectorTerm
    Required. A list of node selector terms. The terms are ORed.
    nodeSelectorTerms List<NodeSelectorTerm>
    Required. A list of node selector terms. The terms are ORed.
    nodeSelectorTerms core.v1.NodeSelectorTerm[]
    Required. A list of node selector terms. The terms are ORed.
    node_selector_terms Sequence[core.v1.NodeSelectorTerm]
    Required. A list of node selector terms. The terms are ORed.
    nodeSelectorTerms List<Property Map>
    Required. A list of node selector terms. The terms are ORed.

    NodeSelectorRequirement, NodeSelectorRequirementArgs

    Key string
    The label key that the selector applies to.
    Operator string
    Represents a key's relationship to a set of values. Valid operators are In, NotIn, Exists, DoesNotExist. Gt, and Lt.
    Values List<string>
    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.
    Key string
    The label key that the selector applies to.
    Operator string
    Represents a key's relationship to a set of values. Valid operators are In, NotIn, Exists, DoesNotExist. Gt, and Lt.
    Values []string
    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.
    key String
    The label key that the selector applies to.
    operator String
    Represents a key's relationship to a set of values. Valid operators are In, NotIn, Exists, DoesNotExist. Gt, and Lt.
    values List<String>
    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.
    key string
    The label key that the selector applies to.
    operator string
    Represents a key's relationship to a set of values. Valid operators are In, NotIn, Exists, DoesNotExist. Gt, and Lt.
    values string[]
    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.
    key str
    The label key that the selector applies to.
    operator str
    Represents a key's relationship to a set of values. Valid operators are In, NotIn, Exists, DoesNotExist. Gt, and Lt.
    values Sequence[str]
    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.
    key String
    The label key that the selector applies to.
    operator String
    Represents a key's relationship to a set of values. Valid operators are In, NotIn, Exists, DoesNotExist. Gt, and Lt.
    values List<String>
    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.

    NodeSelectorTerm, NodeSelectorTermArgs

    MatchExpressions List<Pulumi.Kubernetes.Core.V1.Inputs.NodeSelectorRequirement>
    A list of node selector requirements by node's labels.
    MatchFields List<Pulumi.Kubernetes.Core.V1.Inputs.NodeSelectorRequirement>
    A list of node selector requirements by node's fields.
    MatchExpressions NodeSelectorRequirement
    A list of node selector requirements by node's labels.
    MatchFields NodeSelectorRequirement
    A list of node selector requirements by node's fields.
    matchExpressions List<NodeSelectorRequirement>
    A list of node selector requirements by node's labels.
    matchFields List<NodeSelectorRequirement>
    A list of node selector requirements by node's fields.
    matchExpressions core.v1.NodeSelectorRequirement[]
    A list of node selector requirements by node's labels.
    matchFields core.v1.NodeSelectorRequirement[]
    A list of node selector requirements by node's fields.
    match_expressions Sequence[core.v1.NodeSelectorRequirement]
    A list of node selector requirements by node's labels.
    match_fields Sequence[core.v1.NodeSelectorRequirement]
    A list of node selector requirements by node's fields.
    matchExpressions List<Property Map>
    A list of node selector requirements by node's labels.
    matchFields List<Property Map>
    A list of node selector requirements by node's fields.

    ObjectMeta, ObjectMetaArgs

    Annotations Dictionary<string, string>
    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
    ClusterName string
    The name of the cluster which the object belongs to. This is used to distinguish resources with same name and namespace in different clusters. This field is not set anywhere right now and apiserver is going to ignore it if set in create or update request.
    CreationTimestamp string

    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

    DeletionGracePeriodSeconds int
    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.
    DeletionTimestamp string

    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

    Finalizers List<string>
    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.
    GenerateName string

    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

    Generation int
    A sequence number representing a specific generation of the desired state. Populated by the system. Read-only.
    Labels Dictionary<string, string>
    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
    ManagedFields List<Pulumi.Kubernetes.Meta.V1.Inputs.ManagedFieldsEntry>
    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.
    Name string
    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
    Namespace string

    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

    OwnerReferences List<Pulumi.Kubernetes.Meta.V1.Inputs.OwnerReference>
    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.
    ResourceVersion string

    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

    SelfLink string
    Deprecated: selfLink is a legacy read-only field that is no longer populated by the system.
    Uid string

    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

    Annotations map[string]string
    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
    ClusterName string
    The name of the cluster which the object belongs to. This is used to distinguish resources with same name and namespace in different clusters. This field is not set anywhere right now and apiserver is going to ignore it if set in create or update request.
    CreationTimestamp string

    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

    DeletionGracePeriodSeconds int
    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.
    DeletionTimestamp string

    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

    Finalizers []string
    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.
    GenerateName string

    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

    Generation int
    A sequence number representing a specific generation of the desired state. Populated by the system. Read-only.
    Labels map[string]string
    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
    ManagedFields ManagedFieldsEntry
    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.
    Name string
    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
    Namespace string

    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

    OwnerReferences OwnerReference
    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.
    ResourceVersion string

    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

    SelfLink string
    Deprecated: selfLink is a legacy read-only field that is no longer populated by the system.
    Uid string

    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

    annotations Map<String,String>
    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
    clusterName String
    The name of the cluster which the object belongs to. This is used to distinguish resources with same name and namespace in different clusters. This field is not set anywhere right now and apiserver is going to ignore it if set in create or update request.
    creationTimestamp String

    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

    deletionGracePeriodSeconds Integer
    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.
    deletionTimestamp String

    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

    finalizers List<String>
    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.
    generateName String

    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

    generation Integer
    A sequence number representing a specific generation of the desired state. Populated by the system. Read-only.
    labels Map<String,String>
    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
    managedFields List<ManagedFieldsEntry>
    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.
    name String
    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
    namespace String

    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

    ownerReferences List<OwnerReference>
    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.
    resourceVersion String

    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

    selfLink String
    Deprecated: selfLink is a legacy read-only field that is no longer populated by the system.
    uid String

    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

    annotations {[key: string]: string}
    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
    clusterName string
    The name of the cluster which the object belongs to. This is used to distinguish resources with same name and namespace in different clusters. This field is not set anywhere right now and apiserver is going to ignore it if set in create or update request.
    creationTimestamp string

    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

    deletionGracePeriodSeconds number
    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.
    deletionTimestamp string

    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

    finalizers string[]
    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.
    generateName string

    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

    generation number
    A sequence number representing a specific generation of the desired state. Populated by the system. Read-only.
    labels {[key: string]: string}
    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
    managedFields meta.v1.ManagedFieldsEntry[]
    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.
    name string
    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
    namespace string

    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

    ownerReferences meta.v1.OwnerReference[]
    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.
    resourceVersion string

    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

    selfLink string
    Deprecated: selfLink is a legacy read-only field that is no longer populated by the system.
    uid string

    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

    annotations Mapping[str, str]
    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
    cluster_name str
    The name of the cluster which the object belongs to. This is used to distinguish resources with same name and namespace in different clusters. This field is not set anywhere right now and apiserver is going to ignore it if set in create or update request.
    creation_timestamp str

    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

    deletion_grace_period_seconds int
    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.
    deletion_timestamp str

    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

    finalizers Sequence[str]
    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.
    generate_name str

    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

    generation int
    A sequence number representing a specific generation of the desired state. Populated by the system. Read-only.
    labels Mapping[str, str]
    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
    managed_fields Sequence[meta.v1.ManagedFieldsEntry]
    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.
    name str
    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
    namespace str

    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

    owner_references Sequence[meta.v1.OwnerReference]
    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.
    resource_version str

    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

    self_link str
    Deprecated: selfLink is a legacy read-only field that is no longer populated by the system.
    uid str

    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

    annotations Map<String>
    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
    clusterName String
    The name of the cluster which the object belongs to. This is used to distinguish resources with same name and namespace in different clusters. This field is not set anywhere right now and apiserver is going to ignore it if set in create or update request.
    creationTimestamp String

    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

    deletionGracePeriodSeconds Number
    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.
    deletionTimestamp String

    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

    finalizers List<String>
    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.
    generateName String

    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

    generation Number
    A sequence number representing a specific generation of the desired state. Populated by the system. Read-only.
    labels Map<String>
    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
    managedFields List<Property Map>
    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.
    name String
    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
    namespace String

    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

    ownerReferences List<Property Map>
    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.
    resourceVersion String

    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

    selfLink String
    Deprecated: selfLink is a legacy read-only field that is no longer populated by the system.
    uid String

    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

    OpaqueDeviceConfiguration, OpaqueDeviceConfigurationArgs

    Driver string

    Driver is used to determine which kubelet plugin needs to be passed these configuration parameters.

    An admission policy provided by the driver developer could use this to decide whether it needs to validate them.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    Parameters System.Text.Json.JsonElement
    Parameters can contain arbitrary data. It is the responsibility of the driver developer to handle validation and versioning. Typically this includes self-identification and a version ("kind" + "apiVersion" for Kubernetes types), with conversion between different versions.
    Driver string

    Driver is used to determine which kubelet plugin needs to be passed these configuration parameters.

    An admission policy provided by the driver developer could use this to decide whether it needs to validate them.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    Parameters interface{}
    Parameters can contain arbitrary data. It is the responsibility of the driver developer to handle validation and versioning. Typically this includes self-identification and a version ("kind" + "apiVersion" for Kubernetes types), with conversion between different versions.
    driver String

    Driver is used to determine which kubelet plugin needs to be passed these configuration parameters.

    An admission policy provided by the driver developer could use this to decide whether it needs to validate them.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    parameters JsonElement
    Parameters can contain arbitrary data. It is the responsibility of the driver developer to handle validation and versioning. Typically this includes self-identification and a version ("kind" + "apiVersion" for Kubernetes types), with conversion between different versions.
    driver string

    Driver is used to determine which kubelet plugin needs to be passed these configuration parameters.

    An admission policy provided by the driver developer could use this to decide whether it needs to validate them.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    parameters any
    Parameters can contain arbitrary data. It is the responsibility of the driver developer to handle validation and versioning. Typically this includes self-identification and a version ("kind" + "apiVersion" for Kubernetes types), with conversion between different versions.
    driver str

    Driver is used to determine which kubelet plugin needs to be passed these configuration parameters.

    An admission policy provided by the driver developer could use this to decide whether it needs to validate them.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    parameters Any
    Parameters can contain arbitrary data. It is the responsibility of the driver developer to handle validation and versioning. Typically this includes self-identification and a version ("kind" + "apiVersion" for Kubernetes types), with conversion between different versions.
    driver String

    Driver is used to determine which kubelet plugin needs to be passed these configuration parameters.

    An admission policy provided by the driver developer could use this to decide whether it needs to validate them.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    parameters JSON
    Parameters can contain arbitrary data. It is the responsibility of the driver developer to handle validation and versioning. Typically this includes self-identification and a version ("kind" + "apiVersion" for Kubernetes types), with conversion between different versions.

    OwnerReference, OwnerReferenceArgs

    ApiVersion string
    API version of the referent.
    Kind string
    Kind of the referent. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
    Name string
    Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#names
    Uid string
    UID of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#uids
    BlockOwnerDeletion bool
    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.
    Controller bool
    If true, this reference points to the managing controller.
    ApiVersion string
    API version of the referent.
    Kind string
    Kind of the referent. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
    Name string
    Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#names
    Uid string
    UID of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#uids
    BlockOwnerDeletion bool
    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.
    Controller bool
    If true, this reference points to the managing controller.
    apiVersion String
    API version of the referent.
    kind String
    Kind of the referent. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
    name String
    Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#names
    uid String
    UID of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#uids
    blockOwnerDeletion Boolean
    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.
    controller Boolean
    If true, this reference points to the managing controller.
    apiVersion string
    API version of the referent.
    kind string
    Kind of the referent. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
    name string
    Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#names
    uid string
    UID of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#uids
    blockOwnerDeletion boolean
    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.
    controller boolean
    If true, this reference points to the managing controller.
    api_version str
    API version of the referent.
    kind str
    Kind of the referent. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
    name str
    Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#names
    uid str
    UID of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#uids
    block_owner_deletion bool
    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.
    controller bool
    If true, this reference points to the managing controller.
    apiVersion String
    API version of the referent.
    kind String
    Kind of the referent. More info: https://git.k8s.io/community/contributors/devel/sig-architecture/api-conventions.md#types-kinds
    name String
    Name of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#names
    uid String
    UID of the referent. More info: https://kubernetes.io/docs/concepts/overview/working-with-objects/names#uids
    blockOwnerDeletion Boolean
    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.
    controller Boolean
    If true, this reference points to the managing controller.

    ResourceClaimConsumerReference, ResourceClaimConsumerReferenceArgs

    Name string
    Name is the name of resource being referenced.
    Resource string
    Resource is the type of resource being referenced, for example "pods".
    Uid string
    UID identifies exactly one incarnation of the resource.
    ApiGroup string
    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.
    Name string
    Name is the name of resource being referenced.
    Resource string
    Resource is the type of resource being referenced, for example "pods".
    Uid string
    UID identifies exactly one incarnation of the resource.
    ApiGroup string
    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.
    name String
    Name is the name of resource being referenced.
    resource String
    Resource is the type of resource being referenced, for example "pods".
    uid String
    UID identifies exactly one incarnation of the resource.
    apiGroup String
    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.
    name string
    Name is the name of resource being referenced.
    resource string
    Resource is the type of resource being referenced, for example "pods".
    uid string
    UID identifies exactly one incarnation of the resource.
    apiGroup string
    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.
    name str
    Name is the name of resource being referenced.
    resource str
    Resource is the type of resource being referenced, for example "pods".
    uid str
    UID identifies exactly one incarnation of the resource.
    api_group str
    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.
    name String
    Name is the name of resource being referenced.
    resource String
    Resource is the type of resource being referenced, for example "pods".
    uid String
    UID identifies exactly one incarnation of the resource.
    apiGroup String
    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.

    ResourceClaimSpec, ResourceClaimSpecArgs

    Controller string

    Controller is the name of the DRA driver that is meant to handle allocation of this claim. If empty, allocation is handled by the scheduler while scheduling a pod.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    Devices DeviceClaim
    Devices defines how to request devices.
    Controller string

    Controller is the name of the DRA driver that is meant to handle allocation of this claim. If empty, allocation is handled by the scheduler while scheduling a pod.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    Devices DeviceClaim
    Devices defines how to request devices.
    controller String

    Controller is the name of the DRA driver that is meant to handle allocation of this claim. If empty, allocation is handled by the scheduler while scheduling a pod.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    devices DeviceClaim
    Devices defines how to request devices.
    controller string

    Controller is the name of the DRA driver that is meant to handle allocation of this claim. If empty, allocation is handled by the scheduler while scheduling a pod.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    devices DeviceClaim
    Devices defines how to request devices.
    controller str

    Controller is the name of the DRA driver that is meant to handle allocation of this claim. If empty, allocation is handled by the scheduler while scheduling a pod.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    devices resource_k8s_io.v1alpha3.DeviceClaim
    Devices defines how to request devices.
    controller String

    Controller is the name of the DRA driver that is meant to handle allocation of this claim. If empty, allocation is handled by the scheduler while scheduling a pod.

    Must be a DNS subdomain and should end with a DNS domain owned by the vendor of the driver.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    devices Property Map
    Devices defines how to request devices.

    ResourceClaimStatus, ResourceClaimStatusArgs

    Allocation AllocationResult
    Allocation is set once the claim has been allocated successfully.
    DeallocationRequested bool

    Indicates that a claim is to be deallocated. While this is set, no new consumers may be added to ReservedFor.

    This is only used if the claim needs to be deallocated by a DRA driver. That driver then must deallocate this claim and reset the field together with clearing the Allocation field.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    ReservedFor List<ResourceClaimConsumerReference>

    ReservedFor indicates which entities are currently allowed to use the claim. A Pod which references a ResourceClaim which is not reserved for that Pod will not be started. A claim that is in use or might be in use because it has been reserved must not get deallocated.

    In a cluster with multiple scheduler instances, two pods might get scheduled concurrently by different schedulers. When they reference the same ResourceClaim which already has reached its maximum number of consumers, only one pod can be scheduled.

    Both schedulers try to add their pod to the claim.status.reservedFor field, but only the update that reaches the API server first gets stored. The other one fails with an error and the scheduler which issued it knows that it must put the pod back into the queue, waiting for the ResourceClaim to become usable again.

    There can be at most 32 such reservations. This may get increased in the future, but not reduced.

    Allocation AllocationResult
    Allocation is set once the claim has been allocated successfully.
    DeallocationRequested bool

    Indicates that a claim is to be deallocated. While this is set, no new consumers may be added to ReservedFor.

    This is only used if the claim needs to be deallocated by a DRA driver. That driver then must deallocate this claim and reset the field together with clearing the Allocation field.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    ReservedFor []ResourceClaimConsumerReference

    ReservedFor indicates which entities are currently allowed to use the claim. A Pod which references a ResourceClaim which is not reserved for that Pod will not be started. A claim that is in use or might be in use because it has been reserved must not get deallocated.

    In a cluster with multiple scheduler instances, two pods might get scheduled concurrently by different schedulers. When they reference the same ResourceClaim which already has reached its maximum number of consumers, only one pod can be scheduled.

    Both schedulers try to add their pod to the claim.status.reservedFor field, but only the update that reaches the API server first gets stored. The other one fails with an error and the scheduler which issued it knows that it must put the pod back into the queue, waiting for the ResourceClaim to become usable again.

    There can be at most 32 such reservations. This may get increased in the future, but not reduced.

    allocation AllocationResult
    Allocation is set once the claim has been allocated successfully.
    deallocationRequested Boolean

    Indicates that a claim is to be deallocated. While this is set, no new consumers may be added to ReservedFor.

    This is only used if the claim needs to be deallocated by a DRA driver. That driver then must deallocate this claim and reset the field together with clearing the Allocation field.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    reservedFor List<ResourceClaimConsumerReference>

    ReservedFor indicates which entities are currently allowed to use the claim. A Pod which references a ResourceClaim which is not reserved for that Pod will not be started. A claim that is in use or might be in use because it has been reserved must not get deallocated.

    In a cluster with multiple scheduler instances, two pods might get scheduled concurrently by different schedulers. When they reference the same ResourceClaim which already has reached its maximum number of consumers, only one pod can be scheduled.

    Both schedulers try to add their pod to the claim.status.reservedFor field, but only the update that reaches the API server first gets stored. The other one fails with an error and the scheduler which issued it knows that it must put the pod back into the queue, waiting for the ResourceClaim to become usable again.

    There can be at most 32 such reservations. This may get increased in the future, but not reduced.

    allocation AllocationResult
    Allocation is set once the claim has been allocated successfully.
    deallocationRequested boolean

    Indicates that a claim is to be deallocated. While this is set, no new consumers may be added to ReservedFor.

    This is only used if the claim needs to be deallocated by a DRA driver. That driver then must deallocate this claim and reset the field together with clearing the Allocation field.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    reservedFor ResourceClaimConsumerReference[]

    ReservedFor indicates which entities are currently allowed to use the claim. A Pod which references a ResourceClaim which is not reserved for that Pod will not be started. A claim that is in use or might be in use because it has been reserved must not get deallocated.

    In a cluster with multiple scheduler instances, two pods might get scheduled concurrently by different schedulers. When they reference the same ResourceClaim which already has reached its maximum number of consumers, only one pod can be scheduled.

    Both schedulers try to add their pod to the claim.status.reservedFor field, but only the update that reaches the API server first gets stored. The other one fails with an error and the scheduler which issued it knows that it must put the pod back into the queue, waiting for the ResourceClaim to become usable again.

    There can be at most 32 such reservations. This may get increased in the future, but not reduced.

    allocation resource_k8s_io.v1alpha3.AllocationResult
    Allocation is set once the claim has been allocated successfully.
    deallocation_requested bool

    Indicates that a claim is to be deallocated. While this is set, no new consumers may be added to ReservedFor.

    This is only used if the claim needs to be deallocated by a DRA driver. That driver then must deallocate this claim and reset the field together with clearing the Allocation field.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    reserved_for Sequence[resource_k8s_io.v1alpha3.ResourceClaimConsumerReference]

    ReservedFor indicates which entities are currently allowed to use the claim. A Pod which references a ResourceClaim which is not reserved for that Pod will not be started. A claim that is in use or might be in use because it has been reserved must not get deallocated.

    In a cluster with multiple scheduler instances, two pods might get scheduled concurrently by different schedulers. When they reference the same ResourceClaim which already has reached its maximum number of consumers, only one pod can be scheduled.

    Both schedulers try to add their pod to the claim.status.reservedFor field, but only the update that reaches the API server first gets stored. The other one fails with an error and the scheduler which issued it knows that it must put the pod back into the queue, waiting for the ResourceClaim to become usable again.

    There can be at most 32 such reservations. This may get increased in the future, but not reduced.

    allocation Property Map
    Allocation is set once the claim has been allocated successfully.
    deallocationRequested Boolean

    Indicates that a claim is to be deallocated. While this is set, no new consumers may be added to ReservedFor.

    This is only used if the claim needs to be deallocated by a DRA driver. That driver then must deallocate this claim and reset the field together with clearing the Allocation field.

    This is an alpha field and requires enabling the DRAControlPlaneController feature gate.

    reservedFor List<Property Map>

    ReservedFor indicates which entities are currently allowed to use the claim. A Pod which references a ResourceClaim which is not reserved for that Pod will not be started. A claim that is in use or might be in use because it has been reserved must not get deallocated.

    In a cluster with multiple scheduler instances, two pods might get scheduled concurrently by different schedulers. When they reference the same ResourceClaim which already has reached its maximum number of consumers, only one pod can be scheduled.

    Both schedulers try to add their pod to the claim.status.reservedFor field, but only the update that reaches the API server first gets stored. The other one fails with an error and the scheduler which issued it knows that it must put the pod back into the queue, waiting for the ResourceClaim to become usable again.

    There can be at most 32 such reservations. This may get increased in the future, but not reduced.

    Package Details

    Repository
    Kubernetes pulumi/pulumi-kubernetes
    License
    Apache-2.0
    kubernetes logo
    Kubernetes v4.18.3 published on Thursday, Oct 31, 2024 by Pulumi