{ "description": "AllocationResult contains attributes of an allocated resource.", "properties": { "availableOnNodes": { "description": "A node selector represents the union of the results of one or more label queries over a set of nodes; that is, it represents the OR of the selectors represented by the node selector terms.", "properties": { "nodeSelectorTerms": { "description": "Required. A list of node selector terms. The terms are ORed.", "items": { "description": "A null or empty node selector term matches no objects. The requirements of them are ANDed. The TopologySelectorTerm type implements a subset of the NodeSelectorTerm.", "properties": { "matchExpressions": { "description": "A list of node selector requirements by node's labels.", "items": { "description": "A node selector requirement is a selector that contains values, a key, and an operator that relates the key and values.", "properties": { "key": { "description": "The label key that the selector applies to.", "type": "string" }, "operator": { "description": "Represents a key's relationship to a set of values. Valid operators are In, NotIn, Exists, DoesNotExist. Gt, and Lt.", "type": "string" }, "values": { "description": "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.", "items": { "type": [ "string", "null" ] }, "type": [ "array", "null" ], "x-kubernetes-list-type": "atomic" } }, "required": [ "key", "operator" ], "type": [ "object", "null" ] }, "type": [ "array", "null" ], "x-kubernetes-list-type": "atomic" }, "matchFields": { "description": "A list of node selector requirements by node's fields.", "items": { "description": "A node selector requirement is a selector that contains values, a key, and an operator that relates the key and values.", "properties": { "key": { "description": "The label key that the selector applies to.", "type": "string" }, "operator": { "description": "Represents a key's relationship to a set of values. Valid operators are In, NotIn, Exists, DoesNotExist. Gt, and Lt.", "type": "string" }, "values": { "description": "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.", "items": { "type": [ "string", "null" ] }, "type": [ "array", "null" ], "x-kubernetes-list-type": "atomic" } }, "required": [ "key", "operator" ], "type": [ "object", "null" ] }, "type": [ "array", "null" ], "x-kubernetes-list-type": "atomic" } }, "type": [ "object", "null" ], "x-kubernetes-map-type": "atomic" }, "type": "array", "x-kubernetes-list-type": "atomic" } }, "required": [ "nodeSelectorTerms" ], "type": [ "object", "null" ], "x-kubernetes-map-type": "atomic" }, "resourceHandles": { "description": "ResourceHandles contain the state associated with an allocation that should be maintained throughout the lifetime of a claim. Each ResourceHandle contains data that should be passed to a specific kubelet plugin once it lands on a node. This data is returned by the driver after a successful allocation and is opaque to Kubernetes. Driver documentation may explain to users how to interpret this data if needed.\n\nSetting this field is optional. It has a maximum size of 32 entries. If null (or empty), it is assumed this allocation will be processed by a single kubelet plugin with no ResourceHandle data attached. The name of the kubelet plugin invoked will match the DriverName set in the ResourceClaimStatus this AllocationResult is embedded in.", "items": { "description": "ResourceHandle holds opaque resource data for processing by a specific kubelet plugin.", "properties": { "data": { "description": "Data contains the opaque data associated with this ResourceHandle. It is set by the controller component of the resource driver whose name matches the DriverName set in the ResourceClaimStatus this ResourceHandle is embedded in. It is set at allocation time and is intended for processing by the kubelet plugin whose name matches the DriverName set in this ResourceHandle.\n\nThe maximum size of this field is 16KiB. This may get increased in the future, but not reduced.", "type": [ "string", "null" ] }, "driverName": { "description": "DriverName specifies the name of the resource driver whose kubelet plugin should be invoked to process this ResourceHandle's data once it lands on a node. This may differ from the DriverName set in ResourceClaimStatus this ResourceHandle is embedded in.", "type": [ "string", "null" ] }, "structuredData": { "description": "StructuredResourceHandle is the in-tree representation of the allocation result.", "properties": { "nodeName": { "description": "NodeName is the name of the node providing the necessary resources if the resources are local to a node.", "type": [ "string", "null" ] }, "results": { "description": "Results lists all allocated driver resources.", "items": { "description": "DriverAllocationResult contains vendor parameters and the allocation result for one request.", "properties": { "namedResources": { "description": "NamedResourcesAllocationResult is used in AllocationResultModel.", "properties": { "name": { "description": "Name is the name of the selected resource instance.", "type": "string" } }, "required": [ "name" ], "type": [ "object", "null" ] }, "vendorRequestParameters": { "description": "RawExtension is used to hold extensions in external versions.\n\nTo use this, make a field which has RawExtension as its type in your external, versioned struct, and Object in your internal struct. You also need to register your various plugin types.\n\n// Internal package:\n\n\ttype MyAPIObject struct {\n\t\truntime.TypeMeta `json:\",inline\"`\n\t\tMyPlugin runtime.Object `json:\"myPlugin\"`\n\t}\n\n\ttype PluginA struct {\n\t\tAOption string `json:\"aOption\"`\n\t}\n\n// External package:\n\n\ttype MyAPIObject struct {\n\t\truntime.TypeMeta `json:\",inline\"`\n\t\tMyPlugin runtime.RawExtension `json:\"myPlugin\"`\n\t}\n\n\ttype PluginA struct {\n\t\tAOption string `json:\"aOption\"`\n\t}\n\n// On the wire, the JSON will look something like this:\n\n\t{\n\t\t\"kind\":\"MyAPIObject\",\n\t\t\"apiVersion\":\"v1\",\n\t\t\"myPlugin\": {\n\t\t\t\"kind\":\"PluginA\",\n\t\t\t\"aOption\":\"foo\",\n\t\t},\n\t}\n\nSo what happens? Decode first uses json or yaml to unmarshal the serialized data into your external MyAPIObject. That causes the raw JSON to be stored, but not unpacked. The next step is to copy (using pkg/conversion) into the internal struct. The runtime package's DefaultScheme has conversion functions installed which will unpack the JSON stored in RawExtension, turning it into the correct object type, and storing it in the Object. (TODO: In the case where the object is of an unknown type, a runtime.Unknown object will be created and stored.)", "type": [ "object", "null" ] } }, "type": [ "object", "null" ] }, "type": "array", "x-kubernetes-list-type": "atomic" }, "vendorClaimParameters": { "description": "RawExtension is used to hold extensions in external versions.\n\nTo use this, make a field which has RawExtension as its type in your external, versioned struct, and Object in your internal struct. You also need to register your various plugin types.\n\n// Internal package:\n\n\ttype MyAPIObject struct {\n\t\truntime.TypeMeta `json:\",inline\"`\n\t\tMyPlugin runtime.Object `json:\"myPlugin\"`\n\t}\n\n\ttype PluginA struct {\n\t\tAOption string `json:\"aOption\"`\n\t}\n\n// External package:\n\n\ttype MyAPIObject struct {\n\t\truntime.TypeMeta `json:\",inline\"`\n\t\tMyPlugin runtime.RawExtension `json:\"myPlugin\"`\n\t}\n\n\ttype PluginA struct {\n\t\tAOption string `json:\"aOption\"`\n\t}\n\n// On the wire, the JSON will look something like this:\n\n\t{\n\t\t\"kind\":\"MyAPIObject\",\n\t\t\"apiVersion\":\"v1\",\n\t\t\"myPlugin\": {\n\t\t\t\"kind\":\"PluginA\",\n\t\t\t\"aOption\":\"foo\",\n\t\t},\n\t}\n\nSo what happens? Decode first uses json or yaml to unmarshal the serialized data into your external MyAPIObject. That causes the raw JSON to be stored, but not unpacked. The next step is to copy (using pkg/conversion) into the internal struct. The runtime package's DefaultScheme has conversion functions installed which will unpack the JSON stored in RawExtension, turning it into the correct object type, and storing it in the Object. (TODO: In the case where the object is of an unknown type, a runtime.Unknown object will be created and stored.)", "type": [ "object", "null" ] }, "vendorClassParameters": { "description": "RawExtension is used to hold extensions in external versions.\n\nTo use this, make a field which has RawExtension as its type in your external, versioned struct, and Object in your internal struct. You also need to register your various plugin types.\n\n// Internal package:\n\n\ttype MyAPIObject struct {\n\t\truntime.TypeMeta `json:\",inline\"`\n\t\tMyPlugin runtime.Object `json:\"myPlugin\"`\n\t}\n\n\ttype PluginA struct {\n\t\tAOption string `json:\"aOption\"`\n\t}\n\n// External package:\n\n\ttype MyAPIObject struct {\n\t\truntime.TypeMeta `json:\",inline\"`\n\t\tMyPlugin runtime.RawExtension `json:\"myPlugin\"`\n\t}\n\n\ttype PluginA struct {\n\t\tAOption string `json:\"aOption\"`\n\t}\n\n// On the wire, the JSON will look something like this:\n\n\t{\n\t\t\"kind\":\"MyAPIObject\",\n\t\t\"apiVersion\":\"v1\",\n\t\t\"myPlugin\": {\n\t\t\t\"kind\":\"PluginA\",\n\t\t\t\"aOption\":\"foo\",\n\t\t},\n\t}\n\nSo what happens? Decode first uses json or yaml to unmarshal the serialized data into your external MyAPIObject. That causes the raw JSON to be stored, but not unpacked. The next step is to copy (using pkg/conversion) into the internal struct. The runtime package's DefaultScheme has conversion functions installed which will unpack the JSON stored in RawExtension, turning it into the correct object type, and storing it in the Object. (TODO: In the case where the object is of an unknown type, a runtime.Unknown object will be created and stored.)", "type": [ "object", "null" ] } }, "required": [ "results" ], "type": [ "object", "null" ] } }, "type": [ "object", "null" ] }, "type": [ "array", "null" ], "x-kubernetes-list-type": "atomic" }, "shareable": { "description": "Shareable determines whether the resource supports more than one consumer at a time.", "type": [ "boolean", "null" ] } }, "type": "object", "$schema": "http://json-schema.org/schema#" }