mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-11-22 22:30:23 +00:00
f1379e4cc4
updating all kubernetes dependency to latest release. Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
913 lines
32 KiB
Protocol Buffer
913 lines
32 KiB
Protocol Buffer
/*
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Copyright The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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// This file was autogenerated by go-to-protobuf. Do not edit it manually!
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syntax = "proto2";
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package k8s.io.api.resource.v1alpha3;
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import "k8s.io/api/core/v1/generated.proto";
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import "k8s.io/apimachinery/pkg/api/resource/generated.proto";
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import "k8s.io/apimachinery/pkg/apis/meta/v1/generated.proto";
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import "k8s.io/apimachinery/pkg/runtime/generated.proto";
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import "k8s.io/apimachinery/pkg/runtime/schema/generated.proto";
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// Package-wide variables from generator "generated".
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option go_package = "k8s.io/api/resource/v1alpha3";
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// AllocationResult contains attributes of an allocated resource.
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message AllocationResult {
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// Devices is the result of allocating devices.
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//
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// +optional
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optional DeviceAllocationResult devices = 1;
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// NodeSelector defines where the allocated resources are available. If
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// unset, they are available everywhere.
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//
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// +optional
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optional .k8s.io.api.core.v1.NodeSelector nodeSelector = 3;
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// Controller is the name of the DRA driver which handled the
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// allocation. That driver is also responsible for deallocating the
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// claim. It is empty when the claim can be deallocated without
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// involving a driver.
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//
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// A driver may allocate devices provided by other drivers, so this
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// driver name here can be different from the driver names listed for
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// the results.
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//
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// This is an alpha field and requires enabling the DRAControlPlaneController
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// feature gate.
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//
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// +optional
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// +featureGate=DRAControlPlaneController
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optional string controller = 4;
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}
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// BasicDevice defines one device instance.
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message BasicDevice {
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// Attributes defines the set of attributes for this device.
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// The name of each attribute must be unique in that set.
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//
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// The maximum number of attributes and capacities combined is 32.
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//
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// +optional
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map<string, DeviceAttribute> attributes = 1;
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// Capacity defines the set of capacities for this device.
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// The name of each capacity must be unique in that set.
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//
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// The maximum number of attributes and capacities combined is 32.
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//
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// +optional
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map<string, .k8s.io.apimachinery.pkg.api.resource.Quantity> capacity = 2;
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}
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// CELDeviceSelector contains a CEL expression for selecting a device.
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message CELDeviceSelector {
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// Expression is a CEL expression which evaluates a single device. It
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// must evaluate to true when the device under consideration satisfies
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// the desired criteria, and false when it does not. Any other result
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// is an error and causes allocation of devices to abort.
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//
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// The expression's input is an object named "device", which carries
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// the following properties:
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// - driver (string): the name of the driver which defines this device.
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// - attributes (map[string]object): the device's attributes, grouped by prefix
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// (e.g. device.attributes["dra.example.com"] evaluates to an object with all
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// of the attributes which were prefixed by "dra.example.com".
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// - capacity (map[string]object): the device's capacities, grouped by prefix.
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//
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// Example: Consider a device with driver="dra.example.com", which exposes
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// two attributes named "model" and "ext.example.com/family" and which
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// exposes one capacity named "modules". This input to this expression
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// would have the following fields:
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//
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// device.driver
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// device.attributes["dra.example.com"].model
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// device.attributes["ext.example.com"].family
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// device.capacity["dra.example.com"].modules
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//
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// The device.driver field can be used to check for a specific driver,
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// either as a high-level precondition (i.e. you only want to consider
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// devices from this driver) or as part of a multi-clause expression
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// that is meant to consider devices from different drivers.
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//
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// The value type of each attribute is defined by the device
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// definition, and users who write these expressions must consult the
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// documentation for their specific drivers. The value type of each
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// capacity is Quantity.
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//
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// If an unknown prefix is used as a lookup in either device.attributes
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// or device.capacity, an empty map will be returned. Any reference to
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// an unknown field will cause an evaluation error and allocation to
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// abort.
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//
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// A robust expression should check for the existence of attributes
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// before referencing them.
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//
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// For ease of use, the cel.bind() function is enabled, and can be used
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// to simplify expressions that access multiple attributes with the
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// same domain. For example:
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//
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// cel.bind(dra, device.attributes["dra.example.com"], dra.someBool && dra.anotherBool)
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//
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// +required
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optional string expression = 1;
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}
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// Device represents one individual hardware instance that can be selected based
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// on its attributes. Besides the name, exactly one field must be set.
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message Device {
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// Name is unique identifier among all devices managed by
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// the driver in the pool. It must be a DNS label.
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//
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// +required
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optional string name = 1;
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// Basic defines one device instance.
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//
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// +optional
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// +oneOf=deviceType
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optional BasicDevice basic = 2;
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}
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// DeviceAllocationConfiguration gets embedded in an AllocationResult.
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message DeviceAllocationConfiguration {
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// Source records whether the configuration comes from a class and thus
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// is not something that a normal user would have been able to set
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// or from a claim.
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//
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// +required
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optional string source = 1;
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// Requests lists the names of requests where the configuration applies.
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// If empty, its applies to all requests.
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//
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// +optional
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// +listType=atomic
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repeated string requests = 2;
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optional DeviceConfiguration deviceConfiguration = 3;
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}
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// DeviceAllocationResult is the result of allocating devices.
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message DeviceAllocationResult {
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// Results lists all allocated devices.
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//
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// +optional
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// +listType=atomic
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repeated DeviceRequestAllocationResult results = 1;
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// This field is a combination of all the claim and class configuration parameters.
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// Drivers can distinguish between those based on a flag.
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//
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// This includes configuration parameters for drivers which have no allocated
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// devices in the result because it is up to the drivers which configuration
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// parameters they support. They can silently ignore unknown configuration
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// parameters.
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//
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// +optional
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// +listType=atomic
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repeated DeviceAllocationConfiguration config = 2;
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}
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// DeviceAttribute must have exactly one field set.
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message DeviceAttribute {
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// IntValue is a number.
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//
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// +optional
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// +oneOf=ValueType
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optional int64 int = 2;
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// BoolValue is a true/false value.
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//
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// +optional
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// +oneOf=ValueType
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optional bool bool = 3;
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// StringValue is a string. Must not be longer than 64 characters.
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//
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// +optional
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// +oneOf=ValueType
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optional string string = 4;
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// VersionValue is a semantic version according to semver.org spec 2.0.0.
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// Must not be longer than 64 characters.
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//
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// +optional
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// +oneOf=ValueType
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optional string version = 5;
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}
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// DeviceClaim defines how to request devices with a ResourceClaim.
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message DeviceClaim {
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// Requests represent individual requests for distinct devices which
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// must all be satisfied. If empty, nothing needs to be allocated.
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//
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// +optional
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// +listType=atomic
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repeated DeviceRequest requests = 1;
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// These constraints must be satisfied by the set of devices that get
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// allocated for the claim.
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//
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// +optional
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// +listType=atomic
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repeated DeviceConstraint constraints = 2;
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// This field holds configuration for multiple potential drivers which
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// could satisfy requests in this claim. It is ignored while allocating
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// the claim.
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//
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// +optional
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// +listType=atomic
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repeated DeviceClaimConfiguration config = 3;
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}
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// DeviceClaimConfiguration is used for configuration parameters in DeviceClaim.
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message DeviceClaimConfiguration {
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// Requests lists the names of requests where the configuration applies.
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// If empty, it applies to all requests.
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//
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// +optional
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// +listType=atomic
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repeated string requests = 1;
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optional DeviceConfiguration deviceConfiguration = 2;
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}
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// DeviceClass is a vendor- or admin-provided resource that contains
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// device configuration and selectors. It can be referenced in
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// the device requests of a claim to apply these presets.
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// Cluster scoped.
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//
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// This is an alpha type and requires enabling the DynamicResourceAllocation
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// feature gate.
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message DeviceClass {
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// Standard object metadata
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// +optional
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optional .k8s.io.apimachinery.pkg.apis.meta.v1.ObjectMeta metadata = 1;
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// Spec defines what can be allocated and how to configure it.
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//
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// This is mutable. Consumers have to be prepared for classes changing
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// at any time, either because they get updated or replaced. Claim
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// allocations are done once based on whatever was set in classes at
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// the time of allocation.
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//
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// Changing the spec automatically increments the metadata.generation number.
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optional DeviceClassSpec spec = 2;
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}
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// DeviceClassConfiguration is used in DeviceClass.
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message DeviceClassConfiguration {
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optional DeviceConfiguration deviceConfiguration = 1;
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}
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// DeviceClassList is a collection of classes.
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message DeviceClassList {
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// Standard list metadata
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// +optional
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optional .k8s.io.apimachinery.pkg.apis.meta.v1.ListMeta metadata = 1;
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// Items is the list of resource classes.
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repeated DeviceClass items = 2;
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}
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// DeviceClassSpec is used in a [DeviceClass] to define what can be allocated
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// and how to configure it.
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message DeviceClassSpec {
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// Each selector must be satisfied by a device which is claimed via this class.
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//
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// +optional
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// +listType=atomic
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repeated DeviceSelector selectors = 1;
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// Config defines configuration parameters that apply to each device that is claimed via this class.
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// Some classses may potentially be satisfied by multiple drivers, so each instance of a vendor
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// configuration applies to exactly one driver.
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//
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// They are passed to the driver, but are not considered while allocating the claim.
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//
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// +optional
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// +listType=atomic
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repeated DeviceClassConfiguration config = 2;
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// Only nodes matching the selector will be considered by the scheduler
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// when trying to find a Node that fits a Pod when that Pod uses
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// a claim that has not been allocated yet *and* that claim
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// gets allocated through a control plane controller. It is ignored
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// when the claim does not use a control plane controller
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// for allocation.
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//
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// Setting this field is optional. If unset, all Nodes are candidates.
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//
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// This is an alpha field and requires enabling the DRAControlPlaneController
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// feature gate.
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//
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// +optional
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// +featureGate=DRAControlPlaneController
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optional .k8s.io.api.core.v1.NodeSelector suitableNodes = 3;
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}
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// DeviceConfiguration must have exactly one field set. It gets embedded
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// inline in some other structs which have other fields, so field names must
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// not conflict with those.
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message DeviceConfiguration {
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// Opaque provides driver-specific configuration parameters.
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//
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// +optional
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// +oneOf=ConfigurationType
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optional OpaqueDeviceConfiguration opaque = 1;
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}
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// DeviceConstraint must have exactly one field set besides Requests.
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message DeviceConstraint {
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// Requests is a list of the one or more requests in this claim which
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// must co-satisfy this constraint. If a request is fulfilled by
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// multiple devices, then all of the devices must satisfy the
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// constraint. If this is not specified, this constraint applies to all
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// requests in this claim.
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//
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// +optional
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// +listType=atomic
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repeated string requests = 1;
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// MatchAttribute requires that all devices in question have this
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// attribute and that its type and value are the same across those
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// devices.
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//
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// For example, if you specified "dra.example.com/numa" (a hypothetical example!),
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// then only devices in the same NUMA node will be chosen. A device which
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// does not have that attribute will not be chosen. All devices should
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// use a value of the same type for this attribute because that is part of
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// its specification, but if one device doesn't, then it also will not be
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// chosen.
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//
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// Must include the domain qualifier.
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//
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// +optional
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// +oneOf=ConstraintType
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optional string matchAttribute = 2;
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}
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// DeviceRequest is a request for devices required for a claim.
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// This is typically a request for a single resource like a device, but can
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// also ask for several identical devices.
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//
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// A DeviceClassName is currently required. Clients must check that it is
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// indeed set. It's absence indicates that something changed in a way that
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// is not supported by the client yet, in which case it must refuse to
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// handle the request.
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message DeviceRequest {
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// Name can be used to reference this request in a pod.spec.containers[].resources.claims
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// entry and in a constraint of the claim.
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//
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// Must be a DNS label.
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//
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// +required
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optional string name = 1;
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// DeviceClassName references a specific DeviceClass, which can define
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// additional configuration and selectors to be inherited by this
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// request.
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//
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// A class is required. Which classes are available depends on the cluster.
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//
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// Administrators may use this to restrict which devices may get
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// requested by only installing classes with selectors for permitted
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// devices. If users are free to request anything without restrictions,
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// then administrators can create an empty DeviceClass for users
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// to reference.
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//
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// +required
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optional string deviceClassName = 2;
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// Selectors define criteria which must be satisfied by a specific
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// device in order for that device to be considered for this
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// request. All selectors must be satisfied for a device to be
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// considered.
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//
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// +optional
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// +listType=atomic
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repeated DeviceSelector selectors = 3;
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// AllocationMode and its related fields define how devices are allocated
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// to satisfy this request. Supported values are:
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//
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// - ExactCount: This request is for a specific number of devices.
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// This is the default. The exact number is provided in the
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// count field.
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//
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// - All: This request is for all of the matching devices in a pool.
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// Allocation will fail if some devices are already allocated,
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// unless adminAccess is requested.
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//
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// If AlloctionMode is not specified, the default mode is ExactCount. If
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// the mode is ExactCount and count is not specified, the default count is
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// one. Any other requests must specify this field.
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//
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// More modes may get added in the future. Clients must refuse to handle
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// requests with unknown modes.
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//
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// +optional
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optional string allocationMode = 4;
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// Count is used only when the count mode is "ExactCount". Must be greater than zero.
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// If AllocationMode is ExactCount and this field is not specified, the default is one.
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//
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// +optional
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// +oneOf=AllocationMode
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optional int64 count = 5;
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// AdminAccess indicates that this is a claim for administrative access
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// to the device(s). Claims with AdminAccess are expected to be used for
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// monitoring or other management services for a device. They ignore
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// all ordinary claims to the device with respect to access modes and
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// any resource allocations.
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//
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// +optional
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// +default=false
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optional bool adminAccess = 6;
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}
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// DeviceRequestAllocationResult contains the allocation result for one request.
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message DeviceRequestAllocationResult {
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// Request is the name of the request in the claim which caused this
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// device to be allocated. Multiple devices may have been allocated
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// per request.
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//
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// +required
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optional string request = 1;
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// Driver specifies the name of the DRA driver whose kubelet
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// plugin should be invoked to process the allocation once the claim is
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// needed on a node.
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//
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// Must be a DNS subdomain and should end with a DNS domain owned by the
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// vendor of the driver.
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//
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// +required
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optional string driver = 2;
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// This name together with the driver name and the device name field
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// identify which device was allocated (`<driver name>/<pool name>/<device name>`).
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//
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// Must not be longer than 253 characters and may contain one or more
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// DNS sub-domains separated by slashes.
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//
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// +required
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optional string pool = 3;
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// Device references one device instance via its name in the driver's
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// resource pool. It must be a DNS label.
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//
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// +required
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optional string device = 4;
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}
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|
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// DeviceSelector must have exactly one field set.
|
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message DeviceSelector {
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// CEL contains a CEL expression for selecting a device.
|
|
//
|
|
// +optional
|
|
// +oneOf=SelectorType
|
|
optional CELDeviceSelector cel = 1;
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}
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|
|
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// OpaqueDeviceConfiguration contains configuration parameters for a driver
|
|
// in a format defined by the driver vendor.
|
|
message OpaqueDeviceConfiguration {
|
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// Driver is used to determine which kubelet plugin needs
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// to be passed these configuration parameters.
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//
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// An admission policy provided by the driver developer could use this
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// to decide whether it needs to validate them.
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//
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// Must be a DNS subdomain and should end with a DNS domain owned by the
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// vendor of the driver.
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//
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// +required
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optional string driver = 1;
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|
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// Parameters can contain arbitrary data. It is the responsibility of
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// the driver developer to handle validation and versioning. Typically this
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|
// includes self-identification and a version ("kind" + "apiVersion" for
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// Kubernetes types), with conversion between different versions.
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//
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// +required
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optional .k8s.io.apimachinery.pkg.runtime.RawExtension parameters = 2;
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}
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|
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// PodSchedulingContext objects hold information that is needed to schedule
|
|
// a Pod with ResourceClaims that use "WaitForFirstConsumer" allocation
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// mode.
|
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//
|
|
// This is an alpha type and requires enabling the DRAControlPlaneController
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// feature gate.
|
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message PodSchedulingContext {
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// Standard object metadata
|
|
// +optional
|
|
optional .k8s.io.apimachinery.pkg.apis.meta.v1.ObjectMeta metadata = 1;
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|
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// Spec describes where resources for the Pod are needed.
|
|
optional PodSchedulingContextSpec spec = 2;
|
|
|
|
// Status describes where resources for the Pod can be allocated.
|
|
//
|
|
// +optional
|
|
optional PodSchedulingContextStatus status = 3;
|
|
}
|
|
|
|
// PodSchedulingContextList is a collection of Pod scheduling objects.
|
|
message PodSchedulingContextList {
|
|
// Standard list metadata
|
|
// +optional
|
|
optional .k8s.io.apimachinery.pkg.apis.meta.v1.ListMeta metadata = 1;
|
|
|
|
// Items is the list of PodSchedulingContext objects.
|
|
repeated PodSchedulingContext items = 2;
|
|
}
|
|
|
|
// PodSchedulingContextSpec describes where resources for the Pod are needed.
|
|
message PodSchedulingContextSpec {
|
|
// SelectedNode is the node for which allocation of ResourceClaims that
|
|
// are referenced by the Pod and that use "WaitForFirstConsumer"
|
|
// allocation is to be attempted.
|
|
//
|
|
// +optional
|
|
optional string selectedNode = 1;
|
|
|
|
// PotentialNodes lists nodes where the Pod might be able to run.
|
|
//
|
|
// The size of this field is limited to 128. This is large enough for
|
|
// many clusters. Larger clusters may need more attempts to find a node
|
|
// that suits all pending resources. This may get increased in the
|
|
// future, but not reduced.
|
|
//
|
|
// +optional
|
|
// +listType=atomic
|
|
repeated string potentialNodes = 2;
|
|
}
|
|
|
|
// PodSchedulingContextStatus describes where resources for the Pod can be allocated.
|
|
message PodSchedulingContextStatus {
|
|
// ResourceClaims describes resource availability for each
|
|
// pod.spec.resourceClaim entry where the corresponding ResourceClaim
|
|
// uses "WaitForFirstConsumer" allocation mode.
|
|
//
|
|
// +listType=map
|
|
// +listMapKey=name
|
|
// +optional
|
|
repeated ResourceClaimSchedulingStatus resourceClaims = 1;
|
|
}
|
|
|
|
// 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.
|
|
message ResourceClaim {
|
|
// Standard object metadata
|
|
// +optional
|
|
optional .k8s.io.apimachinery.pkg.apis.meta.v1.ObjectMeta metadata = 1;
|
|
|
|
// Spec describes what is being requested and how to configure it.
|
|
// The spec is immutable.
|
|
optional ResourceClaimSpec spec = 2;
|
|
|
|
// Status describes whether the claim is ready to use and what has been allocated.
|
|
// +optional
|
|
optional ResourceClaimStatus status = 3;
|
|
}
|
|
|
|
// ResourceClaimConsumerReference contains enough information to let you
|
|
// locate the consumer of a ResourceClaim. The user must be a resource in the same
|
|
// namespace as the ResourceClaim.
|
|
message ResourceClaimConsumerReference {
|
|
// 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.
|
|
// +optional
|
|
optional string apiGroup = 1;
|
|
|
|
// Resource is the type of resource being referenced, for example "pods".
|
|
// +required
|
|
optional string resource = 3;
|
|
|
|
// Name is the name of resource being referenced.
|
|
// +required
|
|
optional string name = 4;
|
|
|
|
// UID identifies exactly one incarnation of the resource.
|
|
// +required
|
|
optional string uid = 5;
|
|
}
|
|
|
|
// ResourceClaimList is a collection of claims.
|
|
message ResourceClaimList {
|
|
// Standard list metadata
|
|
// +optional
|
|
optional .k8s.io.apimachinery.pkg.apis.meta.v1.ListMeta metadata = 1;
|
|
|
|
// Items is the list of resource claims.
|
|
repeated ResourceClaim items = 2;
|
|
}
|
|
|
|
// ResourceClaimSchedulingStatus contains information about one particular
|
|
// ResourceClaim with "WaitForFirstConsumer" allocation mode.
|
|
message ResourceClaimSchedulingStatus {
|
|
// Name matches the pod.spec.resourceClaims[*].Name field.
|
|
//
|
|
// +required
|
|
optional string name = 1;
|
|
|
|
// UnsuitableNodes lists nodes that the ResourceClaim cannot be
|
|
// allocated for.
|
|
//
|
|
// The size of this field is limited to 128, the same as for
|
|
// PodSchedulingSpec.PotentialNodes. This may get increased in the
|
|
// future, but not reduced.
|
|
//
|
|
// +optional
|
|
// +listType=atomic
|
|
repeated string unsuitableNodes = 2;
|
|
}
|
|
|
|
// ResourceClaimSpec defines what is being requested in a ResourceClaim and how to configure it.
|
|
message ResourceClaimSpec {
|
|
// Devices defines how to request devices.
|
|
//
|
|
// +optional
|
|
optional DeviceClaim devices = 1;
|
|
|
|
// 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.
|
|
//
|
|
// +optional
|
|
// +featureGate=DRAControlPlaneController
|
|
optional string controller = 2;
|
|
}
|
|
|
|
// ResourceClaimStatus tracks whether the resource has been allocated and what
|
|
// the result of that was.
|
|
message ResourceClaimStatus {
|
|
// Allocation is set once the claim has been allocated successfully.
|
|
//
|
|
// +optional
|
|
optional AllocationResult allocation = 1;
|
|
|
|
// 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.
|
|
//
|
|
// +optional
|
|
// +listType=map
|
|
// +listMapKey=uid
|
|
// +patchStrategy=merge
|
|
// +patchMergeKey=uid
|
|
repeated ResourceClaimConsumerReference reservedFor = 2;
|
|
|
|
// 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.
|
|
//
|
|
// +optional
|
|
// +featureGate=DRAControlPlaneController
|
|
optional bool deallocationRequested = 3;
|
|
}
|
|
|
|
// ResourceClaimTemplate is used to produce ResourceClaim objects.
|
|
//
|
|
// This is an alpha type and requires enabling the DynamicResourceAllocation
|
|
// feature gate.
|
|
message ResourceClaimTemplate {
|
|
// Standard object metadata
|
|
// +optional
|
|
optional .k8s.io.apimachinery.pkg.apis.meta.v1.ObjectMeta metadata = 1;
|
|
|
|
// Describes the ResourceClaim that is to be generated.
|
|
//
|
|
// This field is immutable. A ResourceClaim will get created by the
|
|
// control plane for a Pod when needed and then not get updated
|
|
// anymore.
|
|
optional ResourceClaimTemplateSpec spec = 2;
|
|
}
|
|
|
|
// ResourceClaimTemplateList is a collection of claim templates.
|
|
message ResourceClaimTemplateList {
|
|
// Standard list metadata
|
|
// +optional
|
|
optional .k8s.io.apimachinery.pkg.apis.meta.v1.ListMeta metadata = 1;
|
|
|
|
// Items is the list of resource claim templates.
|
|
repeated ResourceClaimTemplate items = 2;
|
|
}
|
|
|
|
// ResourceClaimTemplateSpec contains the metadata and fields for a ResourceClaim.
|
|
message ResourceClaimTemplateSpec {
|
|
// ObjectMeta may contain labels and annotations that will be copied into the PVC
|
|
// when creating it. No other fields are allowed and will be rejected during
|
|
// validation.
|
|
// +optional
|
|
optional .k8s.io.apimachinery.pkg.apis.meta.v1.ObjectMeta metadata = 1;
|
|
|
|
// Spec for the ResourceClaim. The entire content is copied unchanged
|
|
// into the ResourceClaim that gets created from this template. The
|
|
// same fields as in a ResourceClaim are also valid here.
|
|
optional ResourceClaimSpec spec = 2;
|
|
}
|
|
|
|
// ResourcePool describes the pool that ResourceSlices belong to.
|
|
message ResourcePool {
|
|
// Name is used to identify the pool. For node-local devices, this
|
|
// is often the node name, but this is not required.
|
|
//
|
|
// It must not be longer than 253 characters and must consist of one or more DNS sub-domains
|
|
// separated by slashes. This field is immutable.
|
|
//
|
|
// +required
|
|
optional string name = 1;
|
|
|
|
// Generation tracks the change in a pool over time. Whenever a driver
|
|
// changes something about one or more of the resources in a pool, it
|
|
// must change the generation in all ResourceSlices which are part of
|
|
// that pool. Consumers of ResourceSlices should only consider
|
|
// resources from the pool with the highest generation number. The
|
|
// generation may be reset by drivers, which should be fine for
|
|
// consumers, assuming that all ResourceSlices in a pool are updated to
|
|
// match or deleted.
|
|
//
|
|
// Combined with ResourceSliceCount, this mechanism enables consumers to
|
|
// detect pools which are comprised of multiple ResourceSlices and are
|
|
// in an incomplete state.
|
|
//
|
|
// +required
|
|
optional int64 generation = 2;
|
|
|
|
// ResourceSliceCount is the total number of ResourceSlices in the pool at this
|
|
// generation number. Must be greater than zero.
|
|
//
|
|
// Consumers can use this to check whether they have seen all ResourceSlices
|
|
// belonging to the same pool.
|
|
//
|
|
// +required
|
|
optional int64 resourceSliceCount = 3;
|
|
}
|
|
|
|
// ResourceSlice represents one or more resources in a pool of similar resources,
|
|
// managed by a common driver. A pool may span more than one ResourceSlice, and exactly how many
|
|
// ResourceSlices comprise a pool is determined by the driver.
|
|
//
|
|
// At the moment, the only supported resources are devices with attributes and capacities.
|
|
// Each device in a given pool, regardless of how many ResourceSlices, must have a unique name.
|
|
// The ResourceSlice in which a device gets published may change over time. The unique identifier
|
|
// for a device is the tuple <driver name>, <pool name>, <device name>.
|
|
//
|
|
// Whenever a driver needs to update a pool, it increments the pool.Spec.Pool.Generation number
|
|
// and updates all ResourceSlices with that new number and new resource definitions. A consumer
|
|
// must only use ResourceSlices with the highest generation number and ignore all others.
|
|
//
|
|
// When allocating all resources in a pool matching certain criteria or when
|
|
// looking for the best solution among several different alternatives, a
|
|
// consumer should check the number of ResourceSlices in a pool (included in
|
|
// each ResourceSlice) to determine whether its view of a pool is complete and
|
|
// if not, should wait until the driver has completed updating the pool.
|
|
//
|
|
// For resources that are not local to a node, the node name is not set. Instead,
|
|
// the driver may use a node selector to specify where the devices are available.
|
|
//
|
|
// This is an alpha type and requires enabling the DynamicResourceAllocation
|
|
// feature gate.
|
|
message ResourceSlice {
|
|
// Standard object metadata
|
|
// +optional
|
|
optional .k8s.io.apimachinery.pkg.apis.meta.v1.ObjectMeta metadata = 1;
|
|
|
|
// Contains the information published by the driver.
|
|
//
|
|
// Changing the spec automatically increments the metadata.generation number.
|
|
optional ResourceSliceSpec spec = 2;
|
|
}
|
|
|
|
// ResourceSliceList is a collection of ResourceSlices.
|
|
message ResourceSliceList {
|
|
// Standard list metadata
|
|
// +optional
|
|
optional .k8s.io.apimachinery.pkg.apis.meta.v1.ListMeta metadata = 1;
|
|
|
|
// Items is the list of resource ResourceSlices.
|
|
repeated ResourceSlice items = 2;
|
|
}
|
|
|
|
// ResourceSliceSpec contains the information published by the driver in one ResourceSlice.
|
|
message ResourceSliceSpec {
|
|
// Driver identifies the DRA driver providing the capacity information.
|
|
// A field selector can be used to list only ResourceSlice
|
|
// objects with a certain driver name.
|
|
//
|
|
// Must be a DNS subdomain and should end with a DNS domain owned by the
|
|
// vendor of the driver. This field is immutable.
|
|
//
|
|
// +required
|
|
optional string driver = 1;
|
|
|
|
// Pool describes the pool that this ResourceSlice belongs to.
|
|
//
|
|
// +required
|
|
optional ResourcePool pool = 2;
|
|
|
|
// NodeName identifies the node which provides the resources in this pool.
|
|
// A field selector can be used to list only ResourceSlice
|
|
// objects belonging to a certain node.
|
|
//
|
|
// This field can be used to limit access from nodes to ResourceSlices with
|
|
// the same node name. It also indicates to autoscalers that adding
|
|
// new nodes of the same type as some old node might also make new
|
|
// resources available.
|
|
//
|
|
// Exactly one of NodeName, NodeSelector and AllNodes must be set.
|
|
// This field is immutable.
|
|
//
|
|
// +optional
|
|
// +oneOf=NodeSelection
|
|
optional string nodeName = 3;
|
|
|
|
// NodeSelector defines which nodes have access to the resources in the pool,
|
|
// when that pool is not limited to a single node.
|
|
//
|
|
// Must use exactly one term.
|
|
//
|
|
// Exactly one of NodeName, NodeSelector and AllNodes must be set.
|
|
//
|
|
// +optional
|
|
// +oneOf=NodeSelection
|
|
optional .k8s.io.api.core.v1.NodeSelector nodeSelector = 4;
|
|
|
|
// AllNodes indicates that all nodes have access to the resources in the pool.
|
|
//
|
|
// Exactly one of NodeName, NodeSelector and AllNodes must be set.
|
|
//
|
|
// +optional
|
|
// +oneOf=NodeSelection
|
|
optional bool allNodes = 5;
|
|
|
|
// Devices lists some or all of the devices in this pool.
|
|
//
|
|
// Must not have more than 128 entries.
|
|
//
|
|
// +optional
|
|
// +listType=atomic
|
|
repeated Device devices = 6;
|
|
}
|
|
|