k3s/vendor/k8s.io/kubelet/pkg/apis/deviceplugin/v1beta1/api.proto

175 lines
6.1 KiB
Protocol Buffer

// To regenerate api.pb.go run hack/update-generated-device-plugin.sh
syntax = 'proto3';
package v1beta1;
import "github.com/gogo/protobuf/gogoproto/gogo.proto";
option (gogoproto.goproto_stringer_all) = false;
option (gogoproto.stringer_all) = true;
option (gogoproto.goproto_getters_all) = true;
option (gogoproto.marshaler_all) = true;
option (gogoproto.sizer_all) = true;
option (gogoproto.unmarshaler_all) = true;
option (gogoproto.goproto_unrecognized_all) = false;
// Registration is the service advertised by the Kubelet
// Only when Kubelet answers with a success code to a Register Request
// may Device Plugins start their service
// Registration may fail when device plugin version is not supported by
// Kubelet or the registered resourceName is already taken by another
// active device plugin. Device plugin is expected to terminate upon registration failure
service Registration {
rpc Register(RegisterRequest) returns (Empty) {}
}
message DevicePluginOptions {
// Indicates if PreStartContainer call is required before each container start
bool pre_start_required = 1;
}
message RegisterRequest {
// Version of the API the Device Plugin was built against
string version = 1;
// Name of the unix socket the device plugin is listening on
// PATH = path.Join(DevicePluginPath, endpoint)
string endpoint = 2;
// Schedulable resource name. As of now it's expected to be a DNS Label
string resource_name = 3;
// Options to be communicated with Device Manager
DevicePluginOptions options = 4;
}
message Empty {
}
// DevicePlugin is the service advertised by Device Plugins
service DevicePlugin {
// GetDevicePluginOptions returns options to be communicated with Device
// Manager
rpc GetDevicePluginOptions(Empty) returns (DevicePluginOptions) {}
// ListAndWatch returns a stream of List of Devices
// Whenever a Device state change or a Device disappears, ListAndWatch
// returns the new list
rpc ListAndWatch(Empty) returns (stream ListAndWatchResponse) {}
// Allocate is called during container creation so that the Device
// Plugin can run device specific operations and instruct Kubelet
// of the steps to make the Device available in the container
rpc Allocate(AllocateRequest) returns (AllocateResponse) {}
// PreStartContainer is called, if indicated by Device Plugin during registeration phase,
// before each container start. Device plugin can run device specific operations
// such as resetting the device before making devices available to the container
rpc PreStartContainer(PreStartContainerRequest) returns (PreStartContainerResponse) {}
}
// ListAndWatch returns a stream of List of Devices
// Whenever a Device state change or a Device disappears, ListAndWatch
// returns the new list
message ListAndWatchResponse {
repeated Device devices = 1;
}
message TopologyInfo {
repeated NUMANode nodes = 1;
}
message NUMANode {
int64 ID = 1;
}
/* E.g:
* struct Device {
* ID: "GPU-fef8089b-4820-abfc-e83e-94318197576e",
* Health: "Healthy",
* Topology:
* Node:
ID: 1
*} */
message Device {
// A unique ID assigned by the device plugin used
// to identify devices during the communication
// Max length of this field is 63 characters
string ID = 1;
// Health of the device, can be healthy or unhealthy, see constants.go
string health = 2;
// Topology for device
TopologyInfo topology = 3;
}
// - PreStartContainer is expected to be called before each container start if indicated by plugin during registration phase.
// - PreStartContainer allows kubelet to pass reinitialized devices to containers.
// - PreStartContainer allows Device Plugin to run device specific operations on
// the Devices requested
message PreStartContainerRequest {
repeated string devicesIDs = 1;
}
// PreStartContainerResponse will be send by plugin in response to PreStartContainerRequest
message PreStartContainerResponse {
}
// - Allocate is expected to be called during pod creation since allocation
// failures for any container would result in pod startup failure.
// - Allocate allows kubelet to exposes additional artifacts in a pod's
// environment as directed by the plugin.
// - Allocate allows Device Plugin to run device specific operations on
// the Devices requested
message AllocateRequest {
repeated ContainerAllocateRequest container_requests = 1;
}
message ContainerAllocateRequest {
repeated string devicesIDs = 1;
}
// AllocateResponse includes the artifacts that needs to be injected into
// a container for accessing 'deviceIDs' that were mentioned as part of
// 'AllocateRequest'.
// Failure Handling:
// if Kubelet sends an allocation request for dev1 and dev2.
// Allocation on dev1 succeeds but allocation on dev2 fails.
// The Device plugin should send a ListAndWatch update and fail the
// Allocation request
message AllocateResponse {
repeated ContainerAllocateResponse container_responses = 1;
}
message ContainerAllocateResponse {
// List of environment variable to be set in the container to access one of more devices.
map<string, string> envs = 1;
// Mounts for the container.
repeated Mount mounts = 2;
// Devices for the container.
repeated DeviceSpec devices = 3;
// Container annotations to pass to the container runtime
map<string, string> annotations = 4;
}
// Mount specifies a host volume to mount into a container.
// where device library or tools are installed on host and container
message Mount {
// Path of the mount within the container.
string container_path = 1;
// Path of the mount on the host.
string host_path = 2;
// If set, the mount is read-only.
bool read_only = 3;
}
// DeviceSpec specifies a host device to mount into a container.
message DeviceSpec {
// Path of the device within the container.
string container_path = 1;
// Path of the device on the host.
string host_path = 2;
// Cgroups permissions of the device, candidates are one or more of
// * r - allows container to read from the specified device.
// * w - allows container to write to the specified device.
// * m - allows container to create device files that do not yet exist.
string permissions = 3;
}