Using device plug-ins to access external resources with pods
Device plug-ins allow you to use a particular device type (GPU, InfiniBand, or other similar computing resources that require vendor-specific initialization and setup) in your OKD pod without needing to write custom code.
Understanding device plug-ins
The device plug-in provides a consistent and portable solution to consume hardware devices across clusters. The device plug-in provides support for these devices through an extension mechanism, which makes these devices available to Containers, provides health checks of these devices, and securely shares them.
OKD supports the device plug-in API, but the device plug-in Containers are supported by individual vendors. |
A device plug-in is a gRPC service running on the nodes (external to the kubelet
) that is responsible for managing specific hardware resources. Any device plug-in must support following remote procedure calls (RPCs):
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
// Plug-in 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 Plug-in during
// registration phase, before each container start. Device plug-in
// can run device specific operations such as reseting the device
// before making devices available to the container
rpc PreStartcontainer(PreStartcontainerRequest) returns (PreStartcontainerResponse) {}
}
Example device plug-ins
For easy device plug-in reference implementation, there is a stub device plug-in in the Device Manager code: vendor/k8s.io/kubernetes/pkg/kubelet/cm/deviceplugin/device_plugin_stub.go. |
Methods for deploying a device plug-in
Daemon sets are the recommended approach for device plug-in deployments.
Upon start, the device plug-in will try to create a UNIX domain socket at /var/lib/kubelet/device-plugin/ on the node to serve RPCs from Device Manager.
Since device plug-ins must manage hardware resources, access to the host file system, as well as socket creation, they must be run in a privileged security context.
More specific details regarding deployment steps can be found with each device plug-in implementation.
Understanding the Device Manager
Device Manager provides a mechanism for advertising specialized node hardware resources with the help of plug-ins known as device plug-ins.
You can advertise specialized hardware without requiring any upstream code changes.
OKD supports the device plug-in API, but the device plug-in Containers are supported by individual vendors. |
Device Manager advertises devices as Extended Resources. User pods can consume devices, advertised by Device Manager, using the same Limit/Request mechanism, which is used for requesting any other Extended Resource.
Upon start, the device plug-in registers itself with Device Manager invoking Register
on the /var/lib/kubelet/device-plugins/kubelet.sock and starts a gRPC service at /var/lib/kubelet/device-plugins/<plugin>.sock for serving Device Manager requests.
Device Manager, while processing a new registration request, invokes ListAndWatch
remote procedure call (RPC) at the device plug-in service. In response, Device Manager gets a list of Device objects from the plug-in over a gRPC stream. Device Manager will keep watching on the stream for new updates from the plug-in. On the plug-in side, the plug-in will also keep the stream open and whenever there is a change in the state of any of the devices, a new device list is sent to the Device Manager over the same streaming connection.
While handling a new pod admission request, Kubelet passes requested Extended Resources
to the Device Manager for device allocation. Device Manager checks in its database to verify if a corresponding plug-in exists or not. If the plug-in exists and there are free allocatable devices as well as per local cache, Allocate
RPC is invoked at that particular device plug-in.
Additionally, device plug-ins can also perform several other device-specific operations, such as driver installation, device initialization, and device resets. These functionalities vary from implementation to implementation.
Enabling Device Manager
Enable Device Manager to implement a device plug-in to advertise specialized hardware without any upstream code changes.
Device Manager provides a mechanism for advertising specialized node hardware resources with the help of plug-ins known as device plug-ins.
Obtain the label associated with the static
MachineConfigPool
CRD for the type of node you want to configure. Perform one of the following steps:View the machine config:
# oc describe machineconfig <name>
For example:
# oc describe machineconfig 00-worker
Example output
Name: 00-worker
Namespace:
Labels: machineconfiguration.openshift.io/role=worker (1)
1 Label required for the Device Manager.
Procedure
Create a custom resource (CR) for your configuration change.
Sample configuration for a Device Manager CR
apiVersion: machineconfiguration.openshift.io/v1
kind: KubeletConfig
metadata:
name: devicemgr (1)
spec:
machineConfigPoolSelector:
matchLabels:
machineconfiguration.openshift.io: devicemgr (2)
kubeletConfig:
feature-gates:
- DevicePlugins=true (3)
1 Assign a name to CR. 2 Enter the label from the Machine Config Pool. 3 Set DevicePlugins
to ‘true`.Create the Device Manager:
$ oc create -f devicemgr.yaml
Example output
kubeletconfig.machineconfiguration.openshift.io/devicemgr created
Ensure that Device Manager was actually enabled by confirming that /var/lib/kubelet/device-plugins/kubelet.sock is created on the node. This is the UNIX domain socket on which the Device Manager gRPC server listens for new plug-in registrations. This sock file is created when the Kubelet is started only if Device Manager is enabled.