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Chapter 2. Driver Toolkit
Learn about the Driver Toolkit and how you can use it as a base image for driver containers for enabling special software and hardware devices on Kubernetes.
The Driver Toolkit is a Technology Preview feature only. Technology Preview features are not supported with Red Hat production service level agreements (SLAs) and might not be functionally complete. Red Hat does not recommend using them in production. These features provide early access to upcoming product features, enabling customers to test functionality and provide feedback during the development process.
For more information about the support scope of Red Hat Technology Preview features, see Technology Preview Features Support Scope.
2.1. About the Driver Toolkit
Background
The Driver Toolkit is a container image in the OpenShift Container Platform payload used as a base image on which you can build driver containers. The Driver Toolkit image contains the kernel packages commonly required as dependencies to build or install kernel modules, as well as a few tools needed in driver containers. The version of these packages will match the kernel version running on the Red Hat Enterprise Linux CoreOS (RHCOS) nodes in the corresponding OpenShift Container Platform release.
Driver containers are container images used for building and deploying out-of-tree kernel modules and drivers on container operating systems like RHCOS. Kernel modules and drivers are software libraries running with a high level of privilege in the operating system kernel. They extend the kernel functionalities or provide the hardware-specific code required to control new devices. Examples include hardware devices like Field Programmable Gate Arrays (FPGA) or GPUs, and software-defined storage (SDS) solutions, such as Lustre parallel file systems, which require kernel modules on client machines. Driver containers are the first layer of the software stack used to enable these technologies on Kubernetes.
The list of kernel packages in the Driver Toolkit includes the following and their dependencies:
-
kernel-core
-
kernel-devel
-
kernel-headers
-
kernel-modules
-
kernel-modules-extra
In addition, the Driver Toolkit also includes the corresponding real-time kernel packages:
-
kernel-rt-core
-
kernel-rt-devel
-
kernel-rt-modules
-
kernel-rt-modules-extra
The Driver Toolkit also has several tools which are commonly needed to build and install kernel modules, including:
-
elfutils-libelf-devel
-
kmod
-
binutilskabi-dw
-
kernel-abi-whitelists
- dependencies for the above
Purpose
Prior to the Driver Toolkit’s existence, you could install kernel packages in a pod or build config on OpenShift Container Platform using entitled builds or by installing from the kernel RPMs in the hosts machine-os-content
. The Driver Toolkit simplifies the process by removing the entitlement step, and avoids the privileged operation of accessing the machine-os-content in a pod. The Driver Toolkit can also be used by partners who have access to pre-released OpenShift Container Platform versions to prebuild driver-containers for their hardware devices for future OpenShift Container Platform releases.
The Driver Toolkit is also used by the Special Resource Operator (SRO), which is currently available as a community Operator on OperatorHub. SRO supports out-of-tree and third-party kernel drivers and the support software for the underlying operating system. Users can create recipes for SRO to build and deploy a driver container, as well as support software like a device plugin, or metrics. Recipes can include a build config to build a driver container based on the Driver Toolkit, or SRO can deploy a prebuilt driver container.
2.2. Pulling the Driver Toolkit container image
The driver-toolkit
image is available from the Container images section of the Red Hat Ecosystem Catalog and in the OpenShift Container Platform release payload. The image corresponding to the most recent minor release of OpenShift Container Platform will be tagged with the version number in the catalog. The image URL for a specific release can be found using the oc adm
CLI command.
2.2.1. Pulling the Driver Toolkit container image from registry.redhat.io
Instructions for pulling the driver-toolkit
image from registry.redhat.io
with podman or in OpenShift Container Platform can be found on the Red Hat Ecosystem Catalog. The driver-toolkit image for the latest minor release will be tagged with the minor release version on registry.redhat.io for example registry.redhat.io/openshift4/driver-toolkit-rhel8:v4.10
.
2.2.2. Finding the Driver Toolkit image URL in the payload
Prerequisites
- You obtained the image pull secret from the Red Hat OpenShift Cluster Manager.
-
You installed the OpenShift CLI (
oc
).
Procedure
The image URL of the
driver-toolkit
corresponding to a certain release can be extracted from the release image using theoc adm
command:$ oc adm release info 4.10.0 --image-for=driver-toolkit
Example output
quay.io/openshift-release-dev/ocp-v4.0-art-dev@sha256:0fd84aee79606178b6561ac71f8540f404d518ae5deff45f6d6ac8f02636c7f4
- This image can be pulled using a valid pull secret, such as the pull secret required to install OpenShift Container Platform.
$ podman pull --authfile=path/to/pullsecret.json quay.io/openshift-release-dev/ocp-v4.0-art-dev@sha256:<SHA>
2.3. Using the Driver Toolkit
As an example, the Driver Toolkit can be used as the base image for building a very simple kernel module called simple-kmod.
The Driver Toolkit contains the necessary dependencies, openssl
, mokutil
, and keyutils
, needed to sign a kernel module. However, in this example, the simple-kmod kernel module is not signed and therefore cannot be loaded on systems with Secure Boot
enabled.
2.3.1. Build and run the simple-kmod driver container on a cluster
Prerequisites
- You have a running OpenShift Container Platform cluster.
-
You set the Image Registry Operator state to
Managed
for your cluster. -
You installed the OpenShift CLI (
oc
). -
You are logged into the OpenShift CLI as a user with
cluster-admin
privileges.
Procedure
Create a namespace. For example:
$ oc new-project simple-kmod-demo
The YAML defines an
ImageStream
for storing thesimple-kmod
driver container image, and aBuildConfig
for building the container. Save this YAML as0000-buildconfig.yaml.template
.apiVersion: image.openshift.io/v1 kind: ImageStream metadata: labels: app: simple-kmod-driver-container name: simple-kmod-driver-container namespace: simple-kmod-demo spec: {} --- apiVersion: build.openshift.io/v1 kind: BuildConfig metadata: labels: app: simple-kmod-driver-build name: simple-kmod-driver-build namespace: simple-kmod-demo spec: nodeSelector: node-role.kubernetes.io/worker: "" runPolicy: "Serial" triggers: - type: "ConfigChange" - type: "ImageChange" source: git: ref: "master" uri: "https://github.com/openshift-psap/kvc-simple-kmod.git" type: Git dockerfile: | FROM DRIVER_TOOLKIT_IMAGE WORKDIR /build/ # Expecting kmod software version as an input to the build ARG KMODVER # Grab the software from upstream RUN git clone https://github.com/openshift-psap/simple-kmod.git WORKDIR simple-kmod # Build and install the module RUN make all KVER=$(rpm -q --qf "%{VERSION}-%{RELEASE}.%{ARCH}" kernel-core) KMODVER=${KMODVER} \ && make install KVER=$(rpm -q --qf "%{VERSION}-%{RELEASE}.%{ARCH}" kernel-core) KMODVER=${KMODVER} # Add the helper tools WORKDIR /root/kvc-simple-kmod ADD Makefile . ADD simple-kmod-lib.sh . ADD simple-kmod-wrapper.sh . ADD simple-kmod.conf . RUN mkdir -p /usr/lib/kvc/ \ && mkdir -p /etc/kvc/ \ && make install RUN systemctl enable kmods-via-containers@simple-kmod strategy: dockerStrategy: buildArgs: - name: KMODVER value: DEMO output: to: kind: ImageStreamTag name: simple-kmod-driver-container:demo
Substitute the correct driver toolkit image for the OpenShift Container Platform version you are running in place of “DRIVER_TOOLKIT_IMAGE” with the following commands.
$ OCP_VERSION=$(oc get clusterversion/version -ojsonpath={.status.desired.version})
$ DRIVER_TOOLKIT_IMAGE=$(oc adm release info $OCP_VERSION --image-for=driver-toolkit)
$ sed "s#DRIVER_TOOLKIT_IMAGE#${DRIVER_TOOLKIT_IMAGE}#" 0000-buildconfig.yaml.template > 0000-buildconfig.yaml
Create the image stream and build config with
$ oc create -f 0000-buildconfig.yaml
After the builder pod completes successfully, deploy the driver container image as a
DaemonSet
.The driver container must run with the privileged security context in order to load the kernel modules on the host. The following YAML file contains the RBAC rules and the
DaemonSet
for running the driver container. Save this YAML as1000-drivercontainer.yaml
.apiVersion: v1 kind: ServiceAccount metadata: name: simple-kmod-driver-container --- apiVersion: rbac.authorization.k8s.io/v1 kind: Role metadata: name: simple-kmod-driver-container rules: - apiGroups: - security.openshift.io resources: - securitycontextconstraints verbs: - use resourceNames: - privileged --- apiVersion: rbac.authorization.k8s.io/v1 kind: RoleBinding metadata: name: simple-kmod-driver-container roleRef: apiGroup: rbac.authorization.k8s.io kind: Role name: simple-kmod-driver-container subjects: - kind: ServiceAccount name: simple-kmod-driver-container userNames: - system:serviceaccount:simple-kmod-demo:simple-kmod-driver-container --- apiVersion: apps/v1 kind: DaemonSet metadata: name: simple-kmod-driver-container spec: selector: matchLabels: app: simple-kmod-driver-container template: metadata: labels: app: simple-kmod-driver-container spec: serviceAccount: simple-kmod-driver-container serviceAccountName: simple-kmod-driver-container containers: - image: image-registry.openshift-image-registry.svc:5000/simple-kmod-demo/simple-kmod-driver-container:demo name: simple-kmod-driver-container imagePullPolicy: Always command: ["/sbin/init"] lifecycle: preStop: exec: command: ["/bin/sh", "-c", "systemctl stop kmods-via-containers@simple-kmod"] securityContext: privileged: true nodeSelector: node-role.kubernetes.io/worker: ""
Create the RBAC rules and daemon set:
$ oc create -f 1000-drivercontainer.yaml
After the pods are running on the worker nodes, verify that the
simple_kmod
kernel module is loaded successfully on the host machines withlsmod
.Verify that the pods are running:
$ oc get pod -n simple-kmod-demo
Example output
NAME READY STATUS RESTARTS AGE simple-kmod-driver-build-1-build 0/1 Completed 0 6m simple-kmod-driver-container-b22fd 1/1 Running 0 40s simple-kmod-driver-container-jz9vn 1/1 Running 0 40s simple-kmod-driver-container-p45cc 1/1 Running 0 40s
Execute the
lsmod
command in the driver container pod:$ oc exec -it pod/simple-kmod-driver-container-p45cc -- lsmod | grep simple
Example output
simple_procfs_kmod 16384 0 simple_kmod 16384 0
2.4. Additional resources
- For more information about configuring registry storage for your cluster, see Image Registry Operator in OpenShift Container Platform.