mirror of
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An attempt to organize the Makefile variables a bit further. The idea is to only document variables that are really intended for build customization and initialize all these variables in the Makefile with '=?' so that they can be specified in the environment (and not just with variable overrides). Thus, this patch drops some variables from the README and change the initialization of some variables in the Makefile so that the two files would be in sync.
1030 lines
44 KiB
Markdown
1030 lines
44 KiB
Markdown
# Node feature discovery for [Kubernetes](https://kubernetes.io)
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[](https://travis-ci.org/kubernetes-sigs/node-feature-discovery)
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[](https://goreportcard.com/report/github.com/kubernetes-sigs/node-feature-discovery)
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[](https://prow.k8s.io/job-history/gs/kubernetes-jenkins/pr-logs/directory/pull-node-feature-discovery-build-image)
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- [Overview](#overview)
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- [Command line interface](#command-line-interface)
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- [Feature discovery](#feature-discovery)
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- [Feature sources](#feature-sources)
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- [Feature labels](#feature-labels)
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- [Extended resources (experimental)](#extended-resources-experimental)
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- [Getting started](#getting-started)
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- [System requirements](#system-requirements)
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- [Usage](#usage)
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- [Building from source](#building-from-source)
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- [Targeting nodes with specific features](#targeting-nodes-with-specific-features)
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- [Community](#community)
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- [References](#references)
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- [License](#license)
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- [Demo](#demo)
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## Overview
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This software enables node feature discovery for Kubernetes. It detects
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hardware features available on each node in a Kubernetes cluster, and advertises
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those features using node labels.
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NFD consists of two software components:
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1. **nfd-master** is responsible for labeling Kubernetes node objects
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2. **nfd-worker** is detects features and communicates them to nfd-master.
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One instance of nfd-worker is supposed to be run on each node of the cluster
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## Command line interface
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You can run NFD in stand-alone Docker containers e.g. for testing
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purposes. This is useful for checking features-detection.
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### NFD-Master
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When running as a standalone container labeling is expected to fail because
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Kubernetes API is not available. Thus, it is recommended to use `--no-publish`
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command line flag. E.g.
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```
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$ docker run --rm --name=nfd-test <NFD_CONTAINER_IMAGE> nfd-master --no-publish
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2019/02/01 14:48:21 Node Feature Discovery Master <NFD_VERSION>
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2019/02/01 14:48:21 gRPC server serving on port: 8080
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```
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Command line flags of nfd-master:
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```
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$ docker run --rm <NFD_CONTAINER_IMAGE> nfd-master --help
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...
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Usage:
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nfd-master [--prune] [--no-publish] [--label-whitelist=<pattern>] [--port=<port>]
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[--ca-file=<path>] [--cert-file=<path>] [--key-file=<path>]
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[--verify-node-name] [--extra-label-ns=<list>] [--resource-labels=<list>]
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[--kubeconfig=<path>]
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nfd-master -h | --help
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nfd-master --version
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Options:
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-h --help Show this screen.
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--version Output version and exit.
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--prune Prune all NFD related attributes from all nodes
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of the cluster and exit.
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--kubeconfig=<path> Kubeconfig to use [Default: ]
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--port=<port> Port on which to listen for connections.
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[Default: 8080]
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--ca-file=<path> Root certificate for verifying connections
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[Default: ]
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--cert-file=<path> Certificate used for authenticating connections
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[Default: ]
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--key-file=<path> Private key matching --cert-file
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[Default: ]
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--verify-node-name Verify worker node name against CN from the TLS
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certificate. Only has effect when TLS authentication
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has been enabled.
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--no-publish Do not publish feature labels
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--label-whitelist=<pattern> Regular expression to filter label names to
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publish to the Kubernetes API server.
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NB: the label namespace is omitted i.e. the filter
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is only applied to the name part after '/'.
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[Default: ]
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--extra-label-ns=<list> Comma separated list of allowed extra label namespaces
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[Default: ]
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--resource-labels=<list> Comma separated list of labels to be exposed as extended resources.
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[Default: ]
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```
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### NFD-Worker
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In order to run nfd-worker as a "stand-alone" container against your
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standalone nfd-master you need to run them in the same network namespace:
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```
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$ docker run --rm --network=container:nfd-test <NFD_CONTAINER_IMAGE> nfd-worker
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2019/02/01 14:48:56 Node Feature Discovery Worker <NFD_VERSION>
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...
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```
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If you just want to try out feature discovery without connecting to nfd-master,
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pass the `--no-publish` flag to nfd-worker.
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Command line flags of nfd-worker:
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```
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$ docker run --rm <CONTAINER_IMAGE_ID> nfd-worker --help
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...
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nfd-worker.
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Usage:
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nfd-worker [--no-publish] [--sources=<sources>] [--label-whitelist=<pattern>]
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[--oneshot | --sleep-interval=<seconds>] [--config=<path>]
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[--options=<config>] [--server=<server>] [--server-name-override=<name>]
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[--ca-file=<path>] [--cert-file=<path>] [--key-file=<path>]
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nfd-worker -h | --help
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nfd-worker --version
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Options:
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-h --help Show this screen.
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--version Output version and exit.
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--config=<path> Config file to use.
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[Default: /etc/kubernetes/node-feature-discovery/nfd-worker.conf]
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--options=<config> Specify config options from command line. Config
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options are specified in the same format as in the
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config file (i.e. json or yaml). These options
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will override settings read from the config file.
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[Default: ]
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--ca-file=<path> Root certificate for verifying connections
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[Default: ]
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--cert-file=<path> Certificate used for authenticating connections
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[Default: ]
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--key-file=<path> Private key matching --cert-file
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[Default: ]
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--server=<server> NFD server address to connecto to.
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[Default: localhost:8080]
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--server-name-override=<name> Name (CN) expect from server certificate, useful
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in testing
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[Default: ]
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--sources=<sources> Comma separated list of feature sources.
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[Default: cpu,custom,iommu,kernel,local,memory,network,pci,storage,system,usb]
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--no-publish Do not publish discovered features to the
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cluster-local Kubernetes API server.
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--label-whitelist=<pattern> Regular expression to filter label names to
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publish to the Kubernetes API server.
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NB: the label namespace is omitted i.e. the filter
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is only applied to the name part after '/'.
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[Default: ]
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--oneshot Label once and exit.
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--sleep-interval=<seconds> Time to sleep between re-labeling. Non-positive
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value implies no re-labeling (i.e. infinite
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sleep). [Default: 60s]
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```
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**NOTE** Some feature sources need certain directories and/or files from the
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host mounted inside the NFD container. Thus, you need to provide Docker with the
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correct `--volume` options in order for them to work correctly when run
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stand-alone directly with `docker run`. See the
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[template spec](https://github.com/kubernetes-sigs/node-feature-discovery/blob/master/nfd-worker-daemonset.yaml.template)
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for up-to-date information about the required volume mounts.
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## Feature discovery
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### Feature sources
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The current set of feature sources are the following:
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- CPU
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- Custom
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- IOMMU
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- Kernel
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- Memory
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- Network
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- PCI
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- Storage
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- System
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- USB
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- Local (hooks for user-specific features)
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### Feature labels
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The published node labels encode a few pieces of information:
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- Namespace, i.e. `feature.node.kubernetes.io`
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- The source for each label (e.g. `cpu`).
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- The name of the discovered feature as it appears in the underlying
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source, (e.g. `cpuid.AESNI` from cpu).
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- The value of the discovered feature.
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Feature label names adhere to the following pattern:
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```
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<namespace>/<source name>-<feature name>[.<attribute name>]
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```
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The last component (i.e. `attribute-name`) is optional, and only used if a
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feature logically has sub-hierarchy, e.g. `sriov.capable` and
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`sriov.configure` from the `network` source.
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```json
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{
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"feature.node.kubernetes.io/cpu-<feature-name>": "true",
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"feature.node.kubernetes.io/custom-<feature-name>": "true",
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"feature.node.kubernetes.io/iommu-<feature-name>": "true",
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"feature.node.kubernetes.io/kernel-<feature name>": "<feature value>",
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"feature.node.kubernetes.io/memory-<feature-name>": "true",
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"feature.node.kubernetes.io/network-<feature-name>": "true",
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"feature.node.kubernetes.io/pci-<device label>.present": "true",
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"feature.node.kubernetes.io/storage-<feature-name>": "true",
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"feature.node.kubernetes.io/system-<feature name>": "<feature value>",
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"feature.node.kubernetes.io/usb-<device label>.present": "<feature value>",
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"feature.node.kubernetes.io/<file name>-<feature name>": "<feature value>"
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}
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```
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The `--sources` flag controls which sources to use for discovery.
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_Note: Consecutive runs of nfd-worker will update the labels on a
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given node. If features are not discovered on a consecutive run, the corresponding
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label will be removed. This includes any restrictions placed on the consecutive run,
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such as restricting discovered features with the --label-whitelist option._
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### CPU Features
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| Feature name | Attribute | Description |
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| ----------------------- | ------------------ | ----------------------------- |
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| cpuid | <cpuid flag> | CPU capability is supported
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| hardware_multithreading | <br> | Hardware multithreading, such as Intel HTT, enabled (number of logical CPUs is greater than physical CPUs)
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| power | sst_bf.enabled | Intel SST-BF ([Intel Speed Select Technology][intel-sst] - Base frequency) enabled
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| [pstate][intel-pstate] | turbo | Set to 'true' if turbo frequencies are enabled in Intel pstate driver, set to 'false' if they have been disabled.
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| [rdt][intel-rdt] | RDTMON | Intel RDT Monitoring Technology
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| <br> | RDTCMT | Intel Cache Monitoring (CMT)
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| <br> | RDTMBM | Intel Memory Bandwidth Monitoring (MBM)
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| <br> | RDTL3CA | Intel L3 Cache Allocation Technology
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| <br> | RDTL2CA | Intel L2 Cache Allocation Technology
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| <br> | RDTMBA | Intel Memory Bandwidth Allocation (MBA) Technology
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The (sub-)set of CPUID attributes to publish is configurable via the
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`attributeBlacklist` and `attributeWhitelist` cpuid options of the cpu source.
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If whitelist is specified, only whitelisted attributes will be published. With
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blacklist, only blacklisted attributes are filtered out. `attributeWhitelist`
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has priority over `attributeBlacklist`. For examples and more information
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about configurability, see [Configuration Options](#configuration-options).
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By default, the following CPUID flags have been blacklisted:
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BMI1, BMI2, CLMUL, CMOV, CX16, ERMS, F16C, HTT, LZCNT, MMX, MMXEXT, NX, POPCNT,
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RDRAND, RDSEED, RDTSCP, SGX, SSE, SSE2, SSE3, SSE4.1, SSE4.2 and SSSE3.
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**NOTE** The cpuid features advertise *supported* CPU capabilities, that is, a
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capability might be supported but not enabled.
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#### X86 CPUID Attributes (Partial List)
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| Attribute | Description |
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| --------- | ---------------------------------------------------------------- |
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| ADX | Multi-Precision Add-Carry Instruction Extensions (ADX)
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| AESNI | Advanced Encryption Standard (AES) New Instructions (AES-NI)
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| AVX | Advanced Vector Extensions (AVX)
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| AVX2 | Advanced Vector Extensions 2 (AVX2)
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#### Arm CPUID Attribute (Partial List)
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| Attribute | Description |
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| --------- | ---------------------------------------------------------------- |
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| IDIVA | Integer divide instructions available in ARM mode
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| IDIVT | Integer divide instructions available in Thumb mode
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| THUMB | Thumb instructions
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| FASTMUL | Fast multiplication
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| VFP | Vector floating point instruction extension (VFP)
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| VFPv3 | Vector floating point extension v3
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| VFPv4 | Vector floating point extension v4
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| VFPD32 | VFP with 32 D-registers
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| HALF | Half-word loads and stores
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| EDSP | DSP extensions
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| NEON | NEON SIMD instructions
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| LPAE | Large Physical Address Extensions
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#### Arm64 CPUID Attribute (Partial List)
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| Attribute | Description |
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| --------- | ---------------------------------------------------------------- |
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| AES | Announcing the Advanced Encryption Standard
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| EVSTRM | Event Stream Frequency Features
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| FPHP | Half Precision(16bit) Floating Point Data Processing Instructions
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| ASIMDHP | Half Precision(16bit) Asimd Data Processing Instructions
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| ATOMICS | Atomic Instructions to the A64
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| ASIMRDM | Support for Rounding Double Multiply Add/Subtract
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| PMULL | Optional Cryptographic and CRC32 Instructions
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| JSCVT | Perform Conversion to Match Javascript
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| DCPOP | Persistent Memory Support
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### Custom Features
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The Custom feature source allows the user to define features based on a mix of predefined rules.
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A rule is provided input witch affects its process of matching for a defined feature.
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To aid in making Custom Features clearer, we define a general and a per rule nomenclature, keeping things as
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consistent as possible.
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#### General Nomenclature & Definitions
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```
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Rule :Represents a matching logic that is used to match on a feature.
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Rule Input :The input a Rule is provided. This determines how a Rule performs the match operation.
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Matcher :A composition of Rules, each Matcher may be composed of at most one instance of each Rule.
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```
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#### Custom Features Format (using the Nomenclature defined above)
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```yaml
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- name: <feature name>
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matchOn:
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- <Rule-1>: <Rule-1 Input>
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[<Rule-2>: <Rule-2 Input>]
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- <Matcher-2>
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- ...
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- ...
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- <Matcher-N>
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- <custom feature 2>
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- ...
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- ...
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- <custom feature M>
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```
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#### Matching process
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Specifying Rules to match on a feature is done by providing a list of Matchers.
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Each Matcher contains one or more Rules.
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Logical _OR_ is performed between Matchers and logical _AND_ is performed between Rules
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of a given Matcher.
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#### Rules
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##### PciId Rule
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###### Nomenclature
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```
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Attribute :A PCI attribute.
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Element :An identifier of the PCI attribute.
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```
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The PciId Rule allows matching the PCI devices in the system on the following Attributes: `class`,`vendor` and
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`device`. A list of Elements is provided for each Attribute.
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###### Format
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```yaml
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pciId :
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class: [<class id>, ...]
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vendor: [<vendor id>, ...]
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device: [<device id>, ...]
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```
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Matching is done by performing a logical _OR_ between Elements of an Attribute and logical _AND_ between the specified Attributes for
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each PCI device in the system.
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At least one Attribute must be specified. Missing attributes will not partake in the matching process.
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##### UsbId Rule
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###### Nomenclature
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```
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Attribute :A USB attribute.
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Element :An identifier of the USB attribute.
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```
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The UsbId Rule allows matching the USB devices in the system on the following Attributes: `class`,`vendor` and
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`device`. A list of Elements is provided for each Attribute.
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###### Format
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```yaml
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usbId :
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class: [<class id>, ...]
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vendor: [<vendor id>, ...]
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device: [<device id>, ...]
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```
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Matching is done by performing a logical _OR_ between Elements of an Attribute and logical _AND_ between the specified Attributes for
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each USB device in the system.
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At least one Attribute must be specified. Missing attributes will not partake in the matching process.
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##### LoadedKMod Rule
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###### Nomenclature
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```
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Element :A kernel module
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```
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The LoadedKMod Rule allows matching the loaded kernel modules in the system against a provided list of Elements.
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###### Format
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```yaml
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loadedKMod : [<kernel module>, ...]
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```
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Matching is done by performing logical _AND_ for each provided Element, i.e the Rule will match if all provided Elements (kernel modules) are loaded
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in the system.
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#### Example
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```yaml
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custom:
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- name: "my.kernel.feature"
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matchOn:
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- loadedKMod: ["kmod1", "kmod2"]
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- name: "my.pci.feature"
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matchOn:
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- pciId:
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vendor: ["15b3"]
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device: ["1014", "1017"]
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- name: "my.usb.feature"
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matchOn:
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- usbId:
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vendor: ["1d6b"]
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device: ["0003"]
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- name: "my.combined.feature"
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matchOn:
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- loadedKMod : ["vendor_kmod1", "vendor_kmod2"]
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pciId:
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vendor: ["15b3"]
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device: ["1014", "1017"]
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- name: "my.accumulated.feature"
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matchOn:
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- loadedKMod : ["some_kmod1", "some_kmod2"]
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- pciId:
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vendor: ["15b3"]
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device: ["1014", "1017"]
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```
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__In the example above:__
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- A node would contain the label: `feature.node.kubernetes.io/custom-my.kernel.feature=true`
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if the node has `kmod1` _AND_ `kmod2` kernel modules loaded.
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- A node would contain the label: `feature.node.kubernetes.io/custom-my.pci.feature=true`
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if the node contains a PCI device with a PCI vendor ID of `15b3` _AND_ PCI device ID of `1014` _OR_ `1017`.
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- A node would contain the label: `feature.node.kubernetes.io/custom-my.usb.feature=true`
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if the node contains a USB device with a USB vendor ID of `1d6b` _AND_ USB device ID of `0003`.
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- A node would contain the label: `feature.node.kubernetes.io/custom-my.combined.feature=true`
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if `vendor_kmod1` _AND_ `vendor_kmod2` kernel modules are loaded __AND__ the node contains a PCI device
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with a PCI vendor ID of `15b3` _AND_ PCI device ID of `1014` _or_ `1017`.
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- A node would contain the label: `feature.node.kubernetes.io/custom-my.accumulated.feature=true`
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if `some_kmod1` _AND_ `some_kmod2` kernel modules are loaded __OR__ the node contains a PCI device
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with a PCI vendor ID of `15b3` _AND_ PCI device ID of `1014` _OR_ `1017`.
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#### Statically defined features
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Some feature labels which are common and generic are defined statically in the `custom` feature source.
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A user may add additional Matchers to these feature labels by defining them in the `nfd-worker` configuration file.
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| Feature | Attribute | Description |
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| ------- | --------- | -----------|
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| rdma | capable | The node has an RDMA capable Network adapter |
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| rdma | enabled | The node has the needed RDMA modules loaded to run RDMA traffic |
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### IOMMU Features
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|
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| Feature name | Description |
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| :------------: | :---------------------------------------------------------------------------------: |
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| enabled | IOMMU is present and enabled in the kernel
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|
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### Kernel Features
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|
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| Feature | Attribute | Description |
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| ------- | ------------------- | -------------------------------------------- |
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| config | <option name> | Kernel config option is enabled (set 'y' or 'm').<br> Default options are `NO_HZ`, `NO_HZ_IDLE`, `NO_HZ_FULL` and `PREEMPT`
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| selinux | enabled | Selinux is enabled on the node
|
|
| version | full | Full kernel version as reported by `/proc/sys/kernel/osrelease` (e.g. '4.5.6-7-g123abcde')
|
|
| <br> | major | First component of the kernel version (e.g. '4')
|
|
| <br> | minor | Second component of the kernel version (e.g. '5')
|
|
| <br> | revision | Third component of the kernel version (e.g. '6')
|
|
|
|
Kernel config file to use, and, the set of config options to be detected are
|
|
configurable.
|
|
See [configuration options](#configuration-options) for more information.
|
|
|
|
### Memory Features
|
|
|
|
| Feature | Attribute | Description |
|
|
| ------- | --------- | ------------------------------------------------------ |
|
|
| numa | <br> | Multiple memory nodes i.e. NUMA architecture detected
|
|
| nv | present | NVDIMM device(s) are present
|
|
| nv | dax | NVDIMM region(s) configured in DAX mode are present
|
|
|
|
### Network Features
|
|
|
|
| Feature | Attribute | Description |
|
|
| ------- | ---------- | ----------------------------------------------------- |
|
|
| sriov | capable | [Single Root Input/Output Virtualization][sriov] (SR-IOV) enabled Network Interface Card(s) present
|
|
| <br> | configured | SR-IOV virtual functions have been configured
|
|
|
|
### PCI Features
|
|
|
|
| Feature | Attribute | Description |
|
|
| -------------------- | ------------- | ----------------------------------------- |
|
|
| <device label> | present | PCI device is detected
|
|
| <device label> | sriov.capable | [Single Root Input/Output Virtualization][sriov] (SR-IOV) enabled PCI device present
|
|
|
|
`<device label>` is composed of raw PCI IDs, separated by underscores.
|
|
The set of fields used in `<device label>` is configurable, valid fields being
|
|
`class`, `vendor`, `device`, `subsystem_vendor` and `subsystem_device`.
|
|
Defaults are `class` and `vendor`. An example label using the default
|
|
label fields:
|
|
```
|
|
feature.node.kubernetes.io/pci-1200_8086.present=true
|
|
```
|
|
|
|
Also the set of PCI device classes that the feature source detects is
|
|
configurable. By default, device classes (0x)03, (0x)0b40 and (0x)12, i.e.
|
|
GPUs, co-processors and accelerator cards are detected.
|
|
|
|
### USB Features
|
|
|
|
| Feature | Attribute | Description |
|
|
| -------------------- | ------------- | ----------------------------------------- |
|
|
| <device label> | present | USB device is detected
|
|
|
|
`<device label>` is composed of raw USB IDs, separated by underscores.
|
|
The set of fields used in `<device label>` is configurable, valid fields being
|
|
`class`, `vendor`, and `device`.
|
|
Defaults are `class`, `vendor` and `device`. An example label using the default
|
|
label fields:
|
|
```
|
|
feature.node.kubernetes.io/usb-fe_1a6e_089a.present=true
|
|
```
|
|
|
|
See [configuration options](#configuration-options)
|
|
for more information on NFD config.
|
|
|
|
### Storage Features
|
|
|
|
| Feature name | Description |
|
|
| :--------------: | :---------------------------------------------------------------------------------: |
|
|
| nonrotationaldisk | Non-rotational disk, like SSD, is present in the node
|
|
|
|
### System Features
|
|
|
|
| Feature | Attribute | Description |
|
|
| ----------- | ---------------- | --------------------------------------------|
|
|
| os_release | ID | Operating system identifier
|
|
| <br> | VERSION_ID | Operating system version identifier (e.g. '6.7')
|
|
| <br> | VERSION_ID.major | First component of the OS version id (e.g. '6')
|
|
| <br> | VERSION_ID.minor | Second component of the OS version id (e.g. '7')
|
|
|
|
### Feature Detector Hooks (User-specific Features)
|
|
|
|
NFD has a special feature source named *local* which is designed for getting the
|
|
labels from user-specific feature detector. It provides a mechanism for users to
|
|
implement custom feature sources in a pluggable way, without modifying nfd
|
|
source code or Docker images. The local feature source can be used to advertise
|
|
new user-specific features, and, for overriding labels created by the other
|
|
feature sources.
|
|
|
|
The *local* feature source gets its labels by two different ways:
|
|
* It tries to execute files found under `/etc/kubernetes/node-feature-discovery/source.d/`
|
|
directory. The hook files must be executable and they are supposed to print all
|
|
discovered features in `stdout`, one per line. With ELF binaries static
|
|
linking is recommended as the selection of system libraries available in the
|
|
NFD release image is very limited. Other runtimes currently supported by the
|
|
NFD stock image are bash and perl.
|
|
* It reads files found under `/etc/kubernetes/node-feature-discovery/features.d/`
|
|
directory. The file content is expected to be similar to the hook output (described above).
|
|
|
|
These directories must be available inside the Docker image so Volumes and
|
|
VolumeMounts must be used if standard NFD images are used. The given template
|
|
files mount by default the `source.d` and the `features.d` directories
|
|
respectively from `/etc/kubernetes/node-feature-discovery/source.d/` and
|
|
`/etc/kubernetes/node-feature-discovery/features.d/` from the host. You should
|
|
update them to match your needs.
|
|
|
|
In both cases, the labels can be binary or non binary, using either `<name>` or
|
|
`<name>=<value>` format.
|
|
|
|
Unlike the other feature sources, the name of the file, instead of the name of
|
|
the feature source (that would be `local` in this case), is used as a prefix in
|
|
the label name, normally. However, if the `<name>` of the label starts with a
|
|
slash (`/`) it is used as the label name as is, without any additional prefix.
|
|
This makes it possible for the user to fully control the feature label names,
|
|
e.g. for overriding labels created by other feature sources.
|
|
|
|
You can also override the default namespace of your labels using this format:
|
|
`<namespace>/<name>[=<value>]`. You must whitelist your namespace using the
|
|
`--extra-label-ns` option on the master. In this case, the name of the
|
|
file will not be added to the label name. For example, if you want to add the
|
|
label `my.namespace.org/my-label=value`, your hook output or file must contains
|
|
`my.namespace.org/my-label=value` and you must add
|
|
`--extra-label-ns=my.namespace.org` on the master command line.
|
|
|
|
`stderr` output of the hooks is propagated to NFD log so it can be used for
|
|
debugging and logging.
|
|
|
|
#### Injecting Labels from Other Pods
|
|
|
|
One use case for the hooks and/or feature files is detecting features in other
|
|
Pods outside NFD, e.g. in Kubernetes device plugins. It is possible to mount
|
|
the `source.d` and/or `features.d` directories common with the NFD Pod and
|
|
deploy the custom hooks/features there. NFD will periodically scan the
|
|
directories and run any hooks and read any feature files it finds. The
|
|
[example nfd-worker deployment template](https://github.com/kubernetes-sigs/node-feature-discovery/blob/master/nfd-worker-daemonset.yaml.template#L69)
|
|
contains `hostPath` mounts for `sources.d` and `features.d` directories. By
|
|
using the same mounts in the secondary Pod (e.g. device plugin) you have
|
|
created a shared area for delivering hooks and feature files to NFD.
|
|
|
|
|
|
#### A Hook Example
|
|
|
|
User has a shell script
|
|
`/etc/kubernetes/node-feature-discovery/source.d/my-source` which has the
|
|
following `stdout` output:
|
|
```
|
|
MY_FEATURE_1
|
|
MY_FEATURE_2=myvalue
|
|
/override_source-OVERRIDE_BOOL
|
|
/override_source-OVERRIDE_VALUE=123
|
|
override.namespace/value=456
|
|
```
|
|
which, in turn, will translate into the following node labels:
|
|
```
|
|
feature.node.kubernetes.io/my-source-MY_FEATURE_1=true
|
|
feature.node.kubernetes.io/my-source-MY_FEATURE_2=myvalue
|
|
feature.node.kubernetes.io/override_source-OVERRIDE_BOOL=true
|
|
feature.node.kubernetes.io/override_source-OVERRIDE_VALUE=123
|
|
override.namespace/value=456
|
|
```
|
|
|
|
#### A File Example
|
|
|
|
User has a file
|
|
`/etc/kubernetes/node-feature-discovery/features.d/my-source` which contains the
|
|
following lines:
|
|
```
|
|
MY_FEATURE_1
|
|
MY_FEATURE_2=myvalue
|
|
/override_source-OVERRIDE_BOOL
|
|
/override_source-OVERRIDE_VALUE=123
|
|
override.namespace/value=456
|
|
```
|
|
which, in turn, will translate into the following node labels:
|
|
```
|
|
feature.node.kubernetes.io/my-source-MY_FEATURE_1=true
|
|
feature.node.kubernetes.io/my-source-MY_FEATURE_2=myvalue
|
|
feature.node.kubernetes.io/override_source-OVERRIDE_BOOL=true
|
|
feature.node.kubernetes.io/override_source-OVERRIDE_VALUE=123
|
|
override.namespace/value=456
|
|
```
|
|
|
|
NFD tries to run any regular files found from the hooks directory. Any
|
|
additional data files your hook might need (e.g. a configuration file) should
|
|
be placed in a separate directory in order to avoid NFD unnecessarily trying to
|
|
execute these. You can use a subdirectory under the hooks directory, for
|
|
example `/etc/kubernetes/node-feature-discovery/source.d/conf/`.
|
|
|
|
**NOTE!** NFD will blindly run any executables placed/mounted in the hooks
|
|
directory. It is the user's responsibility to review the hooks for e.g.
|
|
possible security implications.
|
|
|
|
**NOTE!** Be careful when creating and/or updating hook or feature files while
|
|
NFD is running. In order to avoid race conditions you should write into a
|
|
temporary file (outside the `source.d` and `features.d` directories), and,
|
|
atomically create/update the original file by doing a filesystem move
|
|
operation.
|
|
|
|
## Extended resources (experimental)
|
|
|
|
This feature is experimental and by no means a replacement for the usage of
|
|
device plugins.
|
|
|
|
Labels which have integer values, can be promoted to Kubernetes extended
|
|
resources by listing them to the master `--resource-labels` command line flag.
|
|
These labels won't then show in the node label section, they will appear only
|
|
as extended resources.
|
|
|
|
An example use-case for the extended resources could be based on a hook which
|
|
creates a label for the node SGX EPC memory section size. By giving the name of
|
|
that label in the `--resource-labels` flag, that value will then turn into an
|
|
extended resource of the node, allowing PODs to request that resource and the
|
|
Kubernetes scheduler to schedule such PODs to only those nodes which have a
|
|
sufficient capacity of said resource left.
|
|
|
|
Similar to labels, the default namespace `feature.node.kubernetes.io` is
|
|
automatically prefixed to the extended resource, if the promoted label doesn't
|
|
have a namespace.
|
|
|
|
Example usage of the command line arguments, using a new namespace:
|
|
`nfd-master --resource-labels=my_source-my.feature,sgx.some.ns/epc --extra-label-ns=sgx.some.ns`
|
|
|
|
The above would result in following extended resources provided that related
|
|
labels exist:
|
|
```
|
|
sgx.some.ns/epc: <label value>
|
|
feature.node.kubernetes.io/my_source-my.feature: <label value>
|
|
```
|
|
|
|
## Getting started
|
|
|
|
For a stable version with ready-built images see the
|
|
[latest released version](https://github.com/kubernetes-sigs/node-feature-discovery/tree/v0.6.0) ([release notes](https://github.com/kubernetes-sigs/node-feature-discovery/releases/latest)).
|
|
|
|
If you want to use the latest development version (master branch) you need to
|
|
[build your own custom image](#building-from-source).
|
|
|
|
### System requirements
|
|
|
|
1. Linux (x86_64/Arm64/Arm)
|
|
1. [kubectl][kubectl-setup] (properly set up and configured to work with your
|
|
Kubernetes cluster)
|
|
1. [Docker][docker-down] (only required to build and push docker images)
|
|
|
|
### Usage
|
|
|
|
#### nfd-master
|
|
|
|
Nfd-master runs as a deployment (with a replica count of 1), by default
|
|
it prefers running on the cluster's master nodes but will run on worker
|
|
nodes if no master nodes are found.
|
|
|
|
For High Availability, you should simply increase the replica count of
|
|
the deployment object. You should also look into adding [inter-pod](https://kubernetes.io/docs/concepts/configuration/assign-pod-node/#affinity-and-anti-affinity)
|
|
affinity to prevent masters from running on the same node.
|
|
However note that inter-pod affinity is costly and is not recommended
|
|
in bigger clusters.
|
|
|
|
You can use the template spec provided to deploy nfd-master, or
|
|
use `nfd-master.yaml` generated by `Makefile`. The latter includes
|
|
`image:` and `namespace:` definitions that match the latest built
|
|
image. Example:
|
|
```
|
|
make IMAGE_TAG=<IMAGE_TAG>
|
|
docker push <IMAGE_TAG>
|
|
kubectl create -f nfd-master.yaml
|
|
```
|
|
Nfd-master listens for connections from nfd-worker(s) and connects to the
|
|
Kubernetes API server to add node labels advertised by them.
|
|
|
|
If you have RBAC authorization enabled (as is the default e.g. with clusters
|
|
initialized with kubeadm) you need to configure the appropriate ClusterRoles,
|
|
ClusterRoleBindings and a ServiceAccount in order for NFD to create node
|
|
labels. The provided template will configure these for you.
|
|
|
|
|
|
#### nfd-worker
|
|
|
|
Nfd-worker is preferably run as a Kubernetes DaemonSet. There is an
|
|
example spec (`nfd-worker-daemonset.yaml.template`) that can be used
|
|
as a template, or, as is when just trying out the service. Similarly
|
|
to nfd-master above, the `Makefile` also generates
|
|
`nfd-worker-daemonset.yaml` from the template that you can use to
|
|
deploy the latest image. Example:
|
|
```
|
|
make IMAGE_TAG=<IMAGE_TAG>
|
|
docker push <IMAGE_TAG>
|
|
kubectl create -f nfd-worker-daemonset.yaml
|
|
```
|
|
|
|
Nfd-worker connects to the nfd-master service to advertise hardware features.
|
|
|
|
When run as a daemonset, nodes are re-labeled at an interval specified using
|
|
the `--sleep-interval` option. In the
|
|
[template](https://github.com/kubernetes-sigs/node-feature-discovery/blob/master/nfd-worker-daemonset.yaml.template#L26)
|
|
the default interval is set to 60s which is also the default when no
|
|
`--sleep-interval` is specified. Also, the configuration file is re-read on
|
|
each iteration providing a simple mechanism of run-time reconfiguration.
|
|
|
|
Feature discovery can alternatively be configured as a one-shot job. There is
|
|
an example script in this repo that demonstrates how to deploy the job in the cluster.
|
|
|
|
```
|
|
./label-nodes.sh [<IMAGE_TAG>]
|
|
```
|
|
|
|
The label-nodes.sh script tries to launch as many jobs as there are Ready nodes.
|
|
Note that this approach does not guarantee running once on every node.
|
|
For example, if some node is tainted NoSchedule or fails to start a job for some other reason, then some other node will run extra job instance(s) to satisfy the request and the tainted/failed node does not get labeled.
|
|
|
|
#### nfd-master and nfd-worker in the same Pod
|
|
|
|
You can also run nfd-master and nfd-worker inside a single pod (skip the `sed`
|
|
part if running the latest released version):
|
|
```
|
|
sed -E s',^(\s*)image:.+$,\1image: <YOUR_IMAGE_REPO>:<YOUR_IMAGE_TAG>,' nfd-daemonset-combined.yaml.template > nfd-daemonset-combined.yaml
|
|
kubectl apply -f nfd-daemonset-combined.yaml
|
|
```
|
|
Similar to the nfd-worker setup above, this creates a DaemonSet that schedules
|
|
an NFD Pod an all worker nodes, with the difference that the Pod also also
|
|
contains an nfd-master instance. In this case no nfd-master service is run on
|
|
the master node(s), but, the worker nodes are able to label themselves.
|
|
|
|
This may be desirable e.g. in single-node setups.
|
|
|
|
#### TLS authentication
|
|
|
|
NFD supports mutual TLS authentication between the nfd-master and nfd-worker
|
|
instances. That is, nfd-worker and nfd-master both verify that the other end
|
|
presents a valid certificate.
|
|
|
|
TLS authentication is enabled by specifying `--ca-file`, `--key-file` and
|
|
`--cert-file` args, on both the nfd-master and nfd-worker instances.
|
|
The template specs provided with NFD contain (commented out) example
|
|
configuration for enabling TLS authentication.
|
|
|
|
The Common Name (CN) of the nfd-master certificate must match the DNS name of
|
|
the nfd-master Service of the cluster. By default, nfd-master only check that
|
|
the nfd-worker has been signed by the specified root certificate (--ca-file).
|
|
Additional hardening can be enabled by specifying --verify-node-name in
|
|
nfd-master args, in which case nfd-master verifies that the NodeName presented
|
|
by nfd-worker matches the Common Name (CN) of its certificate. This means that
|
|
each nfd-worker requires a individual node-specific TLS certificate.
|
|
|
|
|
|
#### Usage demo
|
|
|
|
[](https://asciinema.org/a/247316)
|
|
|
|
### Configuration options
|
|
|
|
Nfd-worker supports a configuration file. The default location is
|
|
`/etc/kubernetes/node-feature-discovery/nfd-worker.conf`, but,
|
|
this can be changed by specifying the`--config` command line flag.
|
|
Configuration file is re-read on each labeling pass (determined by
|
|
`--sleep-interval`) which makes run-time re-configuration of nfd-worker
|
|
possible.
|
|
|
|
Worker configuration file is read inside the container, and thus, Volumes and
|
|
VolumeMounts are needed to make your configuration available for NFD. The
|
|
preferred method is to use a ConfigMap which provides easy deployment and
|
|
re-configurability. For example, create a config map using the example config
|
|
as a template:
|
|
```
|
|
cp nfd-worker.conf.example nfd-worker.conf
|
|
vim nfd-worker.conf # edit the configuration
|
|
kubectl create configmap nfd-worker-config --from-file=nfd-worker.conf
|
|
```
|
|
Then, configure Volumes and VolumeMounts in the Pod spec (just the relevant
|
|
snippets shown below):
|
|
```
|
|
...
|
|
containers:
|
|
volumeMounts:
|
|
- name: nfd-worker-config
|
|
mountPath: "/etc/kubernetes/node-feature-discovery/"
|
|
...
|
|
volumes:
|
|
- name: nfd-worker-config
|
|
configMap:
|
|
name: nfd-worker-config
|
|
...
|
|
```
|
|
You could also use other types of volumes, of course. That is, hostPath if
|
|
different config for different nodes would be required, for example.
|
|
|
|
The (empty-by-default)
|
|
[example config](https://github.com/kubernetes-sigs/node-feature-discovery/blob/master/nfd-worker.conf.example)
|
|
is used as a config in the NFD Docker image. Thus, this can be used as a default
|
|
configuration in custom-built images.
|
|
|
|
Configuration options can also be specified via the `--options` command line
|
|
flag, in which case no mounts need to be used. The same format as in the config
|
|
file must be used, i.e. JSON (or YAML). For example:
|
|
```
|
|
--options='{"sources": { "pci": { "deviceClassWhitelist": ["12"] } } }'
|
|
```
|
|
Configuration options specified from the command line will override those read
|
|
from the config file.
|
|
|
|
Currently, the only available configuration options are related to the
|
|
[CPU](#cpu-features), [PCI](#pci-features) and [Kernel](#kernel-features)
|
|
feature sources.
|
|
|
|
## Building from source
|
|
|
|
**Download the source code:**
|
|
|
|
```
|
|
git clone https://github.com/kubernetes-sigs/node-feature-discovery
|
|
```
|
|
|
|
**Build the container image:**<br>
|
|
See [customizing the build](#customizing-the-build) below for altering the
|
|
container image registry, for example.
|
|
|
|
```
|
|
cd <project-root>
|
|
make
|
|
```
|
|
|
|
**Push the container image:**<br>
|
|
Optional, this example with Docker.
|
|
|
|
```
|
|
docker push <IMAGE_TAG>
|
|
```
|
|
|
|
**Change the job spec to use your custom image (optional):**
|
|
|
|
To use your published image from the step above instead of the
|
|
`k8s.gcr.io/nfd/node-feature-discovery` image, edit `image`
|
|
attribute in the spec template(s) to the new location
|
|
(`<registry-name>/<image-name>[:<version>]`).
|
|
|
|
### Customizing the Build
|
|
|
|
There are several Makefile variables that control the build process and the
|
|
name of the resulting container image.
|
|
|
|
| Variable | Description | Default value
|
|
| -------------------------- | ----------------------------------------------------------------- | ----------- |
|
|
| HOSTMOUNT_PREFIX | Prefix of system directories for feature discovery (local builds) | / (*local builds*) /host- (*container builds*)
|
|
| IMAGE_BUILD_CMD | Command to build the image | docker build
|
|
| IMAGE_BUILD_EXTRA_OPTS | Extra options to pass to build command | *empty*
|
|
| IMAGE_PUSH_CMD | Command to push the image to remote registry | docker push
|
|
| IMAGE_REGISTRY | Container image registry to use | k8s.gcr.io/nfd
|
|
| IMAGE_TAG_NAME | Container image tag name | <nfd version>
|
|
| IMAGE_EXTRA_TAG_NAMES | Additional container image tag(s) to create when building image | *empty*
|
|
| K8S_NAMESPACE | nfd-master and nfd-worker namespace | kube-system
|
|
| KUBECONFIG | Kubeconfig for running e2e-tests | *empty*
|
|
| E2E_TEST_CONFIG | Parameterization file of e2e-tests (see [example](test/e2e/e2e-test-config.exapmle.yaml)) | *empty*
|
|
|
|
For example, to use a custom registry:
|
|
|
|
```
|
|
make IMAGE_REGISTRY=<my custom registry uri>
|
|
|
|
```
|
|
|
|
Or to specify a build tool different from Docker:
|
|
|
|
It can be done in 2 ways, by pre-defining the variable
|
|
|
|
```
|
|
IMAGE_BUILD_CMD="buildah bud" make
|
|
```
|
|
|
|
Or By overriding the variable value
|
|
|
|
```
|
|
make IMAGE_BUILD_CMD="buildah bud"
|
|
```
|
|
|
|
### Testing
|
|
|
|
Unit tests are automatically run as part of the container image build. You can
|
|
also run them manually in the source code tree by simply running:
|
|
```
|
|
make test
|
|
```
|
|
|
|
End-to-end tests are built on top of the e2e test framework of Kubernetes, and,
|
|
they required a cluster to run them on. For running the tests on your test
|
|
cluster you need to specify the kubeconfig to be used:
|
|
```
|
|
make e2e-test KUBECONFIG=$HOME/.kube/config
|
|
```
|
|
|
|
## Targeting Nodes with Specific Features
|
|
|
|
Nodes with specific features can be targeted using the `nodeSelector` field. The
|
|
following example shows how to target nodes with Intel TurboBoost enabled.
|
|
|
|
```yaml
|
|
apiVersion: v1
|
|
kind: Pod
|
|
metadata:
|
|
labels:
|
|
env: test
|
|
name: golang-test
|
|
spec:
|
|
containers:
|
|
- image: golang
|
|
name: go1
|
|
nodeSelector:
|
|
feature.node.kubernetes.io/cpu-pstate.turbo: 'true'
|
|
```
|
|
|
|
For more details on targeting nodes, see [node selection][node-sel].
|
|
|
|
## Node Annotations
|
|
|
|
NFD annotates nodes it is running on:
|
|
|
|
| Annotation | Description
|
|
| ----------------------------------------- | -----------
|
|
| nfd.node.kubernetes.io/master.version | Version of the nfd-master instance running on the node. Informative use only.
|
|
| nfd.node.kubernetes.io/worker.version | Version of the nfd-worker instance running on the node. Informative use only.
|
|
| nfd.node.kubernetes.io/feature-labels | Comma-separated list of node labels managed by NFD. NFD uses this internally so must not be edited by users.
|
|
| nfd.node.kubernetes.io/extended-resources | Comma-separated list of node extended resources managed by NFD. NFD uses this internally so must not be edited by users.
|
|
|
|
Unapplicable annotations are not created, i.e. for example master.version is only created on nodes running nfd-master.
|
|
|
|
## Community
|
|
|
|
You can reach us via the following channels:
|
|
|
|
- [#node-feature-discovery](https://kubernetes.slack.com/messages/node-feature-discovery) channel in
|
|
[Kubernetes Slack](slack.k8s.io)
|
|
- [SIG-Node](https://groups.google.com/g/kubernetes-sig-node) mailing list
|
|
- File an [issue](https://github.com/kubernetes-sigs/node-feature-discovery/issues/new) in this repository
|
|
|
|
|
|
## References
|
|
|
|
Github issues
|
|
|
|
- [#28310](https://github.com/kubernetes/kubernetes/issues/28310)
|
|
- [#28311](https://github.com/kubernetes/kubernetes/issues/28311)
|
|
- [#28312](https://github.com/kubernetes/kubernetes/issues/28312)
|
|
|
|
[Design proposal](https://docs.google.com/document/d/1uulT2AjqXjc_pLtDu0Kw9WyvvXm-WAZZaSiUziKsr68/edit)
|
|
|
|
## Governance
|
|
|
|
This is a [SIG-node](https://github.com/kubernetes/community/blob/master/sig-node/README.md)
|
|
subproject, hosted under the
|
|
[Kubernetes SIGs](https://github.com/kubernetes-sigs) organization in
|
|
Github. The project was established in 2016 as a
|
|
[Kubernetes Incubator](https://github.com/kubernetes/community/blob/master/incubator.md)
|
|
project and migrated to Kubernetes SIGs in 2018.
|
|
|
|
## License
|
|
|
|
This is open source software released under the [Apache 2.0 License](LICENSE).
|
|
|
|
## Demo
|
|
|
|
A demo on the benefits of using node feature discovery can be found in [demo](demo/).
|
|
|
|
<!-- Links -->
|
|
[cpuid]: http://man7.org/linux/man-pages/man4/cpuid.4.html
|
|
[intel-rdt]: http://www.intel.com/content/www/us/en/architecture-and-technology/resource-director-technology.html
|
|
[intel-pstate]: https://www.kernel.org/doc/Documentation/cpu-freq/intel-pstate.txt
|
|
[intel-sst]: https://www.intel.com/content/www/us/en/architecture-and-technology/speed-select-technology-article.html
|
|
[sriov]: http://www.intel.com/content/www/us/en/pci-express/pci-sig-sr-iov-primer-sr-iov-technology-paper.html
|
|
[docker-down]: https://docs.docker.com/install
|
|
[golang-down]: https://golang.org/dl
|
|
[gcc-down]: https://gcc.gnu.org
|
|
[kubectl-setup]: https://kubernetes.io/docs/tasks/tools/install-kubectl
|
|
[node-sel]: http://kubernetes.io/docs/user-guide/node-selection
|