Implement a new 'matchAny' directive in the new rule format, building on
top of the previously implemented 'matchFeatures' matcher. MatchAny
applies a logical OR over multiple matchFeatures directives. That is, it
allows specifying multiple alternative matchers (at least one of which
must match) in a single label rule.
The configuration format for the new matchers is
matchAny:
- matchFeatures:
- feature: <domain>.<feature>
matchExpressions:
<attribute>:
op: <operator>
value:
- <list-of-values>
- matchFeatures:
...
A configuration example. In order to require a cpu feature, kernel
module and one of two specific PCI devices (taking use of the shortform
notation):
- name: multi-device-test
labels:
multi-device-feature: "true"
matchFeatures:
- feature: kernel.loadedmodule
matchExpressions: [driver-module]
- feature: cpu.cpuid
matchExpressions: [AVX512F]
matchAny:
- matchFeatures:
- feature; pci.device
matchExpressions:
vendor: "8086"
device: "1234"
- matchFeatures:
- feature: pci.device
matchExpressions:
vendor: "8086"
device: "abcd"
Implement generic feature matchers that cover all feature sources (that
implement the FeatureSource interface). The implementation relies on the
unified data model provided by the FeatureSource interface as well as
the generic expression-based rule processing framework that was added to
the source/custom/expression package.
With this patch any new features added will be automatically available
for custom rules, without any additional work. Rule hierarchy follows
the source/feature hierarchy by design.
This patch introduces a new format for custom rule specifications,
dropping the 'value' field and introducing new 'labels' field which
makes it possible to specify multiple labels per rule. Also, in the new
format the 'name' field is just for reference and no matching label is
created. The new generic rules are available in this new rule format
under a 'matchFeatures. MatchFeatures implements a logical AND over
an array of per-feature matchers - i.e. a match for all of the matchers
is required. The goal of the new rule format is to make it better follow
K8s API design guidelines and make it extensible for future enhancements
(e.g. addition of templating, taints, annotations, extended resources
etc).
The old rule format (with cpuID, kConfig, loadedKMod, nodename, pciID,
usbID rules) is still supported. The rule format (new vs. old) is
determined at config parsing time based on the existence of the
'matchOn' field.
The new rule format and the configuration format for the new
matchFeatures field is
- name: <rule-name>
labels:
<key>: <value>
...
matchFeatures:
- feature: <domain>.<feature>
matchExpressions:
<attribute>:
op: <operator>
value:
- <list-of-values>
- feature: <domain>.<feature>
...
Currently, "cpu", "kernel", "pci", "system", "usb" and "local" sources
are covered by the matshers/feature selectors. Thus, the following
features are available for matching with this patch:
- cpu.cpuid:
<cpuid-flag>: <exists/does-not-exist>
- cpu.cstate:
enabled: <bool>
- cpu.pstate:
status: <string>
turbo: <bool>
scaling_governor: <string>
- cpu.rdt:
<rdt-feature>: <exists/does-not-exist>
- cpu.sst:
bf.enabled: <bool>
- cpu.topology:
hardware_multithreading: <bool>
- kernel.config:
<flag-name>: <string>
- kernel.loadedmodule:
<module-name>: <exists/does-not-exist>
- kernel.selinux:
enabled: <bool>
- kernel.version:
major: <int>
minor: <int>
revision: <int>
full: <string>
- system.osrelease:
<key-name>: <string>
VERSION_ID.major: <int>
VERSION_ID.minor: <int>
- system.name:
nodename: <string>
- pci.device:
<device-instance>:
class: <string>
vendor: <string>
device: <string>
subsystem_vendor: <string>
susbystem_device: <string>
sriov_totalvfs: <int>
- usb.device:
<device-instance>:
class: <string>
vendor: <string>
device: <string>
serial: <string>
- local.label:
<label-name>: <string>
The configuration also supports some "shortforms" for convenience:
matchExpressions: [<attr-1>, <attr-2>=<val-2>]
---
matchExpressions:
<attr-3>:
<attr-4>: <val-4>
is equal to:
matchExpressions:
<attr-1>: {op: Exists}
<attr-2>: {op: In, value: [<val-2>]}
---
matchExpressions:
<attr-3>: {op: Exists}
<attr-4>: {op: In, value: [<val-4>]}
In other words:
- feature: kernel.config
matchExpressions: ["X86", "INIT_ENV_ARG_LIMIT=32"]
- feature: pci.device
matchExpressions:
vendor: "8086"
is the same as:
- feature: kernel.config
matchExpressions:
X86: {op: Exists}
INIT_ENV_ARG_LIMIT: {op: In, values: ["32"]}
- feature: pci.device
matchExpressions:
vendor: {op: In, value: ["8086"]
Some configuration examples below. In order to match a CPUID feature the
following snippet can be used:
- name: cpu-test-1
labels:
cpu-custom-feature: "true"
matchFeatures:
- feature: cpu.cpuid
matchExpressions:
AESNI: {op: Exists}
AVX: {op: Exists}
In order to match against a loaded kernel module and OS version:
- name: kernel-test-1
labels:
kernel-custom-feature: "true"
matchFeatures:
- feature: kernel.loadedmodule
matchExpressions:
e1000: {op: Exists}
- feature: system.osrelease
matchExpressions:
NAME: {op: InRegexp, values: ["^openSUSE"]}
VERSION_ID.major: {op: Gt, values: ["14"]}
In order to require a kernel module and both of two specific PCI devices:
- name: multi-device-test
labels:
multi-device-feature: "true"
matchFeatures:
- feature: kernel.loadedmodule
matchExpressions:
driver-module: {op: Exists}
- pci.device:
vendor: "8086"
device: "1234"
- pci.device:
vendor: "8086"
device: "abcd"
- create an overlay for deployment of all components
- create an overlay for just topologyupdater deployment (to be deployed in
conjunction with the default overlay)
- create a separate overlay for deployment of master and topologyupdater-job
Signed-off-by: Swati Sehgal <swsehgal@redhat.com>
This commit makes the mount of /usr/src optional in the Helm chart, and
removes it from the kustomization. Reason is that some systems do not
have a /usr/src (such as Talos) *and* have a R/O filesystem. Since
/usr/src is optional per FHS 3.0, NFD should not assume its presence.
Signed-off-by: Jorik Jonker <jorik@kippendief.biz>
Replicates nfd-daemonset-combined.yaml.template.
In addition to the overlay we need to add a separate set of patches
under components/common in order to handle the double-container pod.
Implement functionality virtually replicating deployment templates for
nfd-master and nfd-worker daemonset (nfd-master.yaml.template and
nfd-worker-daemonset.yaml.template) by adding a kustomize overlay named
"default".
We split the resources into multiple bases (rbac, master and
worker-daemonset) so that relevant parts are re-usable in
other deployment scenarios added later (e.g. "one-shot job", and
"combined daemonset").
This patch adds one component (components/common) doing the required
kustomization for the example deployment.
