In my homelab, I have different FTDI serial converters connected to
several utility meters. They all have identical vendor/device, but
different serials.
In order to detect a specific FTDI unit (eg. the one connected to my
electricity meter), I'd like feature labels triggered by a specific USB
serial.
Signed-off-by: Jorik Jonker <jorik@kippendief.biz>
Mount /usr/lib and /usr/src as /host-usr/lib and /host-usr/src inside the pod
to allow NFD to search for the kernel configuration file inside /usr.
This solves the problem of the kernel config file not being present in /boot
on s390x RHCOS.
Signed-off-by: Jan Schintag <jan.schintag@de.ibm.com>
This adds additional cpu features:
- pstate status from status of intel_pstate driver
- pstate scaling settings from scaling_governor
- cstate enable from max_cstates in intel_idle driver
The code should be stable enough. If there are fatal bugs causing the
discovery to panic/segfault that should be made visible instead of
semi-siently hiding it. Also, this caused one (negative) test case to
fail undetected which is now fixed.
There are cases when the only available metadata for discovering
features is the node's name. The "nodename" rule extends the custom
source and matches when the node's name matches one of the given
nodename regexp patterns.
It is also possible now to set an optional "value" on custom rules,
which overrides the default "true" label value in case the rule matches.
In order to allow more dynamic configurations without having to modify
the complete worker configuration, custom rules are additionally read
from a "custom.d" directory now. Typically that directory will be filled
by mounting one or more ConfigMaps.
Signed-off-by: Marc Sluiter <msluiter@redhat.com>
Trim illegal characters from the beginning and end of the kernel version
string. Label values must start and end with an alphanumeric and we want
to have some 'version.full' label, even if a sanitized one.
Skip to the next rule instead of returning immediately on
rule errors. For instance, if the static rules failed, user
provided rules would never be processed.
Signed-off-by: Mikko Ylinen <mikko.ylinen@intel.com>
This provides support for 32-bit ARM cpuid capabilities based on
the HWCAP flags, and enables the build of NFD on the 32-bit ARM
userland - notably, this also applies to ARM64 systems that are
running userspace in Aarch32 mode, which is where this problem
was first encountered.
Signed-off-by: Paul Mundt <paul.mundt@adaptant.io>
Instead of relying on golang "net" package, use the configured host
sysfs for all discovery. No need to use hostNetwork after that so drop
it from the worker deployment templates.
Extend the FeatureSource interface with new methods for configuration
handling. This enables easier on-the fly reconfiguration of the
feature sources. Further, it simplifies adding config support to feature
sources in the future. Stub methods are added to sources that do not
currently have any configurability.
The patch fixes some (corner) cases with the overrides (--options)
handling, too:
- Overrides were not applied if config file was missing or its parsing
failed
- Overrides for a certain source did not have effect if an empty config
for the source was specified in the config file. This was caused by
the first pass of parsing (config file) setting a nil pointer to the
source-specific config, effectively detaching it from the main config.
The second pass would then create a new instance of the source
specific config, but, this was not visible in the feature source, of
course.
This builds on the PCI support to enable the discovery of USB devices.
This is primarily intended to be used for the discovery of Edge-based
heterogeneous accelerators that are connected via USB, such as the Coral
USB Accelerator and the Intel NCS2 - our main motivation for adding this
capability to NFD, and as part of our work in the SODALITE H2020
project.
USB devices may define their base class at either the device or
interface levels. In the case where no device class is set, the
per-device interfaces are enumerated instead. USB devices may
furthermore have multiple interfaces, which may or may not use the
identical class across each interface. We therefore report device
existence for each unique class definition to enable more fine-grained
labelling and node selection.
The default labelling format includes the class, vendor and device
(product) IDs, as follows:
feature.node.kubernetes.io/usb-fe_1a6e_089a.present=true
As with PCI, a subset of device classes are whitelisted for matching.
By default, there are only a subset of device classes under which
accelerators tend to be mapped, which is used as the basis for
the whitelist. These are:
- Video
- Miscellaneous
- Application Specific
- Vendor Specific
For those interested in matching other classes, this may be extended
by using the UsbId rule provided through the custom source. A full
list of class codes is provided by the USB-IF at:
https://www.usb.org/defined-class-codes
For the moment, owing to a lack of a demonstrable use case, neither
the subclass nor the protocol information are exposed. If this
becomes necessary, support for these attributes can be trivially
added.
Signed-off-by: Paul Mundt <paul.mundt@adaptant.io>
Some Kernel versions include symbols such as "+".
Yocto L4T kernel is an example of this behaviour.
To fix this error all unknown symbols are replaced by an underscore.
Signed-off-by: Pablo Rodriguez <paroque28@gmail.com>
- Implement the 'custom' feature source utilizing the
match rules implemented in previous commit.
- Add a static custom feature list for:
1. rdma.capable - marks a node where devices that support
RDMA are present.
2. rdma.enabled - marks a node where rdma modules have
been loaded.
A user may extend these features with additional match rules via
NFD configuration file.
- Add a Rule interface to help describe the contract
between a match rule and the Custom source that uses it.
- Add PciIdRule - a rule that matches on the PCI attributes:
class, vendor, device. Each is provided as a list of elements(strings).
Match operation: OR will be performed per element and AND will be
performed per attribute.
An empty attribute will not be included in the matching process.
Example:
{
"class": ["0200"]
"vendor": ["15b3"]
"device": ["1014", "1016"]
}
- Add LoadedKmodRule - a rule that matches a list of kernel
modules with the kernel modules currently loaded in the node.
Example:
{
["rdma_cm", "ib_core"]
}
This will enable code reuse across sources while preventing
packages which are not under 'source' to import it.
subsequent commits will introduce the 'custom' source which
will use the logic.
SR-IOV is a PCI attribute and also non-NIC PCI devices can have it. Therefore,
it is useful to label all PCI devices with that capability.
After this commit the following labels for Intel NICs are overlapping:
feature.node.kubernetes.io/pci-0200_8086.sriov.capable=true
feature.node.kubernetes.io/network-sriov.capable=true
Signed-off-by: Mikko Ylinen <mikko.ylinen@intel.com>
Some workloads may benefit from Intel Turbo Boost technology being
disabled. This patch sets the
'feature.node.kubernetes.io/cpu-pstate.turbo' label to 'false' if we can
detect that it has been disabled. If detection fails no label is
published.
