Usage¶
Refer to api for information on the HTTP API. Refer to the client documentation for information on how to use CLI and Python library.
Using from Ironic API¶
Ironic Kilo introduced support for hardware introspection under name of “inspection”. ironic-inspector introspection is supported for some generic drivers, please refer to Ironic inspection documentation for details.
Node States¶
The nodes should be moved to
MANAGEABLE
provision state before introspection (requires python-ironicclient of version 0.5.0 or newer):openstack baremetal node manage <node>
After successful introspection and before deploying nodes should be made available to Nova, by moving them to
AVAILABLE
state:openstack baremetal node provide <node>
Note
Due to how Nova interacts with Ironic driver, you should wait 1 minute before Nova becomes aware of available nodes after issuing this command. Use
nova hypervisor-stats
command output to check it.
Introspection Rules¶
Inspector supports a simple JSON-based DSL to define rules to run during introspection. Inspector provides an API to manage such rules, and will run them automatically after running all processing hooks.
A rule consists of conditions to check, and actions to run. If conditions evaluate to true on the introspection data, then actions are run on a node.
Available conditions and actions are defined by plugins, and can be extended, see How To Contribute for details. See api for specific calls to define introspection rules.
Conditions¶
A condition is represented by an object with fields:
op
the type of comparison operation, default available operators include:
eq
,le
,ge
,ne
,lt
,gt
- basic comparison operators;in-net
- checks that an IP address is in a given network;matches
- requires a full match against a given regular expression;contains
- requires a value to contain a given regular expression;is-empty
- checks that field is an empty string, list, dict or None value.
field
a JSON path to the field
in the introspection data to use in comparison.
Starting with the Mitaka release, you can also apply conditions to ironic node
field. Prefix field with schema (data://
or node://
) to distinguish
between values from introspection data and node. Both schemes use JSON path:
{"field": "node://property.path", "op": "eq", "value": "val"}
{"field": "data://introspection.path", "op": "eq", "value": "val"}
if scheme (node or data) is missing, condition compares data with introspection data.
invert
boolean value, whether to invert the result of the comparison.
multiple
how to treat situations where the field
query returns multiple
results (e.g. the field contains a list), available options are:
any
(the default) require any to match,all
require all to match,first
requrie the first to match.
All other fields are passed to the condition plugin, e.g. numeric comparison
operations require a value
field to compare against.
Actions¶
An action is represented by an object with fields:
action
type of action. Possible values are defined by plugins.
All other fields are passed to the action plugin.
Default available actions include:
fail
fail introspection. Requires amessage
parameter for the failure message.set-attribute
sets an attribute on an Ironic node. Requires apath
field, which is the path to the attribute as used by ironic (e.g./properties/something
), and avalue
to set.set-capability
sets a capability on an Ironic node. Requiresname
andvalue
fields, which are the name and the value for a new capability accordingly. Existing value for this same capability is replaced.extend-attribute
the same asset-attribute
, but treats existing value as a list and appends value to it. If optionalunique
parameter is set toTrue
, nothing will be added if given value is already in a list.add-trait
adds a trait to an Ironic node. Requires aname
field with the name of the trait to add.remove-trait
removes a trait from an Ironic node. Requires aname
field with the name of the trait to remove.
Starting from Mitaka release, value
field in actions supports fetching data
from introspection, using python string formatting notation:
{"action": "set-attribute", "path": "/driver_info/ipmi_address",
"value": "{data[inventory][bmc_address]}"}
Note that any value referenced in this way will be converted to a string.
If value
is a dict or list, strings nested at any level within the
structure will be formatted as well:
{"action": "set-attribute", "path": "/properties/root_device",
"value": {"serial": "{data[root_device][serial]}"}}
Plugins¶
ironic-inspector heavily relies on plugins for data processing. Even the
standard functionality is largely based on plugins. Set processing_hooks
option in the configuration file to change the set of plugins to be run on
introspection data. Note that order does matter in this option, especially
for hooks that have dependencies on other hooks.
These are plugins that are enabled by default and should not be disabled, unless you understand what you’re doing:
scheduler
validates and updates basic hardware scheduling properties: CPU number and architecture, memory and disk size.
Note
Diskless nodes have the disk size property
local_gb == 0
. Always use node driverroot_device
hints to prevent unexpected HW failures passing silently.validate_interfaces
validates network interfaces information. Creates new ports, optionally deletes ports that were not present in the introspection data. Also sets the
pxe_enabled
flag for the PXE-booting port and unsets it for all the other ports to avoid nova picking a random port to boot the node.
The following plugins are enabled by default, but can be disabled if not needed:
ramdisk_error
reports error, if
error
field is set by the ramdisk, also optionally stores logs fromlogs
field, see api for details.capabilities
detect node capabilities: CPU, boot mode, etc. See Capabilities Detection for more details.
pci_devices
gathers the list of all PCI devices returned by the ramdisk and compares to those defined in
alias
field(s) frompci_devices
section of configuration file. The recognized PCI devices and their count are then stored in node properties. This information can be later used in nova flavors for node scheduling.
Here are some plugins that can be additionally enabled:
example
example plugin logging it’s input and output.
raid_device
gathers block devices from ramdisk and exposes root device in multiple runs.
extra_hardware
stores the value of the ‘data’ key returned by the ramdisk as a JSON encoded string in a Swift object. The plugin will also attempt to convert the data into a format usable by introspection rules. If this is successful then the new format will be stored in the ‘extra’ key. The ‘data’ key is then deleted from the introspection data, as unless converted it’s assumed unusable by introspection rules.
local_link_connection
Processes LLDP data returned from inspection specifically looking for the port ID and chassis ID, if found it configures the local link connection information on the nodes Ironic ports with that data. To enable LLDP in the inventory from IPA
ipa-collect-lldp=1
should be passed as a kernel parameter to the IPA ramdisk. In order to avoid processing the raw LLDP data twice, thelldp_basic
plugin should also be installed and run prior to this plugin.lldp_basic
Processes LLDP data returned from inspection and parses TLVs from the Basic Management (802.1AB), 802.1Q, and 802.3 sets and stores the processed data back to the Ironic inspector data in Swift.
Refer to How To Contribute for information on how to write your own plugin.
Discovery¶
Starting from Mitaka, ironic-inspector is able to register new nodes in Ironic.
The existing node-not-found-hook
handles what happens if
ironic-inspector receives inspection data from a node it can not identify.
This can happen if a node is manually booted without registering it with
Ironic first.
For discovery, the configuration file option node_not_found_hook
should be
set to load the hook called enroll
. This hook will enroll the unidentified
node into Ironic using the fake-hardware
hardware type. (This is
a configurable option; set enroll_node_driver
, in the ironic-inspector
configuration file, to the Ironic hardware type or classic driver you want.)
The enroll
hook will also set the ipmi_address
property on the new
node, if its available in the introspection data we received,
see ramdisk_callback.
Once the enroll
hook is finished, ironic-inspector will process the
introspection data in the same way it would for an identified node. It runs
the processing plugins, and after that it runs
introspection rules, which would allow for more customisable node
configuration, see rules.
A rule to set a node’s Ironic driver to ipmi
and populate the required
driver_info
for that driver would look like:
[{
"description": "Set IPMI driver_info if no credentials",
"actions": [
{"action": "set-attribute", "path": "driver", "value": "ipmi"},
{"action": "set-attribute", "path": "driver_info/ipmi_username",
"value": "username"},
{"action": "set-attribute", "path": "driver_info/ipmi_password",
"value": "password"}
],
"conditions": [
{"op": "is-empty", "field": "node://driver_info.ipmi_password"},
{"op": "is-empty", "field": "node://driver_info.ipmi_username"}
]
},{
"description": "Set deploy info if not already set on node",
"actions": [
{"action": "set-attribute", "path": "driver_info/deploy_kernel",
"value": "<glance uuid>"},
{"action": "set-attribute", "path": "driver_info/deploy_ramdisk",
"value": "<glance uuid>"}
],
"conditions": [
{"op": "is-empty", "field": "node://driver_info.deploy_ramdisk"},
{"op": "is-empty", "field": "node://driver_info.deploy_kernel"}
]
}]
All nodes discovered and enrolled via the enroll
hook, will contain an
auto_discovered
flag in the introspection data, this flag makes it
possible to distinguish between manually enrolled nodes and auto-discovered
nodes in the introspection rules using the rule condition eq
:
{
"description": "Enroll auto-discovered nodes with ipmi hardware type",
"actions": [
{"action": "set-attribute", "path": "driver", "value": "ipmi"}
],
"conditions": [
{"op": "eq", "field": "data://auto_discovered", "value": true}
]
}
Reapplying introspection on stored data¶
To allow correcting mistakes in introspection rules the API provides an entry point that triggers the introspection over stored data. The data to use for processing is kept in Swift separately from the data already processed. Reapplying introspection overwrites processed data in the store. Updating the introspection data through the endpoint isn’t supported yet. Following preconditions are checked before reapplying introspection:
no data is being sent along with the request
Swift store is configured and enabled
introspection data is stored in Swift for the node UUID
node record is kept in database for the UUID
introspection is not ongoing for the node UUID
Should the preconditions fail an immediate response is given to the user:
400
if the request contained data or in case Swift store is not enabled in configuration404
in case Ironic doesn’t keep track of the node UUID409
if an introspection is already ongoing for the node
If the preconditions are met a background task is executed to carry
out the processing and a 202 Accepted
response is returned to the
endpoint user. As requested, these steps are performed in the
background task:
preprocessing hooks
post processing hooks, storing result in Swift
introspection rules
These steps are avoided, based on the feature requirements:
node_not_found_hook
is skippedpower operations
roll-back actions done by hooks
Limitations:
there’s no way to update the unprocessed data atm.
the unprocessed data is never cleaned from the store
check for stored data presence is performed in background; missing data situation still results in a
202
response
Capabilities Detection¶
Starting with the Newton release, Ironic Inspector can optionally discover several node capabilities. A recent (Newton or newer) IPA image is required for it to work.
Boot mode¶
The current boot mode (BIOS or UEFI) can be detected and recorded as
boot_mode
capability in Ironic. It will make some drivers to change their
behaviour to account for this capability. Set the [capabilities]boot_mode
configuration option to True
to enable.
CPU capabilities¶
Several CPU flags are detected by default and recorded as following capabilities:
cpu_aes
AES instructions.cpu_vt
virtualization support.cpu_txt
TXT support.cpu_hugepages
huge pages (2 MiB) support.cpu_hugepages_1g
huge pages (1 GiB) support.
It is possible to define your own rules for detecting CPU capabilities.
Set the [capabilities]cpu_flags
configuration option to a mapping between
a CPU flag and a capability, for example:
cpu_flags = aes:cpu_aes,svm:cpu_vt,vmx:cpu_vt
See the default value of this option for a more detail example.
InfiniBand support¶
Starting with the Ocata release, Ironic Inspector supports detection of
InfiniBand network interfaces. A recent (Ocata or newer) IPA image is required
for that to work. When an InfiniBand network interface is discovered, the
Ironic Inspector adds a client-id
attribute to the extra
attribute
in the ironic port. The Ironic Inspector should be configured with
iptables.ethoib_interfaces
to indicate the Ethernet Over InfiniBand (EoIB)
which are used for physical access to the DHCP network.
For example if Ironic Inspector DHCP server is using br-inspector
and
the br-inspector
has EoIB port e.g. eth0
,
the iptables.ethoib_interfaces
should be set to eth0
.
The iptables.ethoib_interfaces
allows to map the baremetal GUID to it’s
EoIB MAC based on the neighs files. This is needed for blocking DHCP traffic
of the nodes (MACs) which are not part of the introspection.
The format of the /sys/class/net/<ethoib>/eth/neighs
file:
# EMAC=<ethernet mac of the ethoib> IMAC=<qp number:lid:GUID>
# For example:
IMAC=97:fe:80:00:00:00:00:00:00:7c:fe:90:03:00:29:26:52
qp number=97:fe
lid=80:00:00:00:00:00:00
GUID=7c:fe:90:03:00:29:26:52
Example of content:
EMAC=02:00:02:97:00:01 IMAC=97:fe:80:00:00:00:00:00:00:7c:fe:90:03:00:29:26:52
EMAC=02:00:00:61:00:02 IMAC=61:fe:80:00:00:00:00:00:00:7c:fe:90:03:00:29:24:4f