14 KiB
Node cleaning
Overview
Ironic provides two modes for node cleaning: automated
and manual
.
Automated cleaning
is automatically performed before the
first workload has been assigned to a node and when hardware is recycled
from one workload to another.
Manual cleaning
must be invoked by the operator.
Automated cleaning
When hardware is recycled from one workload to another, ironic performs automated cleaning on the node to ensure it's ready for another workload. This ensures the tenant will get a consistent bare metal node deployed every time.
Ironic implements automated cleaning by collecting a list of cleaning
steps to perform on a node from the Power, Deploy, Management, BIOS, and
RAID interfaces of the driver assigned to the node. These steps are then
ordered by priority and executed on the node when the node is moved to
cleaning
state, if automated cleaning is enabled.
With automated cleaning, nodes move to cleaning
state
when moving from active
-> available
state
(when the hardware is recycled from one workload to another). Nodes also
traverse cleaning when going from manageable
->
available
state (before the first workload is assigned to
the nodes). For a full understanding of all state transitions into
cleaning, please see states
.
Ironic added support for automated cleaning in the Kilo release.
Enabling automated cleaning
To enable automated cleaning, ensure that your ironic.conf is set as follows:
[conductor]
automated_clean=true
This will enable the default set of cleaning steps, based on your hardware and ironic hardware types used for nodes. This includes, by default, erasing all of the previous tenant's data.
You may also need to configure a Cleaning Network.
Cleaning steps
Cleaning steps used for automated cleaning are ordered from higher to lower priority, where a larger integer is a higher priority. In case of a conflict between priorities across interfaces, the following resolution order is used: Power, Management, Deploy, BIOS, and RAID interfaces.
You can skip a cleaning step by setting the priority for that cleaning step to zero or 'None'.
You can reorder the cleaning steps by modifying the integer priorities of the cleaning steps.
See How do I change the priority of a cleaning step? for more information.
Manual cleaning
Manual cleaning
is typically used to handle long
running, manual, or destructive tasks that an operator wishes to perform
either before the first workload has been assigned to a node or between
workloads. When initiating a manual clean, the operator specifies the
cleaning steps to be performed. Manual cleaning can only be performed
when a node is in the manageable
state. Once the manual
cleaning is finished, the node will be put in the
manageable
state again.
Ironic added support for manual cleaning in the 4.4 (Mitaka series) release.
Setup
In order for manual cleaning to work, you may need to configure a Cleaning Network.
Starting manual cleaning via API
Manual cleaning can only be performed when a node is in the
manageable
state. The REST API request to initiate it is
available in API version 1.15 and higher:
PUT /v1/nodes/<node_ident>/states/provision
(Additional information is available here.)
This API will allow operators to put a node directly into
cleaning
provision state from manageable
state
via 'target': 'clean'. The PUT will also require the argument
'clean_steps' to be specified. This is an ordered list of cleaning
steps. A cleaning step is represented by a dictionary (JSON), in the
form:
{
"interface": "<interface>",
"step": "<name of cleaning step>",
"args": {"<arg1>": "<value1>", ..., "<argn>": <valuen>}
}
The 'interface' and 'step' keys are required for all steps. If a cleaning step method takes keyword arguments, the 'args' key may be specified. It is a dictionary of keyword variable arguments, with each keyword-argument entry being <name>: <value>.
If any step is missing a required keyword argument, manual cleaning
will not be performed and the node will be put in
clean failed
provision state with an appropriate error
message.
If, during the cleaning process, a cleaning step determines that it
has incorrect keyword arguments, all earlier steps will be performed and
then the node will be put in clean failed
provision state
with an appropriate error message.
An example of the request body for this API:
{
"target":"clean",
"clean_steps": [{
"interface": "raid",
"step": "create_configuration",
"args": {"create_nonroot_volumes": false}
},
{
"interface": "deploy",
"step": "erase_devices"
}]
}
In the above example, the node's RAID interface would configure hardware RAID without non-root volumes, and then all devices would be erased (in that order).
Starting manual cleaning via "openstack metal" CLI
Manual cleaning is available via the
baremetal node clean
command, starting with Bare Metal API
version 1.15.
The argument --clean-steps
must be specified. Its value
is one of:
- a JSON string
- path to a JSON file whose contents are passed to the API
- '-', to read from stdin. This allows piping in the clean steps. Using '-' to signify stdin is common in Unix utilities.
The following examples assume that the Bare Metal API version was set
via the OS_BAREMETAL_API_VERSION
environment variable. (The
alternative is to add --os-baremetal-api-version 1.15
to
the command.):
export OS_BAREMETAL_API_VERSION=1.15
Examples of doing this with a JSON string:
baremetal node clean <node> \
--clean-steps '[{"interface": "deploy", "step": "erase_devices_metadata"}]'
baremetal node clean <node> \
--clean-steps '[{"interface": "deploy", "step": "erase_devices"}]'
Or with a file:
baremetal node clean <node> \
--clean-steps my-clean-steps.txt
Or with stdin:
cat my-clean-steps.txt | baremetal node clean <node> \
--clean-steps -
Cleaning Network
If you are using the Neutron DHCP provider (the default) you will
also need to ensure you have configured a cleaning network. This network
will be used to boot the ramdisk for in-band cleaning. You can use the
same network as your tenant network. For steps to set up the cleaning
network, please see configure-cleaning
.
In-band vs out-of-band
Ironic uses two main methods to perform actions on a node: in-band and out-of-band. Ironic supports using both methods to clean a node.
In-band
In-band steps are performed by ironic making API calls to a ramdisk running on the node using a deploy interface. Currently, all the deploy interfaces support in-band cleaning. By default, ironic-python-agent ships with a minimal cleaning configuration, only erasing disks. However, you can add your own cleaning steps and/or override default cleaning steps with a custom Hardware Manager.
Out-of-band
Out-of-band are actions performed by your management controller, such as IPMI, iLO, or DRAC. Out-of-band steps will be performed by ironic using a power or management interface. Which steps are performed depends on the hardware type and hardware itself.
For Out-of-Band cleaning operations supported by iLO hardware types,
refer to ilo_node_cleaning
.
FAQ
How are cleaning steps ordered?
For automated cleaning, cleaning steps are ordered by integer priority, where a larger integer is a higher priority. In case of a conflict between priorities across hardware interfaces, the following resolution order is used:
- Power interface
- Management interface
- Deploy interface
- BIOS interface
- RAID interface
For manual cleaning, the cleaning steps should be specified in the desired order.
How do I skip a cleaning step?
For automated cleaning, cleaning steps with a priority of 0 or None are skipped.
How do I change the priority of a cleaning step?
For manual cleaning, specify the cleaning steps in the desired order.
For automated cleaning, it depends on whether the cleaning steps are out-of-band or in-band.
Most out-of-band cleaning steps have an explicit configuration option for priority.
Changing the priority of an in-band (ironic-python-agent) cleaning
step requires use of a custom HardwareManager. The only exception is
erase_devices
, which can have its priority set in
ironic.conf. For instance, to disable erase_devices, you'd set the
following configuration option:
[deploy]
erase_devices_priority=0
To enable/disable the in-band disk erase using ilo
hardware type, use the following configuration option:
[ilo]
clean_priority_erase_devices=0
The generic hardware manager first identifies whether a device is an
NVMe drive or an ATA drive so that it can attempt a platform-specific
secure erase method. In case of NVMe drives, it tries to perform a
secure format operation by using the nvme-cli
utility. This
behavior can be controlled using the following configuration option (by
default it is set to True):
[deploy]
enable_nvme_secure_erase=True
In case of ATA drives, it tries to perform ATA disk erase by using
the hdparm
utility.
If neither method is supported, it performs software based disk erase
using the shred
utility. By default, the number of
iterations performed by shred
for software based disk erase
is 1. To configure the number of iterations, use the following
configuration option:
[deploy]
erase_devices_iterations=1
Overriding step priority
[conductor]clean_step_priority_override
is a new
configuration option which allows specifying priority of each step using
multiple configuration values:
[conductor]
clean_step_priority_override=deploy.erase_devices_metadata:123
clean_step_priority_override=management.reset_bios_to_default:234
clean_step_priority_override=management.clean_priority_reset_ilo:345
This parameter can be specified as many times as required to define priorities for several cleaning steps - the values will be combined.
What cleaning step is running?
To check what cleaning step the node is performing or attempted to
perform and failed, run the following command; it will return the value
in the node's driver_internal_info
field:
baremetal node show $node_ident -f value -c driver_internal_info
The clean_steps
field will contain a list of all
remaining steps with their priorities, and the first one listed is the
step currently in progress or that the node failed before going into
clean failed
state.
Should I disable automated cleaning?
Automated cleaning is recommended for ironic deployments, however,
there are some tradeoffs to having it enabled. For instance, ironic
cannot deploy a new instance to a node that is currently cleaning, and
cleaning can be a time consuming process. To mitigate this, we suggest
using NVMe drives with support for NVMe Secure Erase (based on
nvme-cli
format command) or ATA drives with support for
cryptographic ATA Security Erase, as typically the erase_devices step in
the deploy interface takes the longest time to complete of all cleaning
steps.
Why can't I power on/off a node while it's cleaning?
During cleaning, nodes may be performing actions that shouldn't be interrupted, such as BIOS or Firmware updates. As a result, operators are forbidden from changing power state via the ironic API while a node is cleaning.
Troubleshooting
If cleaning fails on a node, the node will be put into
clean failed
state. If the failure happens while running a
clean step, the node is also placed in maintenance mode to prevent
ironic from taking actions on the node. The operator should validate
that no permanent damage has been done to the node and no processes are
still running on it before removing the maintenance mode.
Note
Older versions of ironic may put the node to maintenance even when no clean step has been running.
Nodes in clean failed
will not be powered off, as the
node might be in a state such that powering it off could damage the node
or remove useful information about the nature of the cleaning
failure.
A clean failed
node can be moved to
manageable
state, where it cannot be scheduled by nova and
you can safely attempt to fix the node. To move a node from
clean failed
to manageable
:
baremetal node manage $node_ident
You can now take actions on the node, such as replacing a bad disk drive.
Strategies for determining why a cleaning step failed include checking the ironic conductor logs, viewing logs on the still-running ironic-python-agent (if an in-band step failed), or performing general hardware troubleshooting on the node.
When the node is repaired, you can move the node back to
available
state, to allow it to be scheduled by nova.
# First, move it out of maintenance mode
baremetal node maintenance unset $node_ident
# Now, make the node available for scheduling by nova
baremetal node provide $node_ident
The node will begin automated cleaning from the start, and move to
available
state when complete.