67f2eaf3b5
This commit updates the documentation on iLO drivers support for in-band cleaning. Also updates the cleaning documentation with in-band cleaning support on more drivers. Change-Id: I2c2677ce996b3016c4709afcfec78e5f7e2bdf1c
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.. _cleaning:
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=============
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Node cleaning
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=============
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Overview
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========
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Ironic provides two modes for node cleaning: ``automated`` and ``manual``.
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``Automated cleaning`` is automatically performed before the first
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workload has been assigned to a node and when hardware is recycled from
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one workload to another.
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``Manual cleaning`` must be invoked by the operator.
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.. _automated_cleaning:
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Automated cleaning
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==================
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When hardware is recycled from one workload to another, ironic performs
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automated cleaning on the node to ensure it's ready for another workload. This
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ensures the tenant will get a consistent bare metal node deployed every time.
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Ironic implements automated cleaning by collecting a list of cleaning steps
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to perform on a node from the Power, Deploy, Management, and RAID interfaces
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of the driver assigned to the node. These steps are then ordered by priority
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and executed on the node when the node is moved
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to ``cleaning`` state, if automated cleaning is enabled.
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With automated cleaning, nodes move to ``cleaning`` state when moving from
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``active`` -> ``available`` state (when the hardware is recycled from one
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workload to another). Nodes also traverse cleaning when going from
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``manageable`` -> ``available`` state (before the first workload is
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assigned to the nodes). For a full understanding of all state transitions
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into cleaning, please see :ref:`states`.
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Ironic added support for automated cleaning in the Kilo release.
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.. _enabling-cleaning:
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Enabling automated cleaning
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---------------------------
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To enable automated cleaning, ensure that your ironic.conf is set as follows.
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(Prior to Mitaka, this option was named 'clean_nodes'.)::
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[conductor]
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automated_clean=true
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This will enable the default set of cleaning steps, based on your hardware and
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ironic drivers. If you're using an agent_* driver, this includes, by default,
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erasing all of the previous tenant's data.
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You may also need to configure a `Cleaning Network`_.
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Cleaning steps
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--------------
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Cleaning steps used for automated cleaning are ordered from higher to lower
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priority, where a larger integer is a higher priority. In case of a conflict
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between priorities across drivers, the following resolution order is used:
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Power, Management, Deploy, and RAID interfaces.
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You can skip a cleaning step by setting the priority for that cleaning step
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to zero or 'None'.
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You can reorder the cleaning steps by modifying the integer priorities of the
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cleaning steps.
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See `How do I change the priority of a cleaning step?`_ for more information.
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.. _manual_cleaning:
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Manual cleaning
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===============
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``Manual cleaning`` is typically used to handle long running, manual, or
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destructive tasks that an operator wishes to perform either before the first
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workload has been assigned to a node or between workloads. When initiating a
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manual clean, the operator specifies the cleaning steps to be performed.
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Manual cleaning can only be performed when a node is in the ``manageable``
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state. Once the manual cleaning is finished, the node will be put in the
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``manageable`` state again.
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Ironic added support for manual cleaning in the 4.4 (Mitaka series)
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release.
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Setup
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-----
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In order for manual cleaning to work, you may need to configure a
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`Cleaning Network`_.
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Starting manual cleaning via API
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--------------------------------
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Manual cleaning can only be performed when a node is in the ``manageable``
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state. The REST API request to initiate it is available in API version 1.15 and
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higher::
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PUT /v1/nodes/<node_ident>/states/provision
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(Additional information is available `here <http://docs.openstack.org/developer/ironic/webapi/v1.html#nodes>`_.)
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This API will allow operators to put a node directly into ``cleaning``
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provision state from ``manageable`` state via 'target': 'clean'.
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The PUT will also require the argument 'clean_steps' to be specified. This
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is an ordered list of cleaning steps. A cleaning step is represented by a
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dictionary (JSON), in the form::
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{
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"interface": "<interface>",
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"step": "<name of cleaning step>",
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"args": {"<arg1>": "<value1>", ..., "<argn>": <valuen>}
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}
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The 'interface' and 'step' keys are required for all steps. If a cleaning step
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method takes keyword arguments, the 'args' key may be specified. It
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is a dictionary of keyword variable arguments, with each keyword-argument entry
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being <name>: <value>.
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If any step is missing a required keyword argument, manual cleaning will not be
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performed and the node will be put in ``clean failed`` provision state with an
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appropriate error message.
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If, during the cleaning process, a cleaning step determines that it has
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incorrect keyword arguments, all earlier steps will be performed and then the
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node will be put in ``clean failed`` provision state with an appropriate error
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message.
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An example of the request body for this API::
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{
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"target":"clean",
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"clean_steps": [{
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"interface": "raid",
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"step": "create_configuration",
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"args": {"create_nonroot_volumes": false}
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},
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{
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"interface": "deploy",
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"step": "erase_devices"
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}]
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}
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In the above example, the driver's RAID interface would configure hardware
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RAID without non-root volumes, and then all devices would be erased
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(in that order).
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Starting manual cleaning via ``ironic`` CLI
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-------------------------------------------
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Manual cleaning is supported in the ``ironic node-set-provision-state``
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command, starting with python-ironicclient 1.2.
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The target/verb is 'clean' and the argument 'clean-steps' must be specified.
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Its value is one of:
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- a JSON string
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- path to a JSON file whose contents are passed to the API
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- '-', to read from stdin. This allows piping in the clean steps.
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Using '-' to signify stdin is common in Unix utilities.
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Keep in mind that manual cleaning is only supported in API version 1.15 and
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higher.
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An example of doing this with a JSON string::
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ironic --ironic-api-version 1.15 node-set-provision-state \
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clean --clean-steps '[...]'
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Or with a file::
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ironic --ironic-api-version 1.15 node-set-provision-state \
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clean --clean-steps my-clean-steps.txt
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Or with stdin::
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cat my-clean-steps.txt | ironic --ironic-api-version 1.15 \
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node-set-provision-state clean --clean-steps -
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Cleaning Network
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================
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If you are using the Neutron DHCP provider (the default) you will also need to
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ensure you have configured a cleaning network. This network will be used to
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boot the ramdisk for in-band cleaning. You can use the same network as your
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tenant network. For steps to set up the cleaning network, please see
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:ref:`CleaningNetworkSetup`.
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.. _InbandvsOutOfBandCleaning:
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In-band vs out-of-band
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======================
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Ironic uses two main methods to perform actions on a node: in-band and
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out-of-band. Ironic supports using both methods to clean a node.
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In-band
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-------
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In-band steps are performed by ironic making API calls to a ramdisk running
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on the node using a Deploy driver. Currently, all the drivers using
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ironic-python-agent ramdisk support in-band cleaning. By default,
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ironic-python-agent ships with a minimal cleaning configuration, only erasing
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disks. However, with this ramdisk, you can add your own cleaning steps and/or
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override default cleaning steps with a custom Hardware Manager.
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Out-of-band
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-----------
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Out-of-band are actions performed by your management controller, such as IPMI,
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iLO, or DRAC. Out-of-band steps will be performed by ironic using a Power or
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Management driver. Which steps are performed depends on the driver and hardware.
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For Out-of-Band cleaning operations supported by iLO drivers, refer to
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:ref:`ilo_node_cleaning`.
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FAQ
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===
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How are cleaning steps ordered?
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-------------------------------
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For automated cleaning, cleaning steps are ordered by integer priority, where
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a larger integer is a higher priority. In case of a conflict between priorities
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across drivers, the following resolution order is used: Power, Management,
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Deploy, and RAID interfaces.
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For manual cleaning, the cleaning steps should be specified in the desired
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order.
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How do I skip a cleaning step?
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------------------------------
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For automated cleaning, cleaning steps with a priority of 0 or None are skipped.
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How do I change the priority of a cleaning step?
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------------------------------------------------
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For manual cleaning, specify the cleaning steps in the desired order.
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For automated cleaning, it depends on whether the cleaning steps are
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out-of-band or in-band.
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Most out-of-band cleaning steps have an explicit configuration option for
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priority.
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Changing the priority of an in-band (ironic-python-agent) cleaning step
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requires use of a custom HardwareManager. The only exception is
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``erase_devices``, which can have its priority set in ironic.conf. For instance,
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to disable erase_devices, you'd set the following configuration option::
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[deploy]
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erase_devices_priority=0
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To enable/disable the in-band disk erase using ``agent_ilo`` driver, use the
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following configuration option::
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[ilo]
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clean_priority_erase_devices=0
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The generic hardware manager first tries to perform ATA disk erase by using
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``hdparm`` utility. If ATA disk erase is not supported, it performs software
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based disk erase using ``shred`` utility. By default, the number of iterations
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performed by ``shred`` for software based disk erase is 1. To configure
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the number of iterations, use the following configuration option::
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[deploy]
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erase_devices_iterations=1
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What cleaning step is running?
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------------------------------
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To check what cleaning step the node is performing or attempted to perform and
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failed, either query the node endpoint for the node or run ``ironic node-show
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$node_ident`` and look in the `driver_internal_info` field. The `clean_steps`
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field will contain a list of all remaining steps with their priorities, and the
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first one listed is the step currently in progress or that the node failed
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before going into ``clean failed`` state.
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Should I disable automated cleaning?
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------------------------------------
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Automated cleaning is recommended for ironic deployments, however, there are
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some tradeoffs to having it enabled. For instance, ironic cannot deploy a new
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instance to a node that is currently cleaning, and cleaning can be a time
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consuming process. To mitigate this, we suggest using disks with support for
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cryptographic ATA Security Erase, as typically the erase_devices step in the
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deploy driver takes the longest time to complete of all cleaning steps.
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Why can't I power on/off a node while it's cleaning?
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----------------------------------------------------
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During cleaning, nodes may be performing actions that shouldn't be
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interrupted, such as BIOS or Firmware updates. As a result, operators are
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forbidden from changing power state via the ironic API while a node is
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cleaning.
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Troubleshooting
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===============
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If cleaning fails on a node, the node will be put into ``clean failed`` state
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and placed in maintenance mode, to prevent ironic from taking actions on the
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node.
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Nodes in ``clean failed`` will not be powered off, as the node might be in a
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state such that powering it off could damage the node or remove useful
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information about the nature of the cleaning failure.
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A ``clean failed`` node can be moved to ``manageable`` state, where it cannot
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be scheduled by nova and you can safely attempt to fix the node. To move a node
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from ``clean failed`` to ``manageable``:
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``ironic node-set-provision-state manage``.
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You can now take actions on the node, such as replacing a bad disk drive.
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Strategies for determining why a cleaning step failed include checking the
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ironic conductor logs, viewing logs on the still-running ironic-python-agent
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(if an in-band step failed), or performing general hardware troubleshooting on
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the node.
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When the node is repaired, you can move the node back to ``available`` state,
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to allow it to be scheduled by nova.
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::
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# First, move it out of maintenance mode
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ironic node-set-maintenance $node_ident false
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# Now, make the node available for scheduling by nova
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ironic node-set-provision-state $node_ident provide
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The node will begin automated cleaning from the start, and move to
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``available`` state when complete.
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