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Change-Id: I17377b4b7b2e8ecc0ce3dbc4ac7de9398912ada9
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383 lines
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===============================
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Welcome to Ironic Python Agent!
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===============================
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Overview
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========
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Ironic Python Agent is an agent for controlling and deploying Ironic controlled
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baremetal nodes. Typically run in a ramdisk, the agent exposes a REST API for
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provisioning servers.
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Throughout the remainder of the document, Ironic Python Agent will be
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abbreviated to IPA.
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Index
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=====
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.. toctree::
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troubleshooting
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metrics
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How it works
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============
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Integration with Ironic
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-----------------------
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Compatible Deploy Drivers
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~~~~~~~~~~~~~~~~~~~~~~~~~
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Agent Deploy Driver
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<<<<<<<<<<<<<<<<<<<
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IPA works with the agent Deploy driver in Ironic to provision nodes. Starting
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with ironic-python-agent running on a ramdisk on an unprovisioned node,
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Ironic makes API calls to ironic-python-agent to provision the machine. This
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allows for greater control and flexibility of the entire deployment process.
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PXE Deploy Driver
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<<<<<<<<<<<<<<<<<
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IPA may also be used with the original Ironic pxe driver as of the Kilo
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OpenStack Ironic release.
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Configuring Deploy Drivers
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<<<<<<<<<<<<<<<<<<<<<<<<<<
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For information on how to install and configure Ironic drivers, including
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drivers for IPA, see the Ironic drivers documentation [0]_.
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Lookup
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~~~~~~
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On startup, the agent performs a lookup in Ironic to determine its node UUID
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by sending a hardware profile to the Ironic vendor_passthru lookup endpoint:
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``/v1/drivers/{driver}/vendor_passthru/lookup``.
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Heartbeat
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~~~~~~~~~
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After successfully looking up its node, the agent heartbeats via
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``/v1/nodes/{node_ident}/vendor_passthru/heartbeat`` every N seconds, where
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N is the Ironic conductor's agent.heartbeat_timeout value multiplied by a
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number between .3 and .6.
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For example, if your conductor's ironic.conf contains::
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[agent]
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heartbeat_timeout = 60
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IPA will heartbeat between every 20 and 36 seconds. This is to ensure jitter
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for any agents reconnecting after a network or API disruption.
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After the agent heartbeats, the conductor performs any actions needed against
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the node, including querying status of an already run command. For example,
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initiating in-band cleaning tasks or deploying an image to the node.
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Inspection
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~~~~~~~~~~
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IPA can conduct hardware inspection on start up and post data to the `Ironic
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Inspector`_. Edit your default PXE/iPXE configuration or IPA options
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baked in the image, and set ``ipa-inspection-callback-url`` to the
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full endpoint of Ironic Inspector, for example::
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ipa-inspection-callback-url=http://IP:5050/v1/continue
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Make sure your DHCP environment is set to boot IPA by default.
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.. _Ironic Inspector: http://docs.openstack.org/developer/ironic-inspector/
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Hardware Inventory
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------------------
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IPA collects various hardware information using its `Hardware Managers`_,
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and sends it to Ironic on lookup and to Ironic Inspector on Inspection_.
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The exact format of the inventory depends on the hardware manager used.
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Here is the basic format expected to be provided by all hardware managers.
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The inventory is a dictionary (JSON object), containing at least the following
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fields:
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``cpu``
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CPU information: ``model_name``, ``frequency``, ``count``,
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``architecture`` and ``flags``.
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``memory``
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RAM information: ``total`` (total size in bytes), ``physical_mb``
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(physically installed memory size in MiB, optional).
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.. note::
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The difference is that the latter includes the memory region reserved
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by the kernel and is always slightly bigger. It also matches what
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the Nova flavor would contain for this node and thus is used by the
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inspection process instead of ``total``.
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``bmc_address``
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IP address of the node's BMC (aka IPMI address), optional.
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``disks``
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list of disk block devices with fields: ``name``, ``model``,
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``size`` (in bytes), ``rotational`` (boolean), ``wwn``, ``serial``,
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``vendor``, ``wwn_with_extension``, ``wwn_vendor_extension``.
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``interfaces``
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list of network interfaces with fields: ``name``, ``mac_address``,
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``ipv4_address``, ``lldp``, ``vendor`` and ``product``.
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If configuration option ``collect_lldp`` is set to True the ``lldp``
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field will be populated by a list of type-length-value (TLV) fields
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retrieved using the Link Layer Discovery Protocol (LLDP).
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Currently IPA also returns 2 fields ``switch_port_descr``
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and ``switch_chassis_descr`` which were reserved for future use, these are
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now deprecated to be removed in Ocata in favor of including all LLDP data
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in the ``lldp`` field.
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``system_vendor``
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system vendor information from SMBIOS as reported by ``dmidecode``:
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``product_name``, ``serial_number`` and ``manufacturer``.
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``boot``
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boot information with fields: ``current_boot_mode`` (boot mode used for
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the current boot - BIOS or UEFI) and ``pxe_interface`` (interface used
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for PXE booting, if any).
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Image Builders
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--------------
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Unlike most other python software, you must build an IPA ramdisk image before
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use. This is because it's not installed in an operating system, but instead is
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run from within a ramdisk.
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CoreOS
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~~~~~~
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One way to build a ramdisk image for IPA is with the CoreOS image [1]_.
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Prebuilt copies of the CoreOS image, suitable for pxe, are available on
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`tarballs.openstack.org <http://tarballs.openstack.org/ironic-python-agent/coreos/files/>`__.
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Build process
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<<<<<<<<<<<<<
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On a high level, the build steps are as follows:
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1) A docker build is performed using the ``Dockerfile`` in the root of the
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ironic-python-agent project.
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2) The resulting docker image is exported to a filesystem image.
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3) The filesystem image, along with a cloud-config.yml [2]_, are embedded into
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the CoreOS PXE image at /usr/share/oem/.
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4) On boot, the ironic-python-agent filesystem image is extracted and run
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inside a systemd-nspawn container. /usr/share/oem is mounted into this
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container as /mnt.
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Customizing the image
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<<<<<<<<<<<<<<<<<<<<<
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There are several methods you can use to customize the IPA ramdisk:
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* Embed SSH keys by putting an authorized_keys file in /usr/share/oem/
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* Add your own hardware managers by modifying the Dockerfile to install
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additional python packages.
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* Modify the cloud-config.yml [2]_ to perform additional tasks at boot time.
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diskimage-builder
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~~~~~~~~~~~~~~~~~~
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Another way to build a ramdisk image for IPA is by using diskimage-builder
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[3]_. The ironic-agent diskimage-builder element builds the IPA ramdisk, which
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installs all the required packages and configures services as needed.
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tinyipa
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~~~~~~~
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Ironic Python Agent repo also provides a set of scripts to build a
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Tiny Core Linux-based deployment kernel and ramdisk (code name ``tinyipa``)
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under ``imagebuild/tinyipa`` folder.
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`Tiny Core Linux <http://tinycorelinux.net/>`_
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is a very minimalistic Linux distribution.
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Due to its small size and decreased RAM requirements
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it is mostly suitable for usage in CI with virtualized hardware,
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and is already used on a number of gate jobs in projects under
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OpenStack Baremetal program.
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On the other hand, due to its generally newer Linux kernel it also known to
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work on real hardware if the kernel supports all necessary components
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installed.
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Please refer to ``imagebuild/tinyipa/README.rst`` for more information and
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build instructions.
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ISO Images
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~~~~~~~~~~
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Additionally, the IPA ramdisk can be packaged inside of an ISO for use with
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supported virtual media drivers. Simply use the ``iso-image-create`` utility
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packaged with IPA, pass it an initrd and kernel. e.g.::
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./iso-image-create -o /path/to/output.iso -i /path/to/ipa.initrd -k /path/to/ipa.kernel
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This is a generic tool that can be used to combine any initrd and kernel into
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a suitable ISO for booting, and so should work against any IPA ramdisk created
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-- both DIB and CoreOS.
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IPA Flags
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=========
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You can pass a variety of flags to IPA on start up to change its behavior.
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If you're using the CoreOS image, you can modify the
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ironic-python-agent.service unit in cloud-config.yaml [5]_.
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* ``--standalone``: This disables the initial lookup and heartbeats to Ironic.
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Lookup sends some information to Ironic in order to determine Ironic's node
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UUID for the node. Heartbeat sends periodic pings to Ironic to tell Ironic
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the node is still running. These heartbeats also trigger parts of the deploy
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and cleaning cycles. This flag is useful for debugging IPA without an Ironic
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installation.
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* ``--debug``: Enables debug logging.
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Hardware Managers
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=================
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What is a HardwareManager?
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--------------------------
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Hardware managers are how IPA supports multiple different hardware platforms
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in the same agent. Any action performed on hardware can be overridden by
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deploying your own hardware manager.
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How are methods executed on HardwareManagers?
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---------------------------------------------
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Methods that modify hardware are dispatched to each hardware manager in
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priority order. When a method is dispatched, if a hardware manager does not
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have a method by that name or raises `IncompatibleHardwareMethodError`, IPA
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continues on to the next hardware manager. Any hardware manager that returns
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a result from the method call is considered a success and its return value
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passed on to whatever dispatched the method. If the method is unable to run
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successfully on any hardware managers, `HardwareManagerMethodNotFound` is
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raised.
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Does IPA ship with a HardwareManager?
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-------------------------------------
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IPA ships with GenericHardwareManager, which implements basic cleaning and
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deployment methods compatible with most hardware.
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Why build a custom HardwareManager?
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-----------------------------------
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Custom hardware managers allow you to include hardware-specific tools, files
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and cleaning steps in the Ironic Python Agent. For example, you could include a
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BIOS flashing utility and BIOS file in a custom ramdisk. Your custom
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hardware manager could expose a cleaning step that calls the flashing utility
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and flashes the packaged BIOS version (or even download it from a tested web
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server).
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How can I build a custom HardwareManager?
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-----------------------------------------
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Custom HardwareManagers should subclass hardware.HardwareManager or
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hardware.GenericHardwareManager. The only required method is
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evaluate_hardware_support(), which should return one of the enums
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in hardware.HardwareSupport. Hardware support determines which hardware
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manager is executed first for a given function (see: "`How are methods
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executed on HardwareManagers?`_" for more info). Common methods you
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may want to implement are list_hardware_info(), to add additional hardware
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the GenericHardwareManager is unable to identify and erase_devices(), to
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erase devices in ways other than ATA secure erase or shredding.
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Custom HardwareManagers and Cleaning
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------------------------------------
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One of the reasons to build a custom hardware manager is to expose extra steps
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in Ironic Cleaning [4]_. A node will perform a set of cleaning steps any
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time the node is deleted by a tenant or moved from MANAGEABLE state to
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AVAILABLE state. If the node is using an agent\_\* driver, Ironic will query
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IPA for a list of clean steps that should be executed on the node. IPA
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will dispatch a call to `get_clean_steps()` on all available hardware managers
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and then return the combined list to Ironic.
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To expose extra clean steps, the custom hardware manager should have a function
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named `get_clean_steps()` which returns a list of dictionaries. The
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dictionaries should be in the form::
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{
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// A function on the custom hardware manager
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'step': 'upgrade_firmware',
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// An integer priority. Largest priorities are executed first
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'priority': 10,
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// Should always be the deploy interface
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'interface': 'deploy',
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// Request the node to be rebooted out of band by Ironic when the
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// step completes successfully
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'reboot_requested': False
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}
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Then, you should create functions which match each of the `step` keys in
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the clean steps you return. The functions will take two parameters: `node`,
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a dictionary representation of the Ironic node, and `ports`, a list of
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dictionary representations of the Ironic ports attached to `node`.
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When a clean step is executed in IPA, the `step` key will be sent to the
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hardware managers in hardware support order, using
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`hardware.dispatch_to_managers()`. For each hardware manager, if the manager
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has a function matching the `step` key, it will be executed. If the function
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returns a value (including None), that value is returned to Ironic and no
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further managers are called. If the function raises
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`IncompatibleHardwareMethodError`, the next manager will be called. If the
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function raises any other exception, the command will be considered failed,
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the command result's error message will be set to the exception's error
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message, and no further managers will be called. An example step::
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def upgrade_firmware(self, node, ports):
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if self._device_exists():
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# Do the upgrade
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return 'upgraded firmware'
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else:
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raise errors.IncompatibleHardwareMethodError()
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.. note::
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If two managers return steps with the same `step` key, the priority will
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be set to whichever manager has a higher hardware support level and then
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use the higher priority in the case of a tie.
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Versioning
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~~~~~~~~~~
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Each hardware manager has a name and a version. This version is used during
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cleaning to ensure the same version of the agent is used to on a node through
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the entire process. If the version changes, cleaning is restarted from the
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beginning to ensure consistent cleaning operations and to make
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updating the agent in production simpler.
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You can set the version of your hardware manager by creating a class variable
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named 'HARDWARE_MANAGER_VERSION', which should be a string. The default value
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is '1.0'. You should change this version string any time you update your
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hardware manager. You can also change the name your hardware manager presents
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by creating a class variable called HARDWARE_MANAGER_NAME, which is a string.
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The name defaults to the class name. Currently IPA only compares version as a
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string; any version change whatsoever will induce cleaning to restart.
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Priority
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~~~~~~~~
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A hardware manager has a single overall priority, which should be based on how
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well it supports a given piece of hardware. At load time, IPA executes
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`evaluate_hardware_support()` on each hardware manager. This method should
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return an int representing hardware manager priority, based on what it detects
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about the platform it's running on. Suggested values are included in the
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`HardwareSupport` class. Returning a value of 0 aka `HardwareSupport.NONE`,
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will prevent the hardware manager from being used. IPA will never ship a
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hardware manager with a priority higher than 3, aka
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`HardwareSupport.SERVICE_PROVIDER`.
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Generated Developer Documentation
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=================================
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.. toctree::
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:maxdepth: 1
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api/autoindex
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References
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==========
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.. [0] Enabling Drivers - http://docs.openstack.org/developer/ironic/drivers/ipa.html
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.. [1] CoreOS PXE Images - https://coreos.com/docs/running-coreos/bare-metal/booting-with-pxe/
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.. [2] CoreOS Cloud Init - https://coreos.com/docs/cluster-management/setup/cloudinit-cloud-config/
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.. [3] DIB Element for IPA - http://docs.openstack.org/developer/diskimage-builder/elements/ironic-agent/README.html
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.. [4] Ironic Cleaning - http://docs.openstack.org/developer/ironic/deploy/cleaning.html
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.. [5] cloud-config.yaml - https://git.openstack.org/cgit/openstack/ironic-python-agent/tree/imagebuild/coreos/oem/cloud-config.yml
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Indices and tables
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==================
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* :ref:`genindex`
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* :ref:`modindex`
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* :ref:`search`
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