f2293c5106
This change adds flag 'inventory_dhcp_static_ip' to the deploy-nodes-dynamic role. If set to true, it will read the new 'provisioning_ipv4_address' key from the inventory machine section and use that as assigned IP for the machine mac. If set to false, dnsmasq will assign IPs from the configured DHCP range. An inventory machine example specifying provisioning_ipv4_address: "compute00.hpuseast.ic.openstack.org": { "ansible_ssh_host": "15.126.48.52", "ipv4_address": "15.126.48.52", "provisioning_ipv4_address": "10.23.212.5", "uuid": "30303536-3734-5355-4532-333745314C41", "driver_info": { "power": { "ipmi_address": "1.1.1.1", "ipmi_username": "xxx" "ipmi_password": "moarxxx" } } Change-Id: I9083cd34096aad04136564c2ded024527c88c711
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478 lines
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Bifrost
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=======
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Bifrost is a set of Ansible playbooks that automates the task of
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deploying a base image onto a set of known hardware using ironic. It
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provides modular utility for one-off operating system deployment with
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as few operational requirements as reasonably possible.
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Use Cases
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=========
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* Installation of ironic in standalone/noauth mode without other OpenStack
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components.
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* Deployment of an operating system to a known pool of hardware as
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a batch operation.
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* Testing and development of ironic in a standalone use case.
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Use
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===
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This is split into roughly three steps:
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- **install**:
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prepare the local environment by downloading and/or building machine images,
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and installing and configuring the necessary services.
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- **enroll-dynamic**:
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take as input a customizable hardware inventory file and enroll the
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listed hardware with ironic, configuring each appropriately for deployment
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with the previously-downloaded images.
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- **deploy-dynamic**:
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instruct ironic to deploy the operating system onto each machine.
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Supported operating systems:
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* Ubuntu 14.04, 14.10, 15.04
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* Red Hat Enterprise Linux (RHEL) 7
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* CentOS 7
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* Fedora 22
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Pre-install steps
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=================
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Installing bifrost on RHEL or CentOS requires a few extra pre-install steps.
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Enable additional repositories (RHEL only)
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------------------------------------------
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The extras and optional yum repositories must be enabled to satisfy
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bifrost's dependencies. To check::
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sudo yum repolist | grep 'optional\|extras'
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To add the repositories::
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sudo yum repolist all | grep 'optional\|extras'
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The output will look like this::
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!rhui-REGION-rhel-server-debug-extras/7Server/x86_64 Red H disabled
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rhui-REGION-rhel-server-debug-optional/7Server/x86_64 Red H disabled
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rhui-REGION-rhel-server-extras/7Server/x86_64 Red H disabled
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rhui-REGION-rhel-server-optional/7Server/x86_64 Red H disabled
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rhui-REGION-rhel-server-source-extras/7Server/x86_64 Red H disabled
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rhui-REGION-rhel-server-source-optional/7Server/x86_64 Red H disabled
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Use the names of the repositories (minus the version and architecture) to enable them::
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sudo yum-config-manager --enable rhui-REGION-rhel-server-optional
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sudo yum-config-manager --enable rhui-REGION-rhel-server-extras
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Enable the EPEL repository (RHEL)
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---------------------------------
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The Extra Packages for Enterprise Linux (EPEL) repository contains
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some of bifrost's dependencies. To enable it, install the
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``epel-release`` package as follows::
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sudo yum install https://dl.fedoraproject.org/pub/epel/epel-release-latest-7.noarch.rpm
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Enable the EPEL repository (CentOS)
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-----------------------------------
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To enable EPEL on CentOS, run::
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sudo yum install epel-release
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Installation
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============
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The installation is split into two parts.
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The first part is a bash script which lays the basic groundwork of installing
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Ansible itself.
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Bifrost source code should be pulled directly from git first::
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git clone https://git.openstack.org/openstack/bifrost.git
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cd bifrost
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Edit ``./playbooks/inventory/group_vars/*`` to match your environment. The
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localhost file is intended for steps executed upon the localhost, such as
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installation, or image generation. The baremetal file is geared for steps
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performed on baremetal nodes, such as enrollment, deployment, or any other
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custom playbooks that a user may bolt on to this toolkit.
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- If MySQL is already installed, update ``mysql_password`` to match
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your local installation.
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- Change ``network_interface`` to match the interface that will need
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to service DHCP requests.
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- Change the ``ironic_db_password`` which is set by Ansible in MySQL
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and in ironic's configuration file.
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The install process builds or modifies a disk image to deploy. The
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following two settings (which are mutually exclusive) allow you to
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choose if a partition image is used or an image is created with
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diskimage-builder::
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create_image_via_dib: true
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transform_boot_image: false
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If you are running the installation behind a proxy, export the
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environment variables ``http_proxy`` and ``https_proxy`` so that
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Ansible will use these proxy settings.
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Then run::
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bash ./scripts/env-setup.sh
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source /opt/stack/ansible/hacking/env-setup
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cd playbooks
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The second part is an Ansible playbook that installs and configures ironic
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in a stand-alone fashion.
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* Keystone is NOT installed, and ironic's API is accessible without
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authentication. It is possible to put basic password auth on ironic's API by
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changing the nginx configuration accordingly.
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* Neutron is NOT installed. Ironic performs static IP injection via
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config-drive.
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* dnsmasq is configured statically and responds to all PXE boot requests by
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chain-loading to iPXE, which then fetches the ironic-python-agent ramdisk
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from Nginx.
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* Deployments are performed by the Ironic Python Agent, which as configured
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supports IPMI, iLO, and UCS drivers. AMT driver support is also enabled,
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however it should only be used for testing as due to a known bug which
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can be read about at https://bugs.launchpad.net/ironic/+bug/1454492.
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* By default, installation will build an Ubuntu-based image for deployment
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to nodes. This image can be easily customized if so desired.
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The re-execution of the playbook will cause states to be re-asserted. If not
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already present, a number of software packages including MySQL and RabbitMQ
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will be installed on the host. Python code will be reinstalled regardless if
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it has changed, RabbitMQ user passwords will be reset, and services will be
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restarted.
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Run::
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If you have passwordless sudo enabled, run:
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ansible-playbook -vvvv -i inventory/localhost install.yaml
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Otherwise, add -K option to let Ansible prompting for the sudo password:
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ansible-playbook -K -vvvv -i inventory/localhost install.yaml
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With regard to testing, ironic's node cleaning capability is disabled by
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default as it can be an unexpected surprise for a new user that their test
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node is unusable for however long it takes for the disks to be wiped.
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If you wish to enable cleaning, you can achieve this by passing the option
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``-e cleaning=true`` to the command line or executing the command below::
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ansible-playbook -K -vvvv -i inventory/localhost install.yaml -e cleaning=true
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After you have performed an installation, you can edit /etc/ironic/ironic.conf
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to enable or disable cleaning as desired, however it is highly encouraged to
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utilize cleaning in any production environment.
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Manual CLI use
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--------------
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If you wish to utilize ironic's CLI in no-auth mode, you must set two
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environment variables:
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- ``IRONIC_URL`` - A URL to the ironic API, such as http://localhost:6385/
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- ``OS_AUTH_TOKEN`` - Any value, such as an empty space, is required to
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cause the client library to send requests directly to the API.
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For your ease of use, ``env-vars`` can be sourced to allow the CLI to connect
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to a local ironic installation operating in noauth mode.
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Hardware enrollment
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===================
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The following requirements are installed during the `Installation`_ step
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above:
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- openstack-infra/shade library
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- openstack-infra/os-client-config
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In order to enroll hardware, you will naturally need an inventory of
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your hardware. When utilizing the dynamic inventory module and
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accompanying roles the inventory can be supplied in one of three ways,
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all of which ultimately translate to JSON data that Ansible parses.
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The original method is to utilize a CSV file. This format is covered below in
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the `Legacy CSV File Format`_ section. This has a number of limitations, but
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does allow a user to bulk load hardware from an inventory list with minimal
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data transformations.
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The newer method is to utilize a JSON or YAML document which the inventory
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parser will convert and provide to Ansible.
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In order to use, you will need to define the environment variable
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``BIFROST_INVENTORY_SOURCE`` to equal a file, which then allows you to
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execute Ansible utilizing the ``bifrost_inventory.py`` file as the data
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source.
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Conversion from CSV to JSON formats
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-----------------------------------
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The ``inventory/bifrost_inventory.py`` program additionally features a
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mode that allows a user to convert a CSV file to the JSON data format
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utilizing a ``--convertcsv`` command line setting when directly invoked.
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Example::
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export BIFROST_INVENTORY_SOURCE=/tmp/baremetal.csv
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inventory/bifrost_inventory.py --convertcsv >/tmp/baremetal.json
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JSON file format
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----------------
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The JSON format closely resembles the data structure that ironic
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utilizes internally. The ``name``, ``driver_info``, ``nics``,
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``driver``, and ``properties`` fields are directly mapped through to
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ironic. This means that the data contained within can vary from host
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to host, such as drivers and their parameters thus allowing a mixed
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hardware environment to be defined in a single file.
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Example::
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{
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"testvm1": {
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"uuid": "00000000-0000-0000-0000-000000000001",
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"driver_info": {
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"power": {
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"ssh_port": 22,
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"ssh_username": "ironic",
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"ssh_virt_type": "virsh",
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"ssh_address": "192.168.122.1",
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"ssh_key_filename": "/home/ironic/.ssh/id_rsa"
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}
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},
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"nics": [
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{
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"mac": "52:54:00:f9:32:f6"
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}
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],
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"driver": "agent_ssh",
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"ansible_ssh_host": "192.168.122.2",
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"ipv4_address": "192.168.122.2",
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"provisioning_ipv4_address": "10.0.0.9",
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"properties": {
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"cpu_arch": "x86_64",
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"ram": "3072",
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"disk_size": "10",
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"cpus": "1"
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},
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"name": "testvm1"
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}
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}
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The additional power of this format is easy configuration parameter injection,
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which could potentially allow a user to provision different operating system
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images onto different hardware chassis by defining the appropriate settings
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in an ``instance_info`` variable.
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Examples utilizing JSON and YAML formatting, along host specific variable
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injection can be found in the ``playbooks/inventory/`` folder.
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Legacy CSV file format
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----------------------
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The CSV file has the following columns:
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0. MAC Address
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1. Management username
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2. Management password
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3. Management Address
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4. CPU Count
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5. Memory size in MB
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6. Disk Storage in GB
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7. Flavor (Not Used)
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8. Type (Not Used)
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9. Host UUID
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10. Host or Node name
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11. Host IP Address to be set
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12. ``ipmi_target_channel`` - Requires: ``ipmi_bridging`` set to single
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13. ``ipmi_target_address`` - Requires: ``ipmi_bridging`` set to single
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14. ``ipmi_transit_channel`` - Requires: ``ipmi_bridging`` set to dual
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15. ``ipmi_transit_address`` - Requires: ``ipmi_bridging`` set to dual
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16. ironic driver
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17. Host provisioning IP Address
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Example definition::
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00:11:22:33:44:55,root,undefined,192.168.122.1,1,8192,512,NA,NA,aaaaaaaa-bbbb-cccc-dddd-eeeeeeeeeeee,hostname_100,192.168.2.100,,,,agent_ipmitool,10.0.0.9
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This file format is fairly flexible and can be easily modified
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although the enrollment and deployment playbooks utilize the model
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of a host per line model in order to process through the entire
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list, as well as reference the specific field items.
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An example file can be found at: ``playbooks/inventory/baremetal.csv.example``
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How this works?
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---------------
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Utilizing the dynamic inventory module, enrollment is as simple as setting
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the ``BIFROST_INVENTORY_SOURCE`` environment variable to your inventory data
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source, and then executing the enrollment playbook.::
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export BIFROST_INVENTORY_SOURCE=/tmp/baremetal.json
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ansible-playbook -vvvv -i inventory/bifrost_inventory.py enroll-dynamic.yaml
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Note that enrollment is a one-time operation. The Ansible module *does not*
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synchronize data for existing nodes. You should use the ironic CLI to do this
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manually at the moment.
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Additionally, it is important to note that the playbooks for enrollment are
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split into three separate playbooks based on the ``ipmi_bridging`` setting.
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Hardware deployment
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===================
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How this works?
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---------------
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After the nodes are enrolled, they can be deployed upon. Bifrost is geared to
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utilize configuration drives to convey basic configuration information to the
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each host. This configuration information includes an SSH key to allow a user
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to login to the system.
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To utilize the newer dynamic inventory based deployment::
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export BIFROST_INVENTORY_SOURCE=/tmp/baremetal.json
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ansible-playbook -vvvv -i inventory/bifrost_inventory.py deploy-dynamic.yaml
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Testing with a single command
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=============================
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A simple ``scripts/test-bifrost.sh`` script can be utilized to install
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pre-requisite software packages, Ansible, and then execute the
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test-bifrost.yaml playbook in order to provide a single step testing
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mechanism.
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The playbook utilized by the script,
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``playbooks/test-bifrost-dynamic.yaml``, is a single playbook that
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will create a local virtual machine, save a baremetal.csv file out,
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and then utilize it to execute the remaining roles. Two additional
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roles are invoked by this playbook which enables Ansible to connect to
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the new nodes by adding them to the inventory, and then logging into
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the remote machine via the user's ssh host key. Once that has
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successfully occurred, additional roles will unprovision the host(s)
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and delete them from ironic.
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Command::
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scripts/test-bifrost.sh
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Note:
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- Cleaning mode is explicitly disabled in the ``test-bifrost.yaml``
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playbook due to the fact that is an IO-intensive operation that can
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take a great deal of time.
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Legacy - testing with virtual machines
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======================================
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Bifrost supports using virtual machines to emulate the hardware. All of the
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steps mentioned above are mostly the same.
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It is assumed you have an SSH server running on the host machine. The
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``agent_ssh`` driver, used by ironic with VM testing, will need to use
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SSH to control the virtual machines.
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An SSH key is generated for the ``ironic`` user when testing. The
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ironic conductor will use this key to connect to the host machine and
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run virsh commands.
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#. Set ``testing`` to *true* in the
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``playbooks/inventory/group_vars/localhost`` file.
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#. You may need to adjust the value for ``ssh_public_key_path``.
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#. Run the install step, as documented above, however adding ``-e
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testing=true`` to the Ansible command line.
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#. Execute the ``ansible-playbook -vvvv -i inventory/localhost
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test-bifrost-create-vm.yaml`` command to create a test virtual
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machine.
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#. Set the environment variable of ``BIFROST_INVENTORY_SOURCE`` to the
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path to the csv file, which by default has been written to
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/tmp/baremetal.csv.
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#. Run the enrollment step, as documented above, using the CSV file
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you created in the previous step.
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#. Run the deployment step, as documented above.
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Deployment and configuration of operating systems
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=================================================
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By default, Bifrost deploys a configuration drive which includes the user SSH
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public key, hostname, and the network configuration in the form of
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network_info.json that can be read/parsed by the
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`glean <https://github.com/openstack-infra/glean>`_ utility. This allows for
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the deployment of Ubuntu, CentOS, or Fedora "tenants" on baremetal. This file
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format is not yet supported by Cloud-Init, however it is on track for
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inclusion in cloud-init 2.0.
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By default, Bifrost utilizes a utility called simple-init which leverages
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the previously noted glean utility to apply network configuration. This
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means that by default, root file systems may not be automatically expanded
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to consume the entire disk, which may, or may not be desirable depending
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upon operational needs. This is dependent upon what base OS image you
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utilize, and if the support is included in that image or not. At present,
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the standard Ubuntu cloud image includes cloud-init which will grow the
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root partition, however the ubuntu-minimal image does not include cloud-init
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and thus will not automatically grow the root partition.
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Due to the nature of the design, it would be relatively easy for a user to
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import automatic growth or reconfiguration steps either in the image to be
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deployed, or in post-deployment steps via custom Ansible playbooks.
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Custom IPA images
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=================
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Bifrost supports the ability for a user to build a custom IPA ramdisk
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utilizing the diskimage-builder element "ironic-agent". In order to utilize
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this feature, the ``download_ipa`` setting must be set to ``false`` and the
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create_ipa_image must be set to "true". By default, the install playbook will
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build a Debian jessie based IPA image, if a pre-existing IPA image is not
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present on disk. If you wish to explicitly set a specific release to be
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passed to diskimage-create, then the setting ``dib_os_release`` can be set in
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addition to ``dib_os_element``.
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If you wish to include an extra element into the IPA disk image, such as a
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custom hardware manager, you can pass the variable ``ipa_extra_dib_elements``
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as a space-separated list of elements. This defaults to an empty string.
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Driver Support
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==============
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Testing Mode
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------------
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When setup in testing mode, bifrost configures ironic to utilize the
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``agent_ssh`` driver to help facilitate the deployment of local test
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machines.
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Default Mode
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------------
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When not in testing mode, bifrost enables the following ironic drivers:
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* agent_ipmitool
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* pxe_amt
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* agent_ilo
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* agent_ucs
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OneView Driver Support
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----------------------
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As the OneView driver requires configuration information to be populated
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in the ironic.conf configuration file that points to the OneView manager
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node as well as credentials, bifrost does not support installation and
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configuration of the driver.
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Please reference the ironic OneView driver documentation at if you wish
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to update the configuration after installation in order to leverage bifrost
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for mass node deployment.
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The OneView documentation can be found
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`here <http://docs.openstack.org/developer/ironic/drivers/oneview.html>`_.
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