Merge "Add documentation for multi-architecture deployments."
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@ -36,3 +36,4 @@ For in-depth technical information, see the
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source-overrides/index.rst
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prod/gnocchi_redis.rst
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messaging/messaging.rst
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multiarch/multiarch.rst
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doc/source/user/multiarch/multiarch.rst
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doc/source/user/multiarch/multiarch.rst
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==============================
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Multi-Architecture Deployments
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==============================
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OpenStack-Ansible supports deployments where either the control plane
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or compute nodes may comprise of several different CPU architectures
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Mixed CPU architectures for compute nodes
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=========================================
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OpenStack-Ansible supports having compute nodes of multiple architectures
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deployed in the same environment.
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Deployments consisting entirely of x86_64 or aarch64 nodes do not need any
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special consideration and will work according to the normal OpenStack-Ansible
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documentation.
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A deployment with a mixture of architectures, or adding a new architecture
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to an existing single architecure deployment requires some additional
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steps to be taken by both the deployer and end users to ensure that the
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behaviour is as desired.
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Example - adding ``aarch64`` nodes to an ``x86_64`` deployment
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--------------------------------------------------------------
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1) Install the operating system onto all the new compute nodes.
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2) Add the new compute nodes to ``openstack_user_config.yml``.
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3) Ensure a host of each compute architecture is present in
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``repo-infra_hosts`` in ``openstack_user_config.yml``.
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This host will build python wheels for it's own architecture which will
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speed up the deployment of many hosts. If you do not make a repository
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server for each architecture, ensure that measures are taken not to
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overload the opendev.org git servers, such as using local mirrors of
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all OpenStack service repos.
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4) Run the OpenStack-Ansible playbooks to deploy the required services.
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5) Add HW_ARCH_XXXX Trait to Every Compute Host in Openstack
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Although most CPU hardware traits such as instruction set extensions are
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detected and handled automatically in OpenStack, CPU architecture is not.
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It is necessary to manually add an architecture trait to the resource provider
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corresponding to every compute host. The required traits are:
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HW_ARCH_X86_64 for x86_64 Intel and AMD CPUs
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HW_ARCH_AARCH64 for aarch64 architecure CPUs
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(see: https://docs.openstack.org/os-traits/latest/reference/traits.html)
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.. code:: bash
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openstack resource provider list
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openstack resource provider trait list <uuid-of-compute-host>
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openstack resource provider trait set --trait <existing-trait-1> --trait <existing-trait-2> ... --trait HW_ARCH_xxxxx <uuid-of-compute-host>
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.. note::
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The trait set command replaces all existing traits with the set provided,
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so you must specify all existing traits as well as the new trait.
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6) Configure Nova Scheduler to Check Architecture
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Two additional settings in /etc/nova/nova.conf in all Nova API instances:
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.. code:: yaml
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[scheduler]
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image_metadata_prefilter = True
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[filter_scheduler]
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image_properties_default_architecture = x86_64
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The ``image_metadata_prefilter`` setting forces the Nova scheduler to match
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the ``hw_architecture`` property on Glance images with the corresponding HW_ARCH_XXX
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trait on compute host resource providers. This ensures that images explicitly tagged
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with a target architecture get scheduled hosts with a matching architecture.
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The ``image_properties_default_architecture`` setting would apply in an existing
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``x86_64`` architecture cloud where previously ``hw_architecture`` was not set on all
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Glance images. This avoids the need to retrospectively apply the property for all
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existing images which may be difficult as users may have their own tooling to
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create and upload images without applying the required property.
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.. warning::
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Undocumented Behaviour Alert!
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Note that the image metadata prefilter and ImagePropertiesFilter are different
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and unrelated steps in the process Nova scheduler uses to determine candidate
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compute hosts. This section explains how to use them together.
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The ``image_metadata_prefilter`` only looks at the HW_ARCH_XXX traits on compute hosts
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and finds hardware that matches the required architecture. This only happens
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when the ``hw_architecture`` property is present on an image, and only if the
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required traits are manually added to compute hosts.
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The ``image_properties_default_architecture`` is used by the ImagePropertiesFilter
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which examines all the architectures supported by QEMU on each compute host; this
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includes software emulations of non-native architectures.
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If the full QEMU suite is installed on a compute host, that host will offer to run
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all architectures supported by the available ``qemu-system-*`` binaries. In this
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situation images without the ``hw_architecture`` property could be scheduled to a
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non native architecture host and emulated.
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7) Disable QEMU Emulation
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.. note::
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This step applies particularly to existing ``x86_64`` environments when new
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``aarch64`` compute nodes are added and it cannot be assumed that the
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``hw_architecure`` property is applied to all Glance images as the operator
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may not be in control of all image uploads.
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To avoid unwanted QEMU emulation of non native architectures it is necessary to
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ensure that only the native ``qemu-system-*`` binary is present on all compute
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nodes. The simplest way to do this for existing deployments is to use the system
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package manager to ensure that the unwanted binaries are removed.
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OpenStack-Ansible releases including 2023.1 and later will only install the native
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architecture `qemu-system-*`` binary so this step should not be required on newer
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releases.
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8) Upload images to Glance
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* Ideally the ``hw_architecture`` property is set for all uploaded images. It is
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mandatory to set this property for all architectures that do not match
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``image_properties_default_architecture``
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* It is recommended to set the property ``hw_firmware_type='uefi'`` for any images
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which require UEFI boot, even when this implicit with the ``aarch64`` architecture.
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This is to avoid issues with NVRAM files in libvirt when deleting an instance.
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Architecture emulation by Nova
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==============================
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Nova has the capability to allow emulation of one CPU architecture on a host
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with a different native CPU architecure, see https://docs.openstack.org/nova/latest/admin/hw-emulation-architecture.html
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for more details.
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This OpenStack-Ansible documentation currently assumes that a deployer wishes to
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run images on a compute host with a native CPU architecure, and does not give an
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example configuration involving emulation.
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