c9ed708d87
The migration guide for porting from old methods to upt was missing the allocations kwarg in the code samples. Change-Id: I43fd8d5eeb382d1e5472fa4e9a2f01bd0e4bf243
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ReStructuredText
239 lines
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ReStructuredText
..
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Licensed under the Apache License, Version 2.0 (the "License"); you may
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not use this file except in compliance with the License. You may obtain
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a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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License for the specific language governing permissions and limitations
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under the License.
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====================================
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ComputeDriver.update_provider_tree
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====================================
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This provides details on the ``ComputeDriver`` abstract method
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``update_provider_tree`` for developers implementing this method in their own
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virt drivers.
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Background
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----------
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In the movement towards using placement for scheduling and resource management,
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the virt driver method ``get_available_resource`` was initially superseded by
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``get_inventory``, whereby the driver could specify its inventory in terms
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understood by placement. In Queens, a ``get_traits`` driver method was added.
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But ``get_inventory`` is limited to expressing only inventory (not traits or
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aggregates). And both of these methods are limited to the resource provider
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corresponding to the compute node.
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Recent developments such as Nested Resource Providers necessitate the ability
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for the virt driver to have deeper control over what the resource tracker
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configures in placement on behalf of the compute node. This need is filled by
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the virt driver method ``update_provider_tree`` and its consumption by the
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resource tracker, allowing full control over the placement representation of
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the compute node and its associated providers.
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The Method
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----------
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``update_provider_tree`` accepts the following parameters:
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* A ``nova.compute.provider_tree.ProviderTree`` object representing all the
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providers in the tree associated with the compute node, and any sharing
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providers (those with the ``MISC_SHARES_VIA_AGGREGATE`` trait) associated via
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aggregate with any of those providers (but not *their* tree- or
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aggregate-associated providers), as currently known by placement. This
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object is fully owned by the ``update_provider_tree`` method, and can
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therefore be modified without locking/concurrency considerations. In other
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words, the parameter is passed *by reference* with the expectation that the
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virt driver will modify the object. Note, however, that it may contain
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providers not directly owned/controlled by the compute host. Care must be
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taken not to remove or modify such providers inadvertently. In addition,
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providers may be associated with traits and/or aggregates maintained by
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outside agents. The ``update_provider_tree`` method must therefore also be
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careful only to add/remove traits/aggregates it explicitly controls.
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* String name of the compute node (i.e. ``ComputeNode.hypervisor_hostname``)
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for which the caller is requesting updated provider information. Drivers may
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use this to help identify the compute node provider in the ProviderTree.
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Drivers managing more than one node (e.g. ironic) may also use it as a cue to
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indicate which node is being processed by the caller.
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* Dictionary of ``allocations`` data of the form:
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.. code::
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{ $CONSUMER_UUID: {
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# The shape of each "allocations" dict below is identical
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# to the return from GET /allocations/{consumer_uuid}
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"allocations": {
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$RP_UUID: {
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"generation": $RP_GEN,
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"resources": {
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$RESOURCE_CLASS: $AMOUNT,
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...
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},
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},
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...
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},
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"project_id": $PROJ_ID,
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"user_id": $USER_ID,
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"consumer_generation": $CONSUMER_GEN,
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},
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...
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}
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If ``None``, and the method determines that any inventory needs to be moved
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(from one provider to another and/or to a different resource class), the
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``ReshapeNeeded`` exception must be raised. Otherwise, this dict must be
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edited in place to indicate the desired final state of allocations. Drivers
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should *only* edit allocation records for providers whose inventories are
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being affected by the reshape operation. For more information about the
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reshape operation, refer to the `spec <http://specs.openstack.org/openstack/
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nova-specs/specs/stein/approved/reshape-provider-tree.html>`_.
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The virt driver is expected to update the ProviderTree object with current
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resource provider and inventory information. When the method returns, the
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ProviderTree should represent the correct hierarchy of nested resource
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providers associated with this compute node, as well as the inventory,
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aggregates, and traits associated with those resource providers.
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.. note:: Despite the name, a ProviderTree instance may in fact contain more
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than one tree. For purposes of this specification, the ProviderTree
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passed to ``update_provider_tree`` will contain:
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* the entire tree associated with the compute node; and
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* any sharing providers (those with the ``MISC_SHARES_VIA_AGGREGATE``
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trait) which are associated via aggregate with any of the providers
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in the compute node's tree. The sharing providers will be
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presented as lone roots in the ProviderTree, even if they happen to
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be part of a tree themselves.
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Consider the example below. ``SSP`` is a shared storage provider and
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``BW1`` and ``BW2`` are shared bandwidth providers; all three have
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the ``MISC_SHARES_VIA_AGGREGATE`` trait::
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CN1 SHR_ROOT CN2
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/ \ agg1 / /\ agg1 / \
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NUMA1 NUMA2--------SSP--/--\-----------NUMA1 NUMA2
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/ \ / \ / \ / \ / \
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PF1 PF2 PF3 PF4--------BW1 BW2------PF1 PF2 PF3 PF4
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agg2 agg3
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When ``update_provider_tree`` is invoked for ``CN1``, it is passed a
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ProviderTree containing::
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CN1 (root)
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/ \ agg1
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NUMA1 NUMA2-------SSP (root)
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/ \ / \
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PF1 PF2 PF3 PF4------BW1 (root)
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agg2
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This method supersedes ``get_inventory`` and ``get_traits``: if this method is
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implemented, neither ``get_inventory`` nor ``get_traits`` is used.
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Driver implementations of ``update_provider_tree`` are expected to use public
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``ProviderTree`` methods to effect changes to the provider tree passed in.
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Some of the methods which may be useful are as follows:
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* ``new_root``: Add a new root provider to the tree.
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* ``new_child``: Add a new child under an existing provider.
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* ``data``: Access information (name, UUID, parent, inventory, traits,
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aggregates) about a provider in the tree.
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* ``remove``: Remove a provider **and its descendants** from the tree. Use
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caution in multiple-ownership scenarios.
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* ``update_inventory``: Set the inventory for a provider.
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* ``add_traits``, ``remove_traits``: Set/unset virt-owned traits for a
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provider.
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* ``add_aggregates``, ``remove_aggregates``: Set/unset virt-owned aggregate
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associations for a provider.
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.. note:: There is no supported mechanism for ``update_provider_tree`` to
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effect changes to allocations. This is intentional: in Nova,
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allocations are managed exclusively outside of virt. (Usually by the
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scheduler; sometimes - e.g. for migrations - by the conductor.)
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Porting from get_inventory
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~~~~~~~~~~~~~~~~~~~~~~~~~~
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Virt driver developers wishing to move from ``get_inventory`` to
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``update_provider_tree`` should use the ``ProviderTree.update_inventory``
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method, specifying the compute node as the provider and the same inventory as
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returned by ``get_inventory``. For example:
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.. code::
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def get_inventory(self, nodename):
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inv_data = {
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'VCPU': { ... },
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'MEMORY_MB': { ... },
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'DISK_GB': { ... },
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}
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return inv_data
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would become:
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.. code::
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def update_provider_tree(self, provider_tree, nodename, allocations=None):
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inv_data = {
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'VCPU': { ... },
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'MEMORY_MB': { ... },
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'DISK_GB': { ... },
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}
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provider_tree.update_inventory(nodename, inv_data)
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When reporting inventory for the standard resource classes ``VCPU``,
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``MEMORY_MB`` and ``DISK_GB``, implementors of ``update_provider_tree`` may
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need to set the ``allocation_ratio`` and ``reserved`` values in the
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``inv_data`` dict based on configuration to reflect changes on the compute
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for allocation ratios and reserved resource amounts back to the placement
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service.
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Porting from get_traits
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~~~~~~~~~~~~~~~~~~~~~~~
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To replace ``get_traits``, developers should use the
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``ProviderTree.add_traits`` method, specifying the compute node as the
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provider and the same traits as returned by ``get_traits``. For example:
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.. code::
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def get_traits(self, nodename):
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traits = ['HW_CPU_X86_AVX', 'HW_CPU_X86_AVX2', 'CUSTOM_GOLD']
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return traits
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would become:
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.. code::
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def update_provider_tree(self, provider_tree, nodename, allocations=None):
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provider_tree.add_traits(
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nodename, 'HW_CPU_X86_AVX', 'HW_CPU_X86_AVX2', 'CUSTOM_GOLD')
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.. _taxonomy_of_traits_and_capabilities:
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Taxonomy of traits and capabilities
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-----------------------------------
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There are various types of traits:
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- Some are standard (registered in
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`os-traits <https://docs.openstack.org/os-traits/latest/>`_); others
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are custom.
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- Some are owned by the compute service; others can be managed by
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operators.
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- Some come from driver-supported capabilities, via a mechanism which
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was `introduced <https://review.opendev.org/538498>`_ to convert
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them to standard traits on the compute node resource provider. This
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mechanism is :ref:`documented in the configuration guide
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<compute-capabilities-as-traits>`.
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This diagram may shed further light on how these traits relate to each
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other and how they are managed.
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.. figure:: /figures/traits-taxonomy.svg
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:width: 800
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:alt: Venn diagram showing taxonomy of traits and capabilities
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