Usage¶
Incorporating oslo.versionedobjects into your projects can be accomplished in the following steps:
- Add oslo.versionedobjects to requirements
- Create objects subdirectory and a base.py inside it
- Create base object with the project namespace
- Create other base objects if needed
- Implement objects and place them in objects/*.py
- Implement extra fields in objects/fields.py
- Create object registry and register all objects
- Create and attach the object serializer
- Implement the indirection API
Add oslo.versionedobjects to requirements¶
To use oslo.versionedobjects in an OpenStack project remember to add it to the requirements.txt
Create objects subdirectory and a base.py inside it¶
Objects reside in the <project>/objects directory and this is the place from which all objects should be imported.
Start the implementation by creating objects/base.py with these main classes:
Create base object with the project namespace¶
oslo_versionedobjects.base.VersionedObject
The VersionedObject base class for the project. You have to fill up the OBJ_PROJECT_NAMESPACE property. OBJ_SERIAL_NAMESPACE is used only for backward compatibility and should not be set in new projects.
Create other base objects if needed¶
class:oslo_versionedobjects.base.VersionedPersistentObject
A mixin class for persistent objects can be created, defining repeated fields like created_at, updated_at. Fields are defined in the fields property (which is a dict).
If objects were previously passed as dicts (a common situation), a
oslo_versionedobjects.base.VersionedObjectDictCompat can be used as a
mixin class to support dict operations.
Implement objects and place them in objects/*.py¶
Objects classes should be created for all resources/objects passed via RPC as IDs or dicts in order to:
- spare the database (or other resource) from extra calls
- pass objects instead of dicts, which are tagged with their version
- handle all object versions in one place (the obj_make_compatible method)
To make sure all objects are accessible at all times, you should import them in __init__.py in the objects/ directory.
Implement extra fields in objects/fields.py¶
New field types can be implemented by inheriting from
oslo_versionedobjects.field.Field and overwriting the from_primitive
and to_primitive methods.
By subclassing oslo_versionedobjects.fields.AutoTypedField you can
stack multiple fields together, making sure even nested data structures are
being validated.
Create object registry and register all objects¶
oslo_versionedobjects.base.VersionedObjectRegistry
The place where all objects are registered. All object classes should be
registered by the oslo_versionedobjects.base.ObjectRegistry.register
class decorator.
Create and attach the object serializer¶
oslo_versionedobjects.base.VersionedObjectSerializer
To transfer objects by RPC, subclass the
oslo_versionedobjects.base.VersionedObjectSerializer setting the
OBJ_BASE_CLASS property to the previously defined Object class.
Connect the serializer to oslo_messaging:
serializer = RequestContextSerializer(objects_base.MagnumObjectSerializer())
target = messaging.Target(topic=topic, server=server)
self._server = messaging.get_rpc_server(transport, target, handlers, serializer=serializer)
Implement the indirection API¶
oslo_versionedobjects.base.VersionedObjectIndirectionAPI
oslo.versionedobjects supports remotable method calls. These are calls of the object methods and classmethods which can be executed locally or remotely depending on the configuration. Setting the indirection_api as a property of an object relays the calls to decorated methods through the defined RPC API. The attachment of the indirection_api should be handled by configuration at startup time.
Second function of the indirection API is backporting. When the object serializer attempts to deserialize an object with a future version, not supported by the current instance, it calls the object_backport method in an attempt to backport the object to a version which can then be handled as normal.