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- :py:mod:`qubes` -- Common concepts
- ==================================
- Global Qubes object
- -------------------
- Because all objects in Qubes' world are interconnected, there is no possibility
- to instantiate them separately. They are all loaded together and contained in
- the one ``app`` object, an instance of :py:class:`qubes.Qubes` class.
- Loading
- ^^^^^^^
- The objects may come to existence in two ways: by explicit instantiation or by
- loading from XML file.
- The loading from XML is done in stages, because Qubes domains are dependent on
- each other in what can be even a circular dependency. Therefore some properties
- (especcialy those that refer to another domains) are loaded later.
- .. image:: loading.svg
- Refer to :py:class:`qubes.Qubes` class documentation to get description of every
- stage.
- Properties
- ----------
- Many parameters of Qubes can be changed -- from names of particular domains to
- default NetVM for all AppVMs. All of those *configurable* parameters are called
- *properties* and can be accessed like Python attributes on their owners::
- >>> import qubes
- >>> app = qubes.Qubes()
- >>> app.domain[0] # docutils: +ELLIPSIS
- <AdminVM ...>
- >>> app.domain[0].name
- 'dom0'
- Definition
- ^^^^^^^^^^
- Properties are defined on global :py:class:`qubes.Qubes` application object and
- on every domain. Those classess inherit from :py:class:`PropertyHolder` class,
- which is responsible for operation of properties.
- Each Qubes property is actually a *data descriptor* (a Python term), which means
- they are attributes of their classess, but when trying to access it from
- *instance*, they return it's underlying value instead. They can be thought of as
- Python's builtin :py:class:`property`, but greatly enhanced. They are defined in
- definition of their class::
- >>> import qubes
- >>> class MyTestHolder(qubes.PropertyHolder):
- >>> testprop = qubes.property('testprop')
- >>> instance = MyTestHolder()
- >>> instance.testprop = 'aqq'
- >>> instance.testprop
- 'aqq'
- If you like to access some attributes of the property *itself*, you should refer
- to instance's class::
- >>> import qubes
- >>> class MyTestHolder(qubes.PropertyHolder):
- >>> testprop = qubes.property('testprop')
- >>> instance = MyTestHolder()
- >>> instance.testprop = 'aqq'
- >>> type(instance.testprop)
- <type 'str'>
- >>> type(instance.__class__.testprop)
- <class 'qubes.property'>
- >>> instance.__class__.testprop.__name__
- 'testprop'
- As a rule, properties are intended to be serialised and deserialised to/from XML
- file. There are very few exceptions, but if you don't intend to save the
- property to XML, you should generally go for builtin :py:class:`property`.
- One important difference from builtin properties is that there is no getter
- function, only setter. In other words, they are not dynamic, you cannot return
- different value every time something wants to access it. This is to ensure that
- while saving the property is not a moving target.
- Property's properties
- ^^^^^^^^^^^^^^^^^^^^^
- You can specify some parameters while defining the property. The most important
- is the `type`: on setting, the value is coerced to this type. It is well suited
- to builtin types like :py:class:`int`::
- >>> import qubes
- >>> class MyTestHolder(qubes.PropertyHolder):
- >>> testprop = qubes.property('testprop')
- >>> intprop = qubes.property('intprop', type=int)
- >>> instance = MyTestHolder()
- >>> instance.testprop = '123'
- >>> instance.intprop = '123'
- >>> instance.testprop
- '123'
- >>> instance.intprop
- 123
- Every property should be documented. You should add a short description to your
- property, which will appear, among others, in :program:`qvm-prefs` and
- :program:`qvm-ls` programs. It should not use any Sphinx-specific markup::
- >>> import qubes
- >>> class MyTestHolder(qubes.PropertyHolder):
- >>> testprop = qubes.property('testprop',
- >>> doc='My new and shiny property.')
- >>> MyTestHolder.testprop.__doc__
- 'My new and shiny property.'
- In addition to `type`, properties also support `setter` parameter. It acts
- similar to `type`, but is always executed (not only when types don't agree) and
- accepts more parameters: `self`, `prop` and `value` being respectively: owners'
- instance, property's instance and the value being set. There is also `saver`,
- which does reverse: given value of the property it should return a string that
- can be parsed by `saver`.
- Unset properties and default values
- ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
- Properties may be unset, even if they are defined (that is, on access they raise
- :py:exc:`AttributeError` -- that is the normal Python way to tell that the
- attribute is absent). You can manually unset a property using Python's ``del``
- statement::
- >>> import qubes
- >>> class MyTestHolder(qubes.PropertyHolder):
- >>> testprop = qubes.property('testprop')
- >>> instance = MyTestHolder()
- >>> instance.testprop
- AttributeError: ...
- >>> instance.testprop = 123
- >>> instance.testprop
- 123
- >>> del instance.testprop
- >>> instance.testprop
- AttributeError: ...
- Alternatively, some properties may return some other value instead, if that's
- the reasonable thing to do. For example, when
- :py:attr:`qubes.vm.qubesvm.QubesVM.netvm` is unset, we check global setting
- :py:attr:`qubes.Qubes.default_netvm` instead. Returning :py:obj:`None` as
- default would be wrong, as it is marker that means „no NetVM, machine
- disconnected”.
- You can define a default value either as constant or as a callable. In the
- second case, the callable should accept one argument, the instance that owns the
- property::
- >>> import qubes
- >>> class MyTestHolder(qubes.PropertyHolder):
- >>> testprop = qubes.property('testprop')
- >>> def1prop = qubes.property('testprop', default=123)
- >>> netvm = qubes.property('testprop',
- >>> default=(lambda self: self.app.default_netvm))
- >>> instance = MyTestHolder()
- >>> instance.testprop
- AttributeError: ...
- >>> instance.def1prop
- 123
- >>> instance.netvm # doctest: +SKIP
- <NetVM ...>
- Setting netvm on particular domain of course does not affect global default, but
- only this instance. But there are two problems:
- - You don't know if the value of the property you just accessed was it's
- true or default value.
- - After ``del``'ing a property, you still will get a value on access. You
- cannot count on `AttributeError` raised from them.
- Therefore Qubes support alternative semantics. You can (and probably should,
- wherever applicable) use no ``del``, but assignment of special magic object
- :py:obj:`qubes.property.DEFAULT`. There is also method
- :py:meth:`qubes.PropertyHolder.property_is_default`, which can be used to
- distinguish unset from set properties::
- >>> import qubes
- >>> class MyTestHolder(qubes.PropertyHolder):
- >>> testprop = qubes.property('testprop', default=123)
- >>> instance.testprop
- 123
- >>> instance.property_is_default('testprop')
- True
- >>> instance.testprop = 123
- >>> instance.testprop
- >>> instance.property_is_default('testprop')
- False
- >>> instance.testprop = qubes.property.DEFAULT
- >>> instance.property_is_default('testprop')
- True
- Inheritance
- ^^^^^^^^^^^
- Properties in subclassess overload properties from their parents, like
- expected::
- >>> import qubes
- >>> class MyTestHolder(qubes.PropertyHolder):
- >>> testprop = qubes.property('testprop')
- >>> class MyOtherHolder(MyTestHolder):
- >>> testprop = qubes.property('testprop', setter=qubes.property.forbidden)
- >>> instance = MyOtherHolder()
- >>> instane.testprop = 123
- TypeError: ...
- Module contents
- ---------------
- .. automodule:: qubes
- :members:
- :show-inheritance:
- .. vim: ts=3 sw=3 et
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