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312 lines
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ReStructuredText
312 lines
12 KiB
ReStructuredText
#########################
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Guide to python-simplezfs
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#########################
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Overview
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********
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The interfaces are similar to calling the zfs toolset on the command line. That is, there are not state holding classes
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representing filesets or pools, each call must include the entire dataset path or pool name. There is also no way to
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collect actions and run them at the end, each action is carried out immediately.
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There are, however, two implementations of the functionality, using the ``cli`` tools and another one using the
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`libzfs_core` ``native`` library. We'll focus on the ``cli`` version here.
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Most of the functions raise a :class:`simplezfs.exceptions.ValidationError` with some helpful text if any of the data
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turns out not to be valid. For example, including invalid or reserved strings in the dataset name raises this
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exception.
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Let's take a look at the two interfaces **ZFS** and **ZPool**...
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.. warning:: All of the commands here attempt to modify something in the pool or dataset given as parameters. If run
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with high enough permission (usually ``root``, but there's ``zfs allow`` that can delegate to lower-
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privileged users, too) these commands can and will **delete** data! Always run these against pools, disks
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and datasets that bear no important data! You have been warned.
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The ZFS interface
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*****************
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The :class:`simplezfs.zfs.ZFS` is the interface that corresponds to the ``zfs(8)`` program. It holds very little state,
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and it is recommended to get an instance through the function :func:`~simplezfs.zfs.get_zfs`. It selects the desired
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implementation and passes the required parameters. At the very least, it requires the ``api``-parameter, which is a
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string that selects the actual implementation, either ``cli`` or ``native``.
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All our examples use the ``cli`` implementation for simplicity.
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.. code-block:: pycon
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>>> from zfs import get_zfs
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>>> zfs = get_zfs('cli')
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>>> zfs
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<zfs.zfs_cli.ZFSCli object at 0x7f9f00faa9b0>
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For the remainder of this guide, we're going to assume that the variable ``zfs`` always holds a
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:class:`simplezfs.zfs_cli.ZFSCli` object.
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Viewing data
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============
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To get an overview over the interface, we'll dive in and inspect our running system. Information is returned in the
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form if :class:`simplezfs.types.Dataset` instances, which is a named tuple containing a set of fields. For simplicity,
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we'll output only a few of its fields to not clobber the screen, so don't be alarmed if there seems to be information
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missing: we just omitted the boring parts.
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Listing datasets
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----------------
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By default when listing datasets, all of them are returned regardless of their type. That means that it includes
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* volumes
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* filesets
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* snapshots
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* bookmars
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.. code-block:: pycon
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>>> zfs.list_datasets()
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<Dataset pool/system/root>
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<Dataset pool/system/root@pre-distupgrade>
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<Dataset tank/vol>
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<Dataset tank/vol@test>
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This is often unneccessary, and it allows to limit both by ``type`` and by including only datasets that are children
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of another, and both at the same time:
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.. code-block:: pycon
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>>> zfs.list_datasets(type=DatasetType.SNAPSHOT)
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<Dataset pool/root@pre-distupgrade>
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<Dataset tank/vol@test>
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>>> zfs.list_datasets(parent='pool/system')
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<Dataset pool/root>
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<Dataset pool/root@pre-distupgrade>
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>>> zfs.list_datasets(parent='pool/system', type=DatasetType.SNAPSHOT)
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<Dataset pool/root@pre-distupgrade>
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Creating something new
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======================
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There are functions for creating the four different types of datasets with nice interfaces:
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* :func:`~simplezfs.zfs.ZFS.create_fileset` for ordinary filesets, the most commonly used parameter is ``mountpoint``
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for telling it where it should be mounted.
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* :func:`~simplezfs.zfs.ZFS.create_volume` creates volumes, or ZVols, this features a parameter ``thin`` for creating
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thin-provisioned or sparse volumes.
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* :func:`~simplezfs.zfs.ZFS.create_snapshot` creates a snapshot on a volume or fileset.
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* :func:`~simplezfs.zfs.ZFS.create_bookmark` creates a bookmark (on recent versions of ZFS).
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These essentially call :func:`~simplezfs.zfs.ZFS.create_dataset`, which can be called directly, but its interface is
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not as nice as the special purpose create functions.
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Filesets
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--------
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Creating a fileset requires the dataset path, like this:
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.. code-block:: pycon
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>>> zfs.create_fileset('pool/test', mountpoint='/tmp/test')
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<Dataset pool/test>
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:todo: add create_dataset
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Volumes
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-------
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Volumes are created similar to filesets, this example creates a thin-provisioned sparse volume:
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.. code-block:: pycon
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>>> zfs.create_volume('pool/vol', thin=True)
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<Dataset pool/vol>
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:todo: add create_dataset
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Snapshots
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---------
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Snapshots are, like bookmarks, created on an existing fileset or volume, hence the first parameter to the function is
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the dataset that is our base, and the second parameter is the name of the snapshot.
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.. code-block:: pycon
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>>> zfs.create_snapshot('pool/test', 'pre-distupgrade')
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<Dataset pool/test@pre-distupgrade>
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Bookmarks
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---------
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Like snapshots above, bookmarks are created on an existing fileset or volume.
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.. code-block:: pycon
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>>> zfs.create_bookmark('pool/test', 'book-20190723')
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<Dataset pool/test#book-20190723>
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Destroying things
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=================
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After creating some datasets of various kinds and playing around with some of their properties, it's time to clean up.
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We'll use the ``destroy_*`` family of methods.
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.. warning:: Bear in mind that things happening here are final and cannot be undone. When playing around, always make
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sure not to run this on pools containing important data!
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Filesets
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--------
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Volumes
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-------
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Snapshots
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---------
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Bookmarks
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---------
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Properties
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==========
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Properties are one of the many cool and useful features of ZFS. They control its behaviour (like ``compression``) or
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return information about the internal states (like ``creation`` time).
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.. note:: The python library does not validate the names of native properties, as these are subject to change with the
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ZFS version and it would mean that the library needs an update every time a new ZFS version changes some of
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these. Thus, it relies on validating the input for syntax based on the ZFS documentation of the OpenZFS
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project and ZFS telling it that it did not like a name.
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A word on metadata/user properties
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----------------------------------
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The API allows to get and set properties, for both ``native`` properties (the ones defined by ZFS, exposing information
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or altering how it works) and ``user`` properties that we call **metadata properties** in the API.
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When working with metadata properties, you need to supply a ``namespace`` to distinguish it from a native property.
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This works by separating the namespace and the property name using a ``:`` character, so a property ``myprop``
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in the namespace ``com.company.department`` becomes ``com.company.department:myprop`` in the ZFS property system. This
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is done automatically for you if you supply a ``metadata_namespace`` when creating the ZFS instance and can be
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overwritten when working with the get and set functions. It is also possible not to define the namespace and passing
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it to the functions every time.
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When you want to get or set a metadata property, set ``metadata`` to **True** when calling
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:func:`~simplezfs.zfs.ZFS.get_property` or :func:`~simplezfs.zfs.ZFS.set_property`. This will cause it to automatically
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prepend the namespace given on instantiation or to prepend the one given in the ``overwrite_metadata_namespace`` when
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calling the functions. The name of the property **must not** include the namespace, though it may contain ``:``
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characters on its own, properties of the form ``zfs:is:cool`` are valid afterall. ``:`` characters are never valid in
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the context of native properties, and this is the reason why there is a separate switch to turn on metadata properties
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when using these functions.
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Error handling
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--------------
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If a property name is not valid or the value exceeds certain bounds, a :class:`simplezfs.exceptions.ValidationError` is
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raised. This includes specifying a namespace in the property name if ``metadata`` is **False**, or exceeding the
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length allowed for a metadata property (8192 - 1 bytes).
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Though not an error for the ``zfs(8)`` utility, getting a non-existing metadata property also raises the above
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exception to indicate that the property does not exist.
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Getting a property
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------------------
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Getting properties is fairly straight-forward, especially for native properties:
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.. code-block:: pycon
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>>> zfs.get_property('tank/system/root', 'mountpoint')
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Property(key='mountpoint', value='/', source='local', namespace=None)
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For **metadata** properties, one needs to enable their usage by setting ``metadata`` to True. With a globally saved
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namespace, it looks like this:
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.. code-block:: pycon
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>>> zfs = get_zfs('cli', metadata_namespace='com.company')
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>>> zfs.get_property('tank/system/root', 'do_backup', metdata=True)
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Property(key='do_backup', value='true', source='local', namespace='com.company')
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If you don't specify a namespace when calling :func:`~simplezfs.zfs.get_zfs` or if you want to use a different
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namespace for one call, specify the desired namespace in ``overwrite_metadata_namespace`` like so:
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.. code-block:: pycon
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>>> zfs.get_property('tank/system/root', 'requires', metadata=True, overwrite_metadata_namespace='user')
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Property(key='requires', value='coffee', source='local', namespace='user')
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This is the equivalent of calling ``zfs get user:requires tank/system/root`` on the shell.
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Asking it to get a native property that does not exist results in an error:
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.. code-block:: pycon
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>>> zfs.get_property('tank/system/root', 'notexisting', metadata=False)
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zfs.exceptions.PropertyNotFound: invalid property on dataset tank/test
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Setting a property
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------------------
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The interface for setting both native and metadata properties works exactly like the get interface shown earlier,
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though it obviously needs a value to set. We won't go into ZFS delegation system (``zfs allow``) and assume the
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following is run using **root** privileges.
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.. code-block:: pycon
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>>> zfs.set_property('tank/service/backup', 'mountpoint', ''/backup')
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Setting a metadata property works like this (again, like above):
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.. code-block:: pycon
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>>> zfs.set_property('tank/system/root', 'requires', 'tea', metadata=True, overwrite_metadata_namespace='user')
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Listing properties
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------------------
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:todo: ``zfs.get_properties``
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The ZPool interface
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*******************
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The :class:`simplezfs.zfs.ZPool` is the interface that corresponds to the ``zpool(8)`` program. It holds very little
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state, and it is recommended to get an instance through the function :func:`~simplezfs.zpool.get_zpool`. It selects the
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desired implementation and passes the required parameters. At the very least, it requires the ``api``-parameter, which
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is a string that selects the actual implementation, either ``cli`` or ``native``.
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All our examples use the ``cli`` implementation for simplicity.
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.. code-block:: pycon
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>>> from simplezfs import get_zpool
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>>> zpool = get_zpool('cli')
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>>> zpool
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<zfs.zpool_cli.ZPoolCli object at 0x7f67d5254940>
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For the remainder of this guide, we're going to assume that the variable ``zpool`` always holds a
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:class:`simplezfs.zpool_cli.ZPoolCli` object.
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Error handling
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**************
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We kept the most important part for last: handling errors. The module defines its own hierarchy with
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:class:`simplezfs.exceptions.ZFSException` as toplevel exception. Various specific exceptions are based on ot. When
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working with :class:`simplezfs.zfs.ZFS`, the three most common ones are:
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* :class:`simplezfs.exceptions.ValidationError` which indicates that a name (e.g. dataset name) was invalid.
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* :class:`simplezfs.exceptions.DatasetNotFound` is, like FileNotFound in standard python, indicating that the dataset
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the module was instructed to work on (e.g. get/set properties, destroy) was not present.
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* :class:`simplezfs.exceptions.PermissionError` is raised when the current users permissions are not sufficient to
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perform the requested operation. While some actions can be delegated using ``zfs allow``, linux, for example, doesn't
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allow non-root users to mount filesystems, which means that a non-root user may create filesets with a valid
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mountpoint property, but it won't be mounted.
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Examples
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========
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.. code-block:: pycon
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>>> zfs.list_dataset(parent=':pool/name/invalid')
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zfs.exceptions.ValidationError: malformed name
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.. code-block:: pycon
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>>> zfs.list_datasets(parent='pool/not/existing')
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zfs.exceptions.DatasetNotFound: Dataset "pool/not/existing" not found
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