From 19fcec84d8d7d21e796c7624e521b60d28ee21ed Mon Sep 17 00:00:00 2001
From: Daniel Baumann <daniel.baumann@progress-linux.org>
Date: Sun, 7 Apr 2024 20:45:59 +0200
Subject: Adding upstream version 16.2.11+ds.

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
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+===================
+ Librados (Python)
+===================
+
+The ``rados`` module is a thin Python wrapper for ``librados``.
+
+Installation
+============
+
+To install Python libraries for Ceph, see `Getting librados for Python`_.
+
+
+Getting Started
+===============
+
+You can create your own Ceph client using Python. The following tutorial will
+show you how to import the Ceph Python module, connect to a Ceph cluster,  and
+perform object operations as a ``client.admin`` user.
+
+.. note:: To use the Ceph Python bindings, you must have access to a
+   running Ceph cluster. To set one up quickly, see `Getting Started`_.
+
+First, create a Python source file for your Ceph client. ::
+   :linenos:
+
+	sudo vim client.py
+
+
+Import the Module
+-----------------
+
+To use the ``rados`` module, import it into your source file.
+
+.. code-block:: python
+   :linenos:
+
+	import rados
+
+
+Configure a Cluster Handle
+--------------------------
+
+Before connecting to the Ceph Storage Cluster, create a cluster handle. By
+default, the cluster handle assumes a cluster named ``ceph`` (i.e., the default
+for deployment tools, and our Getting Started guides too),  and a
+``client.admin`` user name. You may change these defaults to suit your needs.
+
+To connect to the Ceph Storage Cluster, your application needs to know where to
+find the  Ceph Monitor. Provide this information to your application by
+specifying the path to your Ceph configuration file, which contains the location
+of the initial Ceph monitors.
+
+.. code-block:: python
+   :linenos:
+
+	import rados, sys
+
+	#Create Handle Examples.
+	cluster = rados.Rados(conffile='ceph.conf')
+	cluster = rados.Rados(conffile=sys.argv[1])
+	cluster = rados.Rados(conffile = 'ceph.conf', conf = dict (keyring = '/path/to/keyring'))
+
+Ensure that the ``conffile`` argument provides the path and file name of your
+Ceph configuration file. You may use the ``sys`` module to avoid hard-coding the
+Ceph configuration path and file name.
+
+Your Python client also requires a client keyring. For this example, we use the
+``client.admin`` key by default. If you would like to specify the keyring when
+creating the cluster handle, you may use the ``conf`` argument. Alternatively,
+you may specify the keyring path in your Ceph configuration file. For example,
+you may add something like the following line to your Ceph configuration file::
+
+	keyring = /path/to/ceph.client.admin.keyring
+
+For additional details on modifying your configuration via Python, see `Configuration`_.
+
+
+Connect to the Cluster
+----------------------
+
+Once you have a cluster handle configured, you may connect to the cluster.
+With a connection to the cluster, you may execute methods that return
+information about the cluster.
+
+.. code-block:: python
+   :linenos:
+   :emphasize-lines: 7
+
+	import rados, sys
+
+	cluster = rados.Rados(conffile='ceph.conf')
+	print "\nlibrados version: " + str(cluster.version())
+	print "Will attempt to connect to: " + str(cluster.conf_get('mon host'))
+
+	cluster.connect()
+	print "\nCluster ID: " + cluster.get_fsid()
+
+	print "\n\nCluster Statistics"
+	print "=================="
+	cluster_stats = cluster.get_cluster_stats()
+
+	for key, value in cluster_stats.iteritems():
+		print key, value
+
+
+By default, Ceph authentication is ``on``. Your application will need to know
+the location of the keyring. The ``python-ceph`` module doesn't have the default
+location, so you need to specify the keyring path. The easiest way to specify
+the keyring is to add it to the Ceph configuration file. The following Ceph
+configuration file example uses the ``client.admin`` keyring.
+
+.. code-block:: ini
+   :linenos:
+
+	[global]
+	# ... elided configuration
+	keyring=/path/to/keyring/ceph.client.admin.keyring
+
+
+Manage Pools
+------------
+
+When connected to the cluster, the ``Rados`` API allows you to manage pools. You
+can list pools, check for the existence of a pool, create a pool and delete a
+pool.
+
+.. code-block:: python
+   :linenos:
+   :emphasize-lines: 6, 13, 18, 25
+
+	print "\n\nPool Operations"
+	print "==============="
+
+	print "\nAvailable Pools"
+	print "----------------"
+	pools = cluster.list_pools()
+
+	for pool in pools:
+		print pool
+
+	print "\nCreate 'test' Pool"
+	print "------------------"
+	cluster.create_pool('test')
+
+	print "\nPool named 'test' exists: " + str(cluster.pool_exists('test'))
+	print "\nVerify 'test' Pool Exists"
+	print "-------------------------"
+	pools = cluster.list_pools()
+
+	for pool in pools:
+		print pool
+
+	print "\nDelete 'test' Pool"
+	print "------------------"
+	cluster.delete_pool('test')
+	print "\nPool named 'test' exists: " + str(cluster.pool_exists('test'))
+
+
+
+Input/Output Context
+--------------------
+
+Reading from and writing to the Ceph Storage Cluster requires an input/output
+context (ioctx). You can create an ioctx with the ``open_ioctx()`` or
+``open_ioctx2()`` method of the ``Rados`` class. The ``ioctx_name`` parameter
+is the name of the  pool and ``pool_id`` is the ID of the pool you wish to use.
+
+.. code-block:: python
+   :linenos:
+
+	ioctx = cluster.open_ioctx('data')
+
+
+or
+
+.. code-block:: python
+   :linenos:
+
+        ioctx = cluster.open_ioctx2(pool_id)
+
+
+Once you have an I/O context, you can read/write objects, extended attributes,
+and perform a number of other operations. After you complete operations, ensure
+that you close the connection. For example:
+
+.. code-block:: python
+   :linenos:
+
+	print "\nClosing the connection."
+	ioctx.close()
+
+
+Writing, Reading and Removing Objects
+-------------------------------------
+
+Once you create an I/O context, you can write objects to the cluster. If you
+write to an object that doesn't exist, Ceph creates it. If you write to an
+object that exists, Ceph overwrites it (except when you specify a range, and
+then it only overwrites the range). You may read objects (and object ranges)
+from the cluster. You may also remove objects from the cluster. For example:
+
+.. code-block:: python
+	:linenos:
+	:emphasize-lines: 2, 5, 8
+
+	print "\nWriting object 'hw' with contents 'Hello World!' to pool 'data'."
+	ioctx.write_full("hw", "Hello World!")
+
+	print "\n\nContents of object 'hw'\n------------------------\n"
+	print ioctx.read("hw")
+
+	print "\nRemoving object 'hw'"
+	ioctx.remove_object("hw")
+
+
+Writing and Reading XATTRS
+--------------------------
+
+Once you create an object, you can write extended attributes (XATTRs) to
+the object and read XATTRs from the object. For example:
+
+.. code-block:: python
+	:linenos:
+	:emphasize-lines: 2, 5
+
+	print "\n\nWriting XATTR 'lang' with value 'en_US' to object 'hw'"
+	ioctx.set_xattr("hw", "lang", "en_US")
+
+	print "\n\nGetting XATTR 'lang' from object 'hw'\n"
+	print ioctx.get_xattr("hw", "lang")
+
+
+Listing Objects
+---------------
+
+If you want to examine the list of objects in a pool, you may
+retrieve the list of objects and iterate over them with the object iterator.
+For example:
+
+.. code-block:: python
+	:linenos:
+	:emphasize-lines: 1, 6, 7
+
+	object_iterator = ioctx.list_objects()
+
+	while True :
+
+		try :
+			rados_object = object_iterator.next()
+			print "Object contents = " + rados_object.read()
+
+		except StopIteration :
+			break
+
+The ``Object`` class provides a file-like interface to an object, allowing
+you to read and write content and extended attributes. Object operations using
+the I/O context provide additional functionality and asynchronous capabilities.
+
+
+Cluster Handle API
+==================
+
+The ``Rados`` class provides an interface into the Ceph Storage Daemon.
+
+
+Configuration
+-------------
+
+The ``Rados`` class provides methods for getting and setting configuration
+values, reading the Ceph configuration file, and parsing arguments. You
+do not need to be connected to the Ceph Storage Cluster to invoke the following
+methods. See `Storage Cluster Configuration`_ for details on settings.
+
+.. currentmodule:: rados
+.. automethod:: Rados.conf_get(option)
+.. automethod:: Rados.conf_set(option, val)
+.. automethod:: Rados.conf_read_file(path=None)
+.. automethod:: Rados.conf_parse_argv(args)
+.. automethod:: Rados.version()
+
+
+Connection Management
+---------------------
+
+Once you configure your cluster handle, you may connect to the cluster, check
+the cluster ``fsid``, retrieve cluster statistics, and disconnect (shutdown)
+from the cluster. You may also assert that the cluster handle is in a particular
+state (e.g., "configuring", "connecting", etc.).
+
+.. automethod:: Rados.connect(timeout=0)
+.. automethod:: Rados.shutdown()
+.. automethod:: Rados.get_fsid()
+.. automethod:: Rados.get_cluster_stats()
+
+.. documented manually because it raises warnings because of *args usage in the
+.. signature
+
+.. py:class:: Rados
+
+   .. py:method:: require_state(*args)
+
+      Checks if the Rados object is in a special state
+
+      :param args: Any number of states to check as separate arguments
+      :raises: :class:`RadosStateError`
+
+
+Pool Operations
+---------------
+
+To use pool operation methods, you must connect to the Ceph Storage Cluster
+first.  You may list the available pools, create a pool, check to see if a pool
+exists,  and delete a pool.
+
+.. automethod:: Rados.list_pools()
+.. automethod:: Rados.create_pool(pool_name, crush_rule=None)
+.. automethod:: Rados.pool_exists()
+.. automethod:: Rados.delete_pool(pool_name)
+
+
+CLI Commands
+------------
+
+The Ceph CLI command is internally using the following librados Python binding methods.
+
+In order to send a command, choose the correct method and choose the correct target.
+
+.. automethod:: Rados.mon_command
+.. automethod:: Rados.osd_command
+.. automethod:: Rados.mgr_command
+.. automethod:: Rados.pg_command
+
+
+Input/Output Context API
+========================
+
+To write data to and read data from the Ceph Object Store, you must create
+an Input/Output context (ioctx). The `Rados` class provides `open_ioctx()`
+and `open_ioctx2()` methods. The remaining ``ioctx`` operations involve
+invoking methods of the `Ioctx` and other classes.
+
+.. automethod:: Rados.open_ioctx(ioctx_name)
+.. automethod:: Ioctx.require_ioctx_open()
+.. automethod:: Ioctx.get_stats()
+.. automethod:: Ioctx.get_last_version()
+.. automethod:: Ioctx.close()
+
+
+.. Pool Snapshots
+.. --------------
+
+.. The Ceph Storage Cluster allows you to make a snapshot of a pool's state.
+.. Whereas, basic pool operations only require a connection to the cluster,
+.. snapshots require an I/O context.
+
+.. Ioctx.create_snap(self, snap_name)
+.. Ioctx.list_snaps(self)
+.. SnapIterator.next(self)
+.. Snap.get_timestamp(self)
+.. Ioctx.lookup_snap(self, snap_name)
+.. Ioctx.remove_snap(self, snap_name)
+
+.. not published. This doesn't seem ready yet.
+
+Object Operations
+-----------------
+
+The Ceph Storage Cluster stores data as objects. You can read and write objects
+synchronously or asynchronously. You can read and write from offsets. An object
+has a name (or key) and data.
+
+
+.. automethod:: Ioctx.aio_write(object_name, to_write, offset=0, oncomplete=None, onsafe=None)
+.. automethod:: Ioctx.aio_write_full(object_name, to_write, oncomplete=None, onsafe=None)
+.. automethod:: Ioctx.aio_append(object_name, to_append, oncomplete=None, onsafe=None)
+.. automethod:: Ioctx.write(key, data, offset=0)
+.. automethod:: Ioctx.write_full(key, data)
+.. automethod:: Ioctx.aio_flush()
+.. automethod:: Ioctx.set_locator_key(loc_key)
+.. automethod:: Ioctx.aio_read(object_name, length, offset, oncomplete)
+.. automethod:: Ioctx.read(key, length=8192, offset=0)
+.. automethod:: Ioctx.stat(key)
+.. automethod:: Ioctx.trunc(key, size)
+.. automethod:: Ioctx.remove_object(key)
+
+
+Object Extended Attributes
+--------------------------
+
+You may set extended attributes (XATTRs) on an object. You can retrieve a list
+of objects or XATTRs and iterate over them.
+
+.. automethod:: Ioctx.set_xattr(key, xattr_name, xattr_value)
+.. automethod:: Ioctx.get_xattrs(oid)
+.. automethod:: XattrIterator.__next__()
+.. automethod:: Ioctx.get_xattr(key, xattr_name)
+.. automethod:: Ioctx.rm_xattr(key, xattr_name)
+
+
+
+Object Interface
+================
+
+From an I/O context, you can retrieve a list of objects from a pool and iterate
+over them. The object interface provide makes each object look like a file, and
+you may perform synchronous operations on the  objects. For asynchronous
+operations, you should use the I/O context methods.
+
+.. automethod:: Ioctx.list_objects()
+.. automethod:: ObjectIterator.__next__()
+.. automethod:: Object.read(length = 1024*1024)
+.. automethod:: Object.write(string_to_write)
+.. automethod:: Object.get_xattrs()
+.. automethod:: Object.get_xattr(xattr_name)
+.. automethod:: Object.set_xattr(xattr_name, xattr_value)
+.. automethod:: Object.rm_xattr(xattr_name)
+.. automethod:: Object.stat()
+.. automethod:: Object.remove()
+
+
+
+
+.. _Getting Started: ../../../start
+.. _Storage Cluster Configuration: ../../configuration
+.. _Getting librados for Python: ../librados-intro#getting-librados-for-python
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