mirror of
https://github.com/ceph/ceph
synced 2024-12-19 01:46:00 +00:00
ae7faa9db5
the annotation and docstring are critical after we use them for describing the command. Signed-off-by: Kefu Chai <kchai@redhat.com>
477 lines
18 KiB
ReStructuredText
477 lines
18 KiB
ReStructuredText
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.. _mgr-module-dev:
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ceph-mgr module developer's guide
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=================================
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.. warning::
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This is developer documentation, describing Ceph internals that
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are only relevant to people writing ceph-mgr modules.
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Creating a module
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-----------------
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In pybind/mgr/, create a python module. Within your module, create a class
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that inherits from ``MgrModule``. For ceph-mgr to detect your module, your
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directory must contain a file called `module.py`.
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The most important methods to override are:
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* a ``serve`` member function for server-type modules. This
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function should block forever.
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* a ``notify`` member function if your module needs to
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take action when new cluster data is available.
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* a ``handle_command`` member function if your module
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exposes CLI commands.
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Some modules interface with external orchestrators to deploy
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Ceph services. These also inherit from ``Orchestrator``, which adds
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additional methods to the base ``MgrModule`` class. See
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:ref:`Orchestrator modules <orchestrator-modules>` for more on
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creating these modules.
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Installing a module
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-------------------
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Once your module is present in the location set by the
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``mgr module path`` configuration setting, you can enable it
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via the ``ceph mgr module enable`` command::
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ceph mgr module enable mymodule
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Note that the MgrModule interface is not stable, so any modules maintained
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outside of the Ceph tree are liable to break when run against any newer
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or older versions of Ceph.
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Logging
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-------
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Logging in Ceph manager modules is done as in any other Python program. Just
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import the ``logging`` package and get a logger instance with the
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``logging.getLogger`` function.
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Each module has a ``log_level`` option that specifies the current Python
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logging level of the module.
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To change or query the logging level of the module use the following Ceph
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commands::
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ceph config get mgr mgr/<module_name>/log_level
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ceph config set mgr mgr/<module_name>/log_level <info|debug|critical|error|warning|>
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The logging level used upon the module's start is determined by the current
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logging level of the mgr daemon, unless if the ``log_level`` option was
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previously set with the ``config set ...`` command. The mgr daemon logging
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level is mapped to the module python logging level as follows:
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* <= 0 is CRITICAL
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* <= 1 is WARNING
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* <= 4 is INFO
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* <= +inf is DEBUG
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We can unset the module log level and fallback to the mgr daemon logging level
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by running the following command::
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ceph config set mgr mgr/<module_name>/log_level ''
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By default, modules' logging messages are processed by the Ceph logging layer
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where they will be recorded in the mgr daemon's log file.
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But it's also possible to send a module's logging message to it's own file.
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The module's log file will be located in the same directory as the mgr daemon's
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log file with the following name pattern::
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<mgr_daemon_log_file_name>.<module_name>.log
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To enable the file logging on a module use the following command::
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ceph config set mgr mgr/<module_name>/log_to_file true
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When the module's file logging is enabled, module's logging messages stop
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being written to the mgr daemon's log file and are only written to the
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module's log file.
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It's also possible to check the status and disable the file logging with the
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following commands::
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ceph config get mgr mgr/<module_name>/log_to_file
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ceph config set mgr mgr/<module_name>/log_to_file false
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Exposing commands
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-----------------
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There are two approaches for exposing a command. The first one is to
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use the ``@CLICommand`` decorator to decorate the method which handles
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the command. like this
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.. code:: python
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@CLICommand('antigravity send to blackhole',
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perm='rw')
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def send_to_blackhole(self, oid: str, blackhole: Optional[str] = None, inbuf: Optional[str] = None):
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'''
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Send the specified object to black hole
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'''
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obj = self.find_object(oid)
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if obj is None:
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return HandleCommandResult(-errno.ENOENT, stderr=f"object '{oid}' not found")
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if blackhole is not None and inbuf is not None:
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try:
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location = self.decrypt(blackhole, passphrase=inbuf)
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except ValueError:
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return HandleCommandResult(-errno.EINVAL, stderr='unable to decrypt location')
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else:
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location = blackhole
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self.send_object_to(obj, location)
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return HandleCommandResult(stdout=f'the black hole swallowed '{oid}'")
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The first parameter passed to ``CLICommand`` is the "name" of the command.
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Since there are lots of commands in Ceph, we tend to group related commands
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with a common prefix. In this case, "antigravity" is used for this purpose.
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As the author is probably designing a module which is also able to launch
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rockets into the deep space.
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The `type annotations <https://www.python.org/dev/peps/pep-0484/>`_ for the
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method parameters are mandatory here, so the usage of the command can be
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properly reported to the ``ceph`` CLI, and the manager daemon can convert
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the serialized command parameters sent by the clients to the expected type
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before passing them to the handler method. With properly implemented types,
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one can also perform some sanity checks against the parameters!
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The names of the parameters are part of the command interface, so please
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try to take the backward compatibility into consideration when changing
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them. But you **cannot** change name of ``inbuf`` parameter, it is used
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to pass the content of the file specified by ``ceph --in-file`` option.
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The docstring of the method is used for the description of the command.
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The manager daemon cooks the usage of the command from these ingredients,
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like::
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antigravity send to blackhole <oid> [<blackhole>] Send the specified object to black hole
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as part of the output of ``ceph --help``.
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In addition to ``@CLICommand``, you could also use ``@CLIReadCommand`` or
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``@CLIWriteCommand`` if your command only requires read permissions or
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write permissions respectively.
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The second one is to set the ``COMMANDS`` class attribute of your module to
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a list of dicts like this::
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COMMANDS = [
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{
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"cmd": "foobar name=myarg,type=CephString",
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"desc": "Do something awesome",
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"perm": "rw",
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# optional:
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"poll": "true"
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}
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]
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The ``cmd`` part of each entry is parsed in the same way as internal
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Ceph mon and admin socket commands (see mon/MonCommands.h in
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the Ceph source for examples). Note that the "poll" field is optional,
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and is set to False by default; this indicates to the ``ceph`` CLI
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that it should call this command repeatedly and output results (see
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``ceph -h`` and its ``--period`` option).
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Each command is expected to return a tuple ``(retval, stdout, stderr)``.
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``retval`` is an integer representing a libc error code (e.g. EINVAL,
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EPERM, or 0 for no error), ``stdout`` is a string containing any
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non-error output, and ``stderr`` is a string containing any progress or
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error explanation output. Either or both of the two strings may be empty.
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Implement the ``handle_command`` function to respond to the commands
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when they are sent:
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.. py:currentmodule:: mgr_module
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.. automethod:: MgrModule.handle_command
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Configuration options
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---------------------
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Modules can load and store configuration options using the
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``set_module_option`` and ``get_module_option`` methods.
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.. note:: Use ``set_module_option`` and ``get_module_option`` to
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manage user-visible configuration options that are not blobs (like
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certificates). If you want to persist module-internal data or
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binary configuration data consider using the `KV store`_.
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You must declare your available configuration options in the
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``MODULE_OPTIONS`` class attribute, like this:
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::
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MODULE_OPTIONS = [
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{
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"name": "my_option"
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}
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]
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If you try to use set_module_option or get_module_option on options not declared
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in ``MODULE_OPTIONS``, an exception will be raised.
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You may choose to provide setter commands in your module to perform
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high level validation. Users can also modify configuration using
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the normal `ceph config set` command, where the configuration options
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for a mgr module are named like `mgr/<module name>/<option>`.
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If a configuration option is different depending on which node the mgr
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is running on, then use *localized* configuration (
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``get_localized_module_option``, ``set_localized_module_option``).
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This may be necessary for options such as what address to listen on.
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Localized options may also be set externally with ``ceph config set``,
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where they key name is like ``mgr/<module name>/<mgr id>/<option>``
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If you need to load and store data (e.g. something larger, binary, or multiline),
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use the KV store instead of configuration options (see next section).
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Hints for using config options:
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* Reads are fast: ceph-mgr keeps a local in-memory copy, so in many cases
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you can just do a get_module_option every time you use a option, rather than
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copying it out into a variable.
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* Writes block until the value is persisted (i.e. round trip to the monitor),
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but reads from another thread will see the new value immediately.
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* If a user has used `config set` from the command line, then the new
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value will become visible to `get_module_option` immediately, although the
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mon->mgr update is asynchronous, so `config set` will return a fraction
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of a second before the new value is visible on the mgr.
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* To delete a config value (i.e. revert to default), just pass ``None`` to
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set_module_option.
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.. automethod:: MgrModule.get_module_option
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.. automethod:: MgrModule.set_module_option
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.. automethod:: MgrModule.get_localized_module_option
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.. automethod:: MgrModule.set_localized_module_option
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KV store
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--------
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Modules have access to a private (per-module) key value store, which
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is implemented using the monitor's "config-key" commands. Use
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the ``set_store`` and ``get_store`` methods to access the KV store from
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your module.
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The KV store commands work in a similar way to the configuration
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commands. Reads are fast, operating from a local cache. Writes block
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on persistence and do a round trip to the monitor.
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This data can be access from outside of ceph-mgr using the
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``ceph config-key [get|set]`` commands. Key names follow the same
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conventions as configuration options. Note that any values updated
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from outside of ceph-mgr will not be seen by running modules until
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the next restart. Users should be discouraged from accessing module KV
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data externally -- if it is necessary for users to populate data, modules
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should provide special commands to set the data via the module.
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Use the ``get_store_prefix`` function to enumerate keys within
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a particular prefix (i.e. all keys starting with a particular substring).
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.. automethod:: MgrModule.get_store
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.. automethod:: MgrModule.set_store
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.. automethod:: MgrModule.get_localized_store
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.. automethod:: MgrModule.set_localized_store
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.. automethod:: MgrModule.get_store_prefix
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Accessing cluster data
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----------------------
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Modules have access to the in-memory copies of the Ceph cluster's
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state that the mgr maintains. Accessor functions as exposed
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as members of MgrModule.
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Calls that access the cluster or daemon state are generally going
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from Python into native C++ routines. There is some overhead to this,
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but much less than for example calling into a REST API or calling into
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an SQL database.
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There are no consistency rules about access to cluster structures or
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daemon metadata. For example, an OSD might exist in OSDMap but
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have no metadata, or vice versa. On a healthy cluster these
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will be very rare transient states, but modules should be written
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to cope with the possibility.
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Note that these accessors must not be called in the modules ``__init__``
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function. This will result in a circular locking exception.
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.. automethod:: MgrModule.get
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.. automethod:: MgrModule.get_server
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.. automethod:: MgrModule.list_servers
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.. automethod:: MgrModule.get_metadata
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.. automethod:: MgrModule.get_daemon_status
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.. automethod:: MgrModule.get_perf_schema
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.. automethod:: MgrModule.get_counter
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.. automethod:: MgrModule.get_mgr_id
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Exposing health checks
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----------------------
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Modules can raise first class Ceph health checks, which will be reported
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in the output of ``ceph status`` and in other places that report on the
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cluster's health.
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If you use ``set_health_checks`` to report a problem, be sure to call
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it again with an empty dict to clear your health check when the problem
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goes away.
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.. automethod:: MgrModule.set_health_checks
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What if the mons are down?
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--------------------------
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The manager daemon gets much of its state (such as the cluster maps)
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from the monitor. If the monitor cluster is inaccessible, whichever
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manager was active will continue to run, with the latest state it saw
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still in memory.
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However, if you are creating a module that shows the cluster state
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to the user then you may well not want to mislead them by showing
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them that out of date state.
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To check if the manager daemon currently has a connection to
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the monitor cluster, use this function:
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.. automethod:: MgrModule.have_mon_connection
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Reporting if your module cannot run
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-----------------------------------
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If your module cannot be run for any reason (such as a missing dependency),
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then you can report that by implementing the ``can_run`` function.
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.. automethod:: MgrModule.can_run
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Note that this will only work properly if your module can always be imported:
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if you are importing a dependency that may be absent, then do it in a
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try/except block so that your module can be loaded far enough to use
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``can_run`` even if the dependency is absent.
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Sending commands
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----------------
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A non-blocking facility is provided for sending monitor commands
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to the cluster.
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.. automethod:: MgrModule.send_command
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Receiving notifications
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-----------------------
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The manager daemon calls the ``notify`` function on all active modules
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when certain important pieces of cluster state are updated, such as the
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cluster maps.
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The actual data is not passed into this function, rather it is a cue for
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the module to go and read the relevant structure if it is interested. Most
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modules ignore most types of notification: to ignore a notification
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simply return from this function without doing anything.
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.. automethod:: MgrModule.notify
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Accessing RADOS or CephFS
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-------------------------
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If you want to use the librados python API to access data stored in
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the Ceph cluster, you can access the ``rados`` attribute of your
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``MgrModule`` instance. This is an instance of ``rados.Rados`` which
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has been constructed for you using the existing Ceph context (an internal
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detail of the C++ Ceph code) of the mgr daemon.
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Always use this specially constructed librados instance instead of
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constructing one by hand.
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Similarly, if you are using libcephfs to access the file system, then
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use the libcephfs ``create_with_rados`` to construct it from the
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``MgrModule.rados`` librados instance, and thereby inherit the correct context.
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Remember that your module may be running while other parts of the cluster
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are down: do not assume that librados or libcephfs calls will return
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promptly -- consider whether to use timeouts or to block if the rest of
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the cluster is not fully available.
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Implementing standby mode
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-------------------------
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For some modules, it is useful to run on standby manager daemons as well
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as on the active daemon. For example, an HTTP server can usefully
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serve HTTP redirect responses from the standby managers so that
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the user can point his browser at any of the manager daemons without
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having to worry about which one is active.
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Standby manager daemons look for a subclass of ``StandbyModule``
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in each module. If the class is not found then the module is not
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used at all on standby daemons. If the class is found, then
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its ``serve`` method is called. Implementations of ``StandbyModule``
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must inherit from ``mgr_module.MgrStandbyModule``.
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The interface of ``MgrStandbyModule`` is much restricted compared to
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``MgrModule`` -- none of the Ceph cluster state is available to
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the module. ``serve`` and ``shutdown`` methods are used in the same
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way as a normal module class. The ``get_active_uri`` method enables
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the standby module to discover the address of its active peer in
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order to make redirects. See the ``MgrStandbyModule`` definition
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in the Ceph source code for the full list of methods.
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For an example of how to use this interface, look at the source code
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of the ``dashboard`` module.
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Communicating between modules
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-----------------------------
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Modules can invoke member functions of other modules.
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.. automethod:: MgrModule.remote
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Be sure to handle ``ImportError`` to deal with the case that the desired
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module is not enabled.
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If the remote method raises a python exception, this will be converted
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to a RuntimeError on the calling side, where the message string describes
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the exception that was originally thrown. If your logic intends
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to handle certain errors cleanly, it is better to modify the remote method
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to return an error value instead of raising an exception.
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At time of writing, inter-module calls are implemented without
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copies or serialization, so when you return a python object, you're
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returning a reference to that object to the calling module. It
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is recommend *not* to rely on this reference passing, as in future the
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implementation may change to serialize arguments and return
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values.
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Shutting down cleanly
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---------------------
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If a module implements the ``serve()`` method, it should also implement
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the ``shutdown()`` method to shutdown cleanly: misbehaving modules
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may otherwise prevent clean shutdown of ceph-mgr.
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Limitations
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-----------
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It is not possible to call back into C++ code from a module's
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``__init__()`` method. For example calling ``self.get_module_option()`` at
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this point will result in an assertion failure in ceph-mgr. For modules
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that implement the ``serve()`` method, it usually makes sense to do most
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initialization inside that method instead.
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Is something missing?
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---------------------
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The ceph-mgr python interface is not set in stone. If you have a need
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that is not satisfied by the current interface, please bring it up
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on the ceph-devel mailing list. While it is desired to avoid bloating
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the interface, it is not generally very hard to expose existing data
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to the Python code when there is a good reason.
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