.. _orchestrator-modules: .. py:currentmodule:: orchestrator ceph-mgr orchestrator modules ============================= .. warning:: This is developer documentation, describing Ceph internals that are only relevant to people writing ceph-mgr orchestrator modules. In this context, *orchestrator* refers to some external service that provides the ability to discover devices and create Ceph services. This includes external projects such as Rook. An *orchestrator module* is a ceph-mgr module (:ref:`mgr-module-dev`) which implements common management operations using a particular orchestrator. Orchestrator modules subclass the ``Orchestrator`` class: this class is an interface, it only provides method definitions to be implemented by subclasses. The purpose of defining this common interface for different orchestrators is to enable common UI code, such as the dashboard, to work with various different backends. .. graphviz:: digraph G { subgraph cluster_1 { volumes [label="mgr/volumes"] rook [label="mgr/rook"] dashboard [label="mgr/dashboard"] orchestrator_cli [label="mgr/orchestrator"] orchestrator [label="Orchestrator Interface"] cephadm [label="mgr/cephadm"] label = "ceph-mgr"; } volumes -> orchestrator dashboard -> orchestrator orchestrator_cli -> orchestrator orchestrator -> rook -> rook_io orchestrator -> cephadm rook_io [label="Rook"] rankdir="TB"; } Behind all the abstraction, the purpose of orchestrator modules is simple: enable Ceph to do things like discover available hardware, create and destroy OSDs, and run MDS and RGW services. A tutorial is not included here: for full and concrete examples, see the existing implemented orchestrator modules in the Ceph source tree. Glossary -------- Stateful service a daemon that uses local storage, such as OSD or mon. Stateless service a daemon that doesn't use any local storage, such as an MDS, RGW, nfs-ganesha, iSCSI gateway. Label arbitrary string tags that may be applied by administrators to hosts. Typically administrators use labels to indicate which hosts should run which kinds of service. Labels are advisory (from human input) and do not guarantee that hosts have particular physical capabilities. Drive group collection of block devices with common/shared OSD formatting (typically one or more SSDs acting as journals/dbs for a group of HDDs). Placement choice of which host is used to run a service. Key Concepts ------------ The underlying orchestrator remains the source of truth for information about whether a service is running, what is running where, which hosts are available, etc. Orchestrator modules should avoid taking any internal copies of this information, and read it directly from the orchestrator backend as much as possible. Bootstrapping hosts and adding them to the underlying orchestration system is outside the scope of Ceph's orchestrator interface. Ceph can only work on hosts when the orchestrator is already aware of them. Where possible, placement of stateless services should be left up to the orchestrator. Completions and batching ------------------------ All methods that read or modify the state of the system can potentially be long running. Therefore the module needs to schedule those operations. Each orchestrator module implements its own underlying mechanisms for completions. This might involve running the underlying operations in threads, or batching the operations up before later executing in one go in the background. If implementing such a batching pattern, the module would do no work on any operation until it appeared in a list of completions passed into *process*. Error Handling -------------- The main goal of error handling within orchestrator modules is to provide debug information to assist users when dealing with deployment errors. .. autoclass:: OrchestratorError .. autoclass:: NoOrchestrator .. autoclass:: OrchestratorValidationError In detail, orchestrators need to explicitly deal with different kinds of errors: 1. No orchestrator configured See :class:`NoOrchestrator`. 2. An orchestrator doesn't implement a specific method. For example, an Orchestrator doesn't support ``add_host``. In this case, a ``NotImplementedError`` is raised. 3. Missing features within implemented methods. E.g. optional parameters to a command that are not supported by the backend (e.g. the hosts field in :func:`Orchestrator.apply_mons` command with the rook backend). See :class:`OrchestratorValidationError`. 4. Input validation errors The ``orchestrator`` module and other calling modules are supposed to provide meaningful error messages. See :class:`OrchestratorValidationError`. 5. Errors when actually executing commands The resulting Completion should contain an error string that assists in understanding the problem. In addition, :func:`Completion.is_errored` is set to ``True`` 6. Invalid configuration in the orchestrator modules This can be tackled similar to 5. All other errors are unexpected orchestrator issues and thus should raise an exception that are then logged into the mgr log file. If there is a completion object at that point, :func:`Completion.result` may contain an error message. Excluded functionality ---------------------- - Ceph's orchestrator interface is not a general purpose framework for managing linux servers -- it is deliberately constrained to manage the Ceph cluster's services only. - Multipathed storage is not handled (multipathing is unnecessary for Ceph clusters). Each drive is assumed to be visible only on a single host. Host management --------------- .. automethod:: Orchestrator.add_host .. automethod:: Orchestrator.remove_host .. automethod:: Orchestrator.get_hosts .. automethod:: Orchestrator.update_host_addr .. automethod:: Orchestrator.add_host_label .. automethod:: Orchestrator.remove_host_label .. autoclass:: HostSpec Devices ------- .. automethod:: Orchestrator.get_inventory .. autoclass:: InventoryFilter .. py:currentmodule:: ceph.deployment.inventory .. autoclass:: Devices :members: .. autoclass:: Device :members: .. py:currentmodule:: orchestrator Placement --------- A :ref:`orchestrator-cli-placement-spec` defines the placement of daemons of a specific service. In general, stateless services do not require any specific placement rules as they can run anywhere that sufficient system resources are available. However, some orchestrators may not include the functionality to choose a location in this way. Optionally, you can specify a location when creating a stateless service. .. py:currentmodule:: ceph.deployment.service_spec .. autoclass:: PlacementSpec :members: .. py:currentmodule:: orchestrator Services -------- .. autoclass:: ServiceDescription .. py:currentmodule:: ceph.deployment.service_spec .. autoclass:: ServiceSpec :members: :private-members: :noindex: .. py:currentmodule:: orchestrator .. automethod:: Orchestrator.describe_service .. automethod:: Orchestrator.service_action .. automethod:: Orchestrator.remove_service Daemons ------- .. automethod:: Orchestrator.list_daemons .. automethod:: Orchestrator.remove_daemons .. automethod:: Orchestrator.daemon_action .. autoclass:: DaemonDescription .. autoclass:: DaemonDescriptionStatus OSD management -------------- .. automethod:: Orchestrator.create_osds .. automethod:: Orchestrator.blink_device_light .. autoclass:: DeviceLightLoc .. _orchestrator-osd-replace: OSD Replacement ^^^^^^^^^^^^^^^ See :ref:`rados-replacing-an-osd` for the underlying process. Replacing OSDs is fundamentally a two-staged process, as users need to physically replace drives. The orchestrator therefore exposes this two-staged process. Phase one is a call to :meth:`Orchestrator.remove_daemons` with ``destroy=True`` in order to mark the OSD as destroyed. Phase two is a call to :meth:`Orchestrator.create_osds` with a Drive Group with .. py:currentmodule:: ceph.deployment.drive_group :attr:`DriveGroupSpec.osd_id_claims` set to the destroyed OSD ids. .. py:currentmodule:: orchestrator Services -------- .. automethod:: Orchestrator.add_daemon .. automethod:: Orchestrator.apply_mon .. automethod:: Orchestrator.apply_mgr .. automethod:: Orchestrator.apply_mds .. automethod:: Orchestrator.apply_rbd_mirror .. py:currentmodule:: ceph.deployment.service_spec .. autoclass:: RGWSpec :noindex: .. py:currentmodule:: orchestrator .. automethod:: Orchestrator.apply_rgw .. py:currentmodule:: ceph.deployment.service_spec .. autoclass:: NFSServiceSpec .. py:currentmodule:: orchestrator .. automethod:: Orchestrator.apply_nfs Upgrades -------- .. automethod:: Orchestrator.upgrade_available .. automethod:: Orchestrator.upgrade_start .. automethod:: Orchestrator.upgrade_status .. autoclass:: UpgradeStatusSpec Utility ------- .. automethod:: Orchestrator.available .. automethod:: Orchestrator.get_feature_set Client Modules -------------- .. autoclass:: OrchestratorClientMixin :members: