ceph-mgr orchestrator modules
警告
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 (ceph-mgr module developer's guide) 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.
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.
- class orchestrator.OrchestratorError(msg, errno=- 22, event_kind_subject=None)
General orchestrator specific error.
Used for deployment, configuration or user errors.
It's not intended for programming errors or orchestrator internal errors.
- class orchestrator.NoOrchestrator(msg='No orchestrator configured (try `ceph orch set backend`)')
No orchestrator in configured.
- class orchestrator.OrchestratorValidationError(msg, errno=- 22, event_kind_subject=None)
Raised when an orchestrator doesn't support a specific feature.
In detail, orchestrators need to explicitly deal with different kinds of errors:
No orchestrator configured
See
NoOrchestrator
.An orchestrator doesn't implement a specific method.
For example, an Orchestrator doesn't support
add_host
.In this case, a
NotImplementedError
is raised.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
Orchestrator.apply_mons()
command with the rook backend).Input validation errors
The
orchestrator
module and other calling modules are supposed to provide meaningful error messages.Errors when actually executing commands
The resulting Completion should contain an error string that assists in understanding the problem. In addition,
Completion.is_errored()
is set toTrue
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,
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
- Orchestrator.add_host(host_spec)
Add a host to the orchestrator inventory.
- 参数
host -- hostname
- 返回类型
OrchResult
[str
]
- Orchestrator.remove_host(host, force, offline)
Remove a host from the orchestrator inventory.
- 参数
host (
str
) -- hostname- 返回类型
OrchResult
[str
]
- Orchestrator.get_hosts()
Report the hosts in the cluster.
- 返回类型
OrchResult
[List
[HostSpec
]]- 返回
list of HostSpec
- Orchestrator.update_host_addr(host, addr)
Update a host's address
- 参数
host (
str
) -- hostnameaddr (
str
) -- address (dns name or IP)
- 返回类型
OrchResult
[str
]
- Orchestrator.add_host_label(host, label)
Add a host label
- 返回类型
OrchResult
[str
]
- Orchestrator.remove_host_label(host, label, force=False)
Remove a host label
- 返回类型
OrchResult
[str
]
- class orchestrator.HostSpec(hostname, addr=None, labels=None, status=None, location=None)
Information about hosts. Like e.g.
kubectl get nodes
Devices
- Orchestrator.get_inventory(host_filter=None, refresh=False)
Returns something that was created by ceph-volume inventory.
- 返回类型
OrchResult
[List
[InventoryHost
]]- 返回
list of InventoryHost
- class orchestrator.InventoryFilter(labels=None, hosts=None)
When fetching inventory, use this filter to avoid unnecessarily scanning the whole estate.
Typical use:
filter by host when presentig UI workflow for configuring a particular server. filter by label when not all of estate is Ceph servers, and we want to only learn about the Ceph servers. filter by label when we are interested particularly in e.g. OSD servers.
- class ceph.deployment.inventory.Devices(devices)
A container for Device instances with reporting
- class ceph.deployment.inventory.Device(path, sys_api=None, available=None, rejected_reasons=None, lvs=None, device_id=None, lsm_data=None, created=None, ceph_device=None)
Placement
A Daemon Placement 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.
- class ceph.deployment.service_spec.PlacementSpec(label=None, hosts=None, count=None, count_per_host=None, host_pattern=None)
For APIs that need to specify a host subset
- classmethod from_string(arg)
A single integer is parsed as a count:
>>> PlacementSpec.from_string('3') PlacementSpec(count=3)
A list of names is parsed as host specifications:
>>> PlacementSpec.from_string('host1 host2') PlacementSpec(hosts=[HostPlacementSpec(hostname='host1', network='', name=''), HostPlacementSpec(hostname='host2', network='', name='')])
You can also prefix the hosts with a count as follows:
>>> PlacementSpec.from_string('2 host1 host2') PlacementSpec(count=2, hosts=[HostPlacementSpec(hostname='host1', network='', name=''), HostPlacementSpec(hostname='host2', network='', name='')])
You can specify labels using label:<label>
>>> PlacementSpec.from_string('label:mon') PlacementSpec(label='mon')
Labels also support a count:
>>> PlacementSpec.from_string('3 label:mon') PlacementSpec(count=3, label='mon')
fnmatch is also supported:
>>> PlacementSpec.from_string('data[1-3]') PlacementSpec(host_pattern='data[1-3]')
>>> PlacementSpec.from_string(None) PlacementSpec()
- 返回类型
- host_pattern: Optional[str]
fnmatch patterns to select hosts. Can also be a single host.
- pretty_str()
>>> ... ps = PlacementSpec(...) # For all placement specs: ... PlacementSpec.from_string(ps.pretty_str()) == ps
- 返回类型
str
Services
- class orchestrator.ServiceDescription(spec, container_image_id=None, container_image_name=None, service_url=None, last_refresh=None, created=None, deleted=None, size=0, running=0, events=None, virtual_ip=None, ports=[])
For responding to queries about the status of a particular service, stateful or stateless.
This is not about health or performance monitoring of services: it's about letting the orchestrator tell Ceph whether and where a service is scheduled in the cluster. When an orchestrator tells Ceph "it's running on host123", that's not a promise that the process is literally up this second, it's a description of where the orchestrator has decided the service should run.
- class ceph.deployment.service_spec.ServiceSpec(service_type, service_id=None, placement=None, count=None, config=None, unmanaged=False, preview_only=False, networks=None, extra_container_args=None)
Details of service creation.
Request to the orchestrator for a cluster of daemons such as MDS, RGW, iscsi gateway, MONs, MGRs, Prometheus
This structure is supposed to be enough information to start the services.
- classmethod from_json(cls, json_spec)
Initialize 'ServiceSpec' object data from a json structure
There are two valid styles for service specs:
the "old" style:
service_type: nfs service_id: foo pool: mypool namespace: myns
and the "new" style:
service_type: nfs service_id: foo config: some_option: the_value networks: [10.10.0.0/16] spec: pool: mypool namespace: myns
In https://tracker.ceph.com/issues/45321 we decided that we'd like to prefer the new style as it is more readable and provides a better understanding of what fields are special for a give service type.
Note, we'll need to stay compatible with both versions for the the next two major releases (octoups, pacific).
- 参数
json_spec (
Dict
) -- A valid dict with ServiceSpec- 返回类型
TypeVar
(ServiceSpecT
, bound=ServiceSpec
)
- networks: List[str]
A list of network identities instructing the daemons to only bind on the particular networks in that list. In case the cluster is distributed across multiple networks, you can add multiple networks. See Networks and Ports, Specifying Networks and Specifying Networks.
- placement: ceph.deployment.service_spec.PlacementSpec
See Daemon Placement.
- service_id
The name of the service. Required for
iscsi
,mds
,nfs
,osd
,rgw
,container
,ingress
- service_type
The type of the service. Needs to be either a Ceph service (
mon
,crash
,mds
,mgr
,osd
orrbd-mirror
), a gateway (nfs
orrgw
), part of the monitoring stack (alertmanager
,grafana
,node-exporter
orprometheus
) or (container
) for custom containers.
- unmanaged
If set to
true
, the orchestrator will not deploy nor remove any daemon associated with this service. Placement and all other properties will be ignored. This is useful, if you do not want this service to be managed temporarily. For cephadm, See Disabling automatic deployment of daemons
- Orchestrator.describe_service(service_type=None, service_name=None, refresh=False)
Describe a service (of any kind) that is already configured in the orchestrator. For example, when viewing an OSD in the dashboard we might like to also display information about the orchestrator's view of the service (like the kubernetes pod ID).
When viewing a CephFS filesystem in the dashboard, we would use this to display the pods being currently run for MDS daemons.
- 返回类型
OrchResult
[List
[ServiceDescription
]]- 返回
list of ServiceDescription objects.
- Orchestrator.service_action(action, service_name)
Perform an action (start/stop/reload) on a service (i.e., all daemons providing the logical service).
- 参数
action (
str
) -- one of "start", "stop", "restart", "redeploy", "reconfig"service_name (
str
) -- service_type + '.' + service_id (e.g. "mon", "mgr", "mds.mycephfs", "rgw.realm.zone", ...)
- 返回类型
OrchResult
- Orchestrator.remove_service(service_name, force=False)
Remove a service (a collection of daemons).
- 返回类型
OrchResult
[str
]- 返回
None
Daemons
- Orchestrator.list_daemons(service_name=None, daemon_type=None, daemon_id=None, host=None, refresh=False)
Describe a daemon (of any kind) that is already configured in the orchestrator.
- 返回类型
OrchResult
[List
[DaemonDescription
]]- 返回
list of DaemonDescription objects.
- Orchestrator.remove_daemons(names)
Remove specific daemon(s).
- 返回类型
OrchResult
[List
[str
]]- 返回
None
- Orchestrator.daemon_action(action, daemon_name, image=None)
Perform an action (start/stop/reload) on a daemon.
- 参数
action (
str
) -- one of "start", "stop", "restart", "redeploy", "reconfig"daemon_name (
str
) -- name of daemonimage (
Optional
[str
]) -- Container image when redeploying that daemon
- 返回类型
OrchResult
- class orchestrator.DaemonDescription(daemon_type=None, daemon_id=None, hostname=None, container_id=None, container_image_id=None, container_image_name=None, container_image_digests=None, version=None, status=None, status_desc=None, last_refresh=None, created=None, started=None, last_configured=None, osdspec_affinity=None, last_deployed=None, events=None, is_active=False, memory_usage=None, memory_request=None, memory_limit=None, cpu_percentage=None, service_name=None, ports=None, ip=None, deployed_by=None, rank=None, rank_generation=None, extra_container_args=None)
For responding to queries about the status of a particular daemon, stateful or stateless.
This is not about health or performance monitoring of daemons: it's about letting the orchestrator tell Ceph whether and where a daemon is scheduled in the cluster. When an orchestrator tells Ceph "it's running on host123", that's not a promise that the process is literally up this second, it's a description of where the orchestrator has decided the daemon should run.
- class orchestrator.DaemonDescriptionStatus(value)
An enumeration.
OSD management
- Orchestrator.create_osds(drive_group)
Create one or more OSDs within a single Drive Group.
The principal argument here is the drive_group member of OsdSpec: other fields are advisory/extensible for any finer-grained OSD feature enablement (choice of backing store, compression/encryption, etc).
- 返回类型
OrchResult
[str
]
- Orchestrator.blink_device_light(ident_fault, on, locations)
Instructs the orchestrator to enable or disable either the ident or the fault LED.
- 参数
ident_fault (
str
) -- either"ident"
or"fault"
on (
bool
) --True
= on.locations (
List
[DeviceLightLoc
]) -- Seeorchestrator.DeviceLightLoc
- 返回类型
OrchResult
[List
[str
]]
- class orchestrator.DeviceLightLoc(host, dev, path)
Describes a specific device on a specific host. Used for enabling or disabling LEDs on devices.
hostname as in
orchestrator.Orchestrator.get_hosts()
- device_id: e.g.
ABC1234DEF567-1R1234_ABC8DE0Q
. See
ceph osd metadata | jq '.[].device_ids'
- device_id: e.g.
OSD Replacement
See 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 Orchestrator.remove_daemons()
with destroy=True
in order to mark
the OSD as destroyed.
Phase two is a call to Orchestrator.create_osds()
with a Drive Group with
DriveGroupSpec.osd_id_claims
set to the destroyed OSD ids.
Services
- Orchestrator.add_daemon(spec)
Create daemons daemon(s) for unmanaged services
- 返回类型
OrchResult
[List
[str
]]
- Orchestrator.apply_mon(spec)
Update mon cluster
- 返回类型
OrchResult
[str
]
- Orchestrator.apply_mgr(spec)
Update mgr cluster
- 返回类型
OrchResult
[str
]
- Orchestrator.apply_mds(spec)
Update MDS cluster
- 返回类型
OrchResult
[str
]
- Orchestrator.apply_rbd_mirror(spec)
Update rbd-mirror cluster
- 返回类型
OrchResult
[str
]
- class ceph.deployment.service_spec.RGWSpec(service_type='rgw', service_id=None, placement=None, rgw_realm=None, rgw_zone=None, rgw_frontend_port=None, rgw_frontend_ssl_certificate=None, rgw_frontend_type=None, unmanaged=False, ssl=False, preview_only=False, config=None, networks=None, subcluster=None, extra_container_args=None)
Settings to configure a (multisite) Ceph RGW
service_type: rgw service_id: myrealm.myzone spec: rgw_realm: myrealm rgw_zone: myzone ssl: true rgw_frontend_port: 1234 rgw_frontend_type: beast rgw_frontend_ssl_certificate: ...
See also: Service Specification
- Orchestrator.apply_rgw(spec)
Update RGW cluster
- 返回类型
OrchResult
[str
]
- class ceph.deployment.service_spec.NFSServiceSpec(service_type='nfs', service_id=None, placement=None, unmanaged=False, preview_only=False, config=None, networks=None, port=None, extra_container_args=None)
- Orchestrator.apply_nfs(spec)
Update NFS cluster
- 返回类型
OrchResult
[str
]
Upgrades
- Orchestrator.upgrade_available()
Report on what versions are available to upgrade to
- 返回类型
OrchResult
- 返回
List of strings
- Orchestrator.upgrade_start(image, version, daemon_types, hosts, services, limit)
- 返回类型
OrchResult
[str
]
- Orchestrator.upgrade_status()
If an upgrade is currently underway, report on where we are in the process, or if some error has occurred.
- 返回类型
OrchResult
[UpgradeStatusSpec
]- 返回
UpgradeStatusSpec instance
- class orchestrator.UpgradeStatusSpec
Utility
- Orchestrator.available()
Report whether we can talk to the orchestrator. This is the place to give the user a meaningful message if the orchestrator isn't running or can't be contacted.
This method may be called frequently (e.g. every page load to conditionally display a warning banner), so make sure it's not too expensive. It's okay to give a slightly stale status (e.g. based on a periodic background ping of the orchestrator) if that's necessary to make this method fast.
备注
True doesn't mean that the desired functionality is actually available in the orchestrator. I.e. this won't work as expected:
>>> ... if OrchestratorClientMixin().available()[0]: # wrong. ... OrchestratorClientMixin().get_hosts()
- 返回
boolean representing whether the module is available/usable
- 返回
string describing any error
- 返回类型
Tuple
[bool
,str
,Dict
[str
,Any
]]- 返回
dict containing any module specific information
- Orchestrator.get_feature_set()
Describes which methods this orchestrator implements
备注
True doesn't mean that the desired functionality is actually possible in the orchestrator. I.e. this won't work as expected:
>>> ... api = OrchestratorClientMixin() ... if api.get_feature_set()['get_hosts']['available']: # wrong. ... api.get_hosts()
It's better to ask for forgiveness instead:
>>> ... try: ... OrchestratorClientMixin().get_hosts() ... except (OrchestratorError, NotImplementedError): ... ...
- 返回类型
Dict
[str
,dict
]- 返回
Dict of API method names to
{'available': True or False}
Client Modules
- class orchestrator.OrchestratorClientMixin
A module that inherents from OrchestratorClientMixin can directly call all
Orchestrator
methods without manually calling remote.Every interface method from
Orchestrator
is converted into a stub method that internally callsOrchestratorClientMixin._oremote()
>>> class MyModule(OrchestratorClientMixin): ... def func(self): ... completion = self.add_host('somehost') # calls `_oremote()` ... self.log.debug(completion.result)
备注
Orchestrator implementations should not inherit from OrchestratorClientMixin. Reason is, that OrchestratorClientMixin magically redirects all methods to the "real" implementation of the orchestrator.
>>> import mgr_module >>> ... class MyImplentation(mgr_module.MgrModule, Orchestrator): ... def __init__(self, ...): ... self.orch_client = OrchestratorClientMixin() ... self.orch_client.set_mgr(self.mgr))
- add_daemon(spec)
Create daemons daemon(s) for unmanaged services
- 返回类型
OrchResult
[List
[str
]]
- add_host(host_spec)
Add a host to the orchestrator inventory.
- 参数
host -- hostname
- 返回类型
OrchResult
[str
]
- add_host_label(host, label)
Add a host label
- 返回类型
OrchResult
[str
]
- apply(specs, no_overwrite=False)
Applies any spec
- 返回类型
List
[str
]
- apply_alertmanager(spec)
Update an existing AlertManager daemon(s)
- 返回类型
OrchResult
[str
]
- apply_crash(spec)
Update existing a crash daemon(s)
- 返回类型
OrchResult
[str
]
- apply_drivegroups(specs)
Update OSD cluster
- 返回类型
OrchResult
[List
[str
]]
- apply_grafana(spec)
Update existing a grafana service
- 返回类型
OrchResult
[str
]
- apply_ingress(spec)
Update ingress daemons
- 返回类型
OrchResult
[str
]
- apply_iscsi(spec)
Update iscsi cluster
- 返回类型
OrchResult
[str
]
- apply_loki(spec)
Update existing a Loki daemon(s)
- 返回类型
OrchResult
[str
]
- apply_mds(spec)
Update MDS cluster
- 返回类型
OrchResult
[str
]
- apply_mgr(spec)
Update mgr cluster
- 返回类型
OrchResult
[str
]
- apply_mon(spec)
Update mon cluster
- 返回类型
OrchResult
[str
]
- apply_nfs(spec)
Update NFS cluster
- 返回类型
OrchResult
[str
]
- apply_node_exporter(spec)
Update existing a Node-Exporter daemon(s)
- 返回类型
OrchResult
[str
]
- apply_prometheus(spec)
Update prometheus cluster
- 返回类型
OrchResult
[str
]
- apply_promtail(spec)
Update existing a Promtail daemon(s)
- 返回类型
OrchResult
[str
]
- apply_rbd_mirror(spec)
Update rbd-mirror cluster
- 返回类型
OrchResult
[str
]
- apply_rgw(spec)
Update RGW cluster
- 返回类型
OrchResult
[str
]
- apply_snmp_gateway(spec)
Update an existing snmp gateway service
- 返回类型
OrchResult
[str
]
- available()
Report whether we can talk to the orchestrator. This is the place to give the user a meaningful message if the orchestrator isn't running or can't be contacted.
This method may be called frequently (e.g. every page load to conditionally display a warning banner), so make sure it's not too expensive. It's okay to give a slightly stale status (e.g. based on a periodic background ping of the orchestrator) if that's necessary to make this method fast.
备注
True doesn't mean that the desired functionality is actually available in the orchestrator. I.e. this won't work as expected:
>>> ... if OrchestratorClientMixin().available()[0]: # wrong. ... OrchestratorClientMixin().get_hosts()
- 返回
boolean representing whether the module is available/usable
- 返回
string describing any error
- 返回类型
Tuple
[bool
,str
,Dict
[str
,Any
]]- 返回
dict containing any module specific information
- blink_device_light(ident_fault, on, locations)
Instructs the orchestrator to enable or disable either the ident or the fault LED.
- 参数
ident_fault (
str
) -- either"ident"
or"fault"
on (
bool
) --True
= on.locations (
List
[DeviceLightLoc
]) -- Seeorchestrator.DeviceLightLoc
- 返回类型
OrchResult
[List
[str
]]
- cancel_completions()
Cancels ongoing completions. Unstuck the mgr.
- 返回类型
None
- create_osds(drive_group)
Create one or more OSDs within a single Drive Group.
The principal argument here is the drive_group member of OsdSpec: other fields are advisory/extensible for any finer-grained OSD feature enablement (choice of backing store, compression/encryption, etc).
- 返回类型
OrchResult
[str
]
- daemon_action(action, daemon_name, image=None)
Perform an action (start/stop/reload) on a daemon.
- 参数
action (
str
) -- one of "start", "stop", "restart", "redeploy", "reconfig"daemon_name (
str
) -- name of daemonimage (
Optional
[str
]) -- Container image when redeploying that daemon
- 返回类型
OrchResult
- describe_service(service_type=None, service_name=None, refresh=False)
Describe a service (of any kind) that is already configured in the orchestrator. For example, when viewing an OSD in the dashboard we might like to also display information about the orchestrator's view of the service (like the kubernetes pod ID).
When viewing a CephFS filesystem in the dashboard, we would use this to display the pods being currently run for MDS daemons.
- 返回类型
OrchResult
[List
[ServiceDescription
]]- 返回
list of ServiceDescription objects.
- drain_host(hostname, force=False)
drain all daemons from a host
- 参数
hostname (
str
) -- hostname- 返回类型
OrchResult
[str
]
- enter_host_maintenance(hostname, force=False)
Place a host in maintenance, stopping daemons and disabling it's systemd target
- 返回类型
OrchResult
- exit_host_maintenance(hostname)
Return a host from maintenance, restarting the clusters systemd target
- 返回类型
OrchResult
- get_facts(hostname=None)
Return hosts metadata(gather_facts).
- 返回类型
OrchResult
[List
[Dict
[str
,Any
]]]
- get_feature_set()
Describes which methods this orchestrator implements
备注
True doesn't mean that the desired functionality is actually possible in the orchestrator. I.e. this won't work as expected:
>>> ... api = OrchestratorClientMixin() ... if api.get_feature_set()['get_hosts']['available']: # wrong. ... api.get_hosts()
It's better to ask for forgiveness instead:
>>> ... try: ... OrchestratorClientMixin().get_hosts() ... except (OrchestratorError, NotImplementedError): ... ...
- 返回类型
Dict
[str
,dict
]- 返回
Dict of API method names to
{'available': True or False}
- get_inventory(host_filter=None, refresh=False)
Returns something that was created by ceph-volume inventory.
- 返回类型
OrchResult
[List
[InventoryHost
]]- 返回
list of InventoryHost
- host_ok_to_stop(hostname)
Check if the specified host can be safely stopped without reducing availability
- 参数
host -- hostname
- 返回类型
OrchResult
- list_daemons(service_name=None, daemon_type=None, daemon_id=None, host=None, refresh=False)
Describe a daemon (of any kind) that is already configured in the orchestrator.
- 返回类型
OrchResult
[List
[DaemonDescription
]]- 返回
list of DaemonDescription objects.
- plan(spec)
Plan (Dry-run, Preview) a List of Specs.
- 返回类型
OrchResult
[List
]
- preview_osdspecs(osdspec_name='osd', osdspecs=None)
Get a preview for OSD deployments
- 返回类型
OrchResult
[str
]
- remove_daemons(names)
Remove specific daemon(s).
- 返回类型
OrchResult
[List
[str
]]- 返回
None
- remove_host(host, force, offline)
Remove a host from the orchestrator inventory.
- 参数
host (
str
) -- hostname- 返回类型
OrchResult
[str
]
- remove_host_label(host, label, force=False)
Remove a host label
- 返回类型
OrchResult
[str
]
- remove_osds(osd_ids, replace=False, force=False, zap=False)
- 参数
osd_ids (
List
[str
]) -- list of OSD IDsreplace (
bool
) -- marks the OSD as being destroyed. See OSD Replacementforce (
bool
) -- Forces the OSD removal process without waiting for the data to be drained first.zap (
bool
) -- Zap/Erase all devices associated with the OSDs (DESTROYS DATA)
备注
this can only remove OSDs that were successfully created (i.e. got an OSD ID).
- 返回类型
OrchResult
[str
]
- remove_osds_status()
Returns a status of the ongoing OSD removal operations.
- 返回类型
OrchResult
- remove_service(service_name, force=False)
Remove a service (a collection of daemons).
- 返回类型
OrchResult
[str
]- 返回
None
- service_action(action, service_name)
Perform an action (start/stop/reload) on a service (i.e., all daemons providing the logical service).
- 参数
action (
str
) -- one of "start", "stop", "restart", "redeploy", "reconfig"service_name (
str
) -- service_type + '.' + service_id (e.g. "mon", "mgr", "mds.mycephfs", "rgw.realm.zone", ...)
- 返回类型
OrchResult
- set_mgr(mgr)
Useable in the Dashbord that uses a global
mgr
- 返回类型
None
- stop_remove_osds(osd_ids)
TODO
- 返回类型
OrchResult
- update_host_addr(host, addr)
Update a host's address
- 参数
host (
str
) -- hostnameaddr (
str
) -- address (dns name or IP)
- 返回类型
OrchResult
[str
]
- upgrade_available()
Report on what versions are available to upgrade to
- 返回类型
OrchResult
- 返回
List of strings
- upgrade_status()
If an upgrade is currently underway, report on where we are in the process, or if some error has occurred.
- 返回类型
OrchResult
[UpgradeStatusSpec
]- 返回
UpgradeStatusSpec instance
- zap_device(host, path)
Zap/Erase a device (DESTROYS DATA)
- 返回类型
OrchResult
[str
]