ceph-mgr module developer’s guide¶
Warning
This is developer documentation, describing Ceph internals that are only relevant to people writing ceph-mgr modules.
Creating a module¶
In pybind/mgr/, create a python module. Within your module, create a class
that inherits from MgrModule
. For ceph-mgr to detect your module, your
directory must contain a file called module.py.
The most important methods to override are:
a
serve
member function for server-type modules. This function should block forever.a
notify
member function if your module needs to take action when new cluster data is available.a
handle_command
member function if your module exposes CLI commands.
Some modules interface with external orchestrators to deploy
Ceph services. These also inherit from Orchestrator
, which adds
additional methods to the base MgrModule
class. See
Orchestrator modules for more on
creating these modules.
Installing a module¶
Once your module is present in the location set by the
mgr module path
configuration setting, you can enable it
via the ceph mgr module enable
command:
ceph mgr module enable mymodule
Note that the MgrModule interface is not stable, so any modules maintained outside of the Ceph tree are liable to break when run against any newer or older versions of Ceph.
Logging¶
Logging in Ceph manager modules is done as in any other Python program. Just
import the logging
package and get a logger instance with the
logging.getLogger
function.
Each module has a log_level
option that specifies the current Python
logging level of the module.
To change or query the logging level of the module use the following Ceph
commands:
ceph config get mgr mgr/<module_name>/log_level
ceph config set mgr mgr/<module_name>/log_level <info|debug|critical|error|warning|>
The logging level used upon the module’s start is determined by the current
logging level of the mgr daemon, unless if the log_level
option was
previously set with the config set ...
command. The mgr daemon logging
level is mapped to the module python logging level as follows:
<= 0 is CRITICAL
<= 1 is WARNING
<= 4 is INFO
<= +inf is DEBUG
We can unset the module log level and fallback to the mgr daemon logging level by running the following command:
ceph config set mgr mgr/<module_name>/log_level ''
By default, modules’ logging messages are processed by the Ceph logging layer where they will be recorded in the mgr daemon’s log file. But it’s also possible to send a module’s logging message to it’s own file.
The module’s log file will be located in the same directory as the mgr daemon’s log file with the following name pattern:
<mgr_daemon_log_file_name>.<module_name>.log
To enable the file logging on a module use the following command:
ceph config set mgr mgr/<module_name>/log_to_file true
When the module’s file logging is enabled, module’s logging messages stop being written to the mgr daemon’s log file and are only written to the module’s log file.
It’s also possible to check the status and disable the file logging with the following commands:
ceph config get mgr mgr/<module_name>/log_to_file
ceph config set mgr mgr/<module_name>/log_to_file false
Exposing commands¶
Set the COMMANDS
class attribute of your module to a list of dicts
like this:
COMMANDS = [
{
"cmd": "foobar name=myarg,type=CephString",
"desc": "Do something awesome",
"perm": "rw",
# optional:
"poll": "true"
}
]
The cmd
part of each entry is parsed in the same way as internal
Ceph mon and admin socket commands (see mon/MonCommands.h in
the Ceph source for examples). Note that the “poll” field is optional,
and is set to False by default; this indicates to the ceph
CLI
that it should call this command repeatedly and output results (see
ceph -h
and its --period
option).
Each command is expected to return a tuple (retval, stdout, stderr)
.
retval
is an integer representing a libc error code (e.g. EINVAL,
EPERM, or 0 for no error), stdout
is a string containing any
non-error output, and stderr
is a string containing any progress or
error explanation output. Either or both of the two strings may be empty.
Implement the handle_command
function to respond to the commands
when they are sent:
-
MgrModule.
handle_command
(inbuf, cmd)¶ Called by ceph-mgr to request the plugin to handle one of the commands that it declared in self.COMMANDS
Return a status code, an output buffer, and an output string. The output buffer is for data results, the output string is for informative text.
- Parameters
inbuf (str) – content of any “-i <file>” supplied to ceph cli
cmd (dict) – from Ceph’s cmdmap_t
- Returns
HandleCommandResult or a 3-tuple of (int, str, str)
Configuration options¶
Modules can load and store configuration options using the
set_module_option
and get_module_option
methods.
Note
Use set_module_option
and get_module_option
to
manage user-visible configuration options that are not blobs (like
certificates). If you want to persist module-internal data or
binary configuration data consider using the KV store.
You must declare your available configuration options in the
MODULE_OPTIONS
class attribute, like this:
MODULE_OPTIONS = [
{
"name": "my_option"
}
]
If you try to use set_module_option or get_module_option on options not declared
in MODULE_OPTIONS
, an exception will be raised.
You may choose to provide setter commands in your module to perform high level validation. Users can also modify configuration using the normal ceph config set command, where the configuration options for a mgr module are named like mgr/<module name>/<option>.
If a configuration option is different depending on which node the mgr
is running on, then use localized configuration (
get_localized_module_option
, set_localized_module_option
).
This may be necessary for options such as what address to listen on.
Localized options may also be set externally with ceph config set
,
where they key name is like mgr/<module name>/<mgr id>/<option>
If you need to load and store data (e.g. something larger, binary, or multiline), use the KV store instead of configuration options (see next section).
Hints for using config options:
Reads are fast: ceph-mgr keeps a local in-memory copy, so in many cases you can just do a get_module_option every time you use a option, rather than copying it out into a variable.
Writes block until the value is persisted (i.e. round trip to the monitor), but reads from another thread will see the new value immediately.
If a user has used config set from the command line, then the new value will become visible to get_module_option immediately, although the mon->mgr update is asynchronous, so config set will return a fraction of a second before the new value is visible on the mgr.
To delete a config value (i.e. revert to default), just pass
None
to set_module_option.
-
MgrModule.
get_module_option
(key, default=None)¶ Retrieve the value of a persistent configuration setting
- Parameters
key (str) –
default (str) –
- Returns
str
-
MgrModule.
set_module_option
(key, val)¶ Set the value of a persistent configuration setting
- Parameters
key (str) –
-
MgrModule.
get_localized_module_option
(key, default=None)¶ Retrieve localized configuration for this ceph-mgr instance :param str key: :param str default: :return: str
-
MgrModule.
set_localized_module_option
(key, val)¶ Set localized configuration for this ceph-mgr instance :param str key: :param str val: :return: str
KV store¶
Modules have access to a private (per-module) key value store, which
is implemented using the monitor’s “config-key” commands. Use
the set_store
and get_store
methods to access the KV store from
your module.
The KV store commands work in a similar way to the configuration commands. Reads are fast, operating from a local cache. Writes block on persistence and do a round trip to the monitor.
This data can be access from outside of ceph-mgr using the
ceph config-key [get|set]
commands. Key names follow the same
conventions as configuration options. Note that any values updated
from outside of ceph-mgr will not be seen by running modules until
the next restart. Users should be discouraged from accessing module KV
data externally – if it is necessary for users to populate data, modules
should provide special commands to set the data via the module.
Use the get_store_prefix
function to enumerate keys within
a particular prefix (i.e. all keys starting with a particular substring).
-
MgrModule.
get_store
(key, default=None)¶ Get a value from this module’s persistent key value store
-
MgrModule.
set_store
(key, val)¶ Set a value in this module’s persistent key value store. If val is None, remove key from store
- Parameters
key (str) –
val (str) –
-
MgrModule.
get_localized_store
(key, default=None)¶
-
MgrModule.
set_localized_store
(key, val)¶
-
MgrModule.
get_store_prefix
(key_prefix)¶ Retrieve a dict of KV store keys to values, where the keys have the given prefix
- Parameters
key_prefix (str) –
- Returns
str
Accessing cluster data¶
Modules have access to the in-memory copies of the Ceph cluster’s state that the mgr maintains. Accessor functions as exposed as members of MgrModule.
Calls that access the cluster or daemon state are generally going from Python into native C++ routines. There is some overhead to this, but much less than for example calling into a REST API or calling into an SQL database.
There are no consistency rules about access to cluster structures or daemon metadata. For example, an OSD might exist in OSDMap but have no metadata, or vice versa. On a healthy cluster these will be very rare transient states, but modules should be written to cope with the possibility.
Note that these accessors must not be called in the modules __init__
function. This will result in a circular locking exception.
-
MgrModule.
get
(data_name)¶ Called by the plugin to fetch named cluster-wide objects from ceph-mgr.
- Parameters
data_name (str) – Valid things to fetch are osd_crush_map_text, osd_map, osd_map_tree, osd_map_crush, config, mon_map, fs_map, osd_metadata, pg_summary, io_rate, pg_dump, df, osd_stats, health, mon_status, devices, device <devid>.
- Note:
All these structures have their own JSON representations: experiment or look at the C++
dump()
methods to learn about them.
-
MgrModule.
get_server
(hostname)¶ Called by the plugin to fetch metadata about a particular hostname from ceph-mgr.
This is information that ceph-mgr has gleaned from the daemon metadata reported by daemons running on a particular server.
- Parameters
hostname – a hostname
-
MgrModule.
list_servers
()¶ Like
get_server
, but gives information about all servers (i.e. all unique hostnames that have been mentioned in daemon metadata)- Returns
a list of information about all servers
- Return type
list
-
MgrModule.
get_metadata
(svc_type, svc_id)¶ Fetch the daemon metadata for a particular service.
ceph-mgr fetches metadata asynchronously, so are windows of time during addition/removal of services where the metadata is not available to modules.
None
is returned if no metadata is available.- Parameters
svc_type (str) – service type (e.g., ‘mds’, ‘osd’, ‘mon’)
svc_id (str) – service id. convert OSD integer IDs to strings when calling this
- Return type
dict, or None if no metadata found
-
MgrModule.
get_daemon_status
(svc_type, svc_id)¶ Fetch the latest status for a particular service daemon.
This method may return
None
if no status information is available, for example because the daemon hasn’t fully started yet.- Parameters
svc_type – string (e.g., ‘rgw’)
svc_id – string
- Returns
dict, or None if the service is not found
-
MgrModule.
get_perf_schema
(svc_type, svc_name)¶ Called by the plugin to fetch perf counter schema info. svc_name can be nullptr, as can svc_type, in which case they are wildcards
- Parameters
svc_type (str) –
svc_name (str) –
- Returns
list of dicts describing the counters requested
-
MgrModule.
get_counter
(svc_type, svc_name, path)¶ Called by the plugin to fetch the latest performance counter data for a particular counter on a particular service.
- Parameters
svc_type (str) –
svc_name (str) –
path (str) – a period-separated concatenation of the subsystem and the counter name, for example “mds.inodes”.
- Returns
A list of two-tuples of (timestamp, value) is returned. This may be empty if no data is available.
-
MgrModule.
get_mgr_id
()¶ Retrieve the name of the manager daemon where this plugin is currently being executed (i.e. the active manager).
- Returns
str
Exposing health checks¶
Modules can raise first class Ceph health checks, which will be reported
in the output of ceph status
and in other places that report on the
cluster’s health.
If you use set_health_checks
to report a problem, be sure to call
it again with an empty dict to clear your health check when the problem
goes away.
-
MgrModule.
set_health_checks
(checks)¶ Set the module’s current map of health checks. Argument is a dict of check names to info, in this form:
{ 'CHECK_FOO': { 'severity': 'warning', # or 'error' 'summary': 'summary string', 'count': 4, # quantify badness 'detail': [ 'list', 'of', 'detail', 'strings' ], }, 'CHECK_BAR': { 'severity': 'error', 'summary': 'bars are bad', 'detail': [ 'too hard' ], }, }
- Parameters
list – dict of health check dicts
What if the mons are down?¶
The manager daemon gets much of its state (such as the cluster maps) from the monitor. If the monitor cluster is inaccessible, whichever manager was active will continue to run, with the latest state it saw still in memory.
However, if you are creating a module that shows the cluster state to the user then you may well not want to mislead them by showing them that out of date state.
To check if the manager daemon currently has a connection to the monitor cluster, use this function:
-
MgrModule.
have_mon_connection
()¶ Check whether this ceph-mgr daemon has an open connection to a monitor. If it doesn’t, then it’s likely that the information we have about the cluster is out of date, and/or the monitor cluster is down.
Reporting if your module cannot run¶
If your module cannot be run for any reason (such as a missing dependency),
then you can report that by implementing the can_run
function.
-
static
MgrModule.
can_run
()¶ Implement this function to report whether the module’s dependencies are met. For example, if the module needs to import a particular dependency to work, then use a try/except around the import at file scope, and then report here if the import failed.
This will be called in a blocking way from the C++ code, so do not do any I/O that could block in this function.
:return a 2-tuple consisting of a boolean and explanatory string
Note that this will only work properly if your module can always be imported:
if you are importing a dependency that may be absent, then do it in a
try/except block so that your module can be loaded far enough to use
can_run
even if the dependency is absent.
Sending commands¶
A non-blocking facility is provided for sending monitor commands to the cluster.
-
MgrModule.
send_command
(*args, **kwargs)¶ Called by the plugin to send a command to the mon cluster.
- Parameters
result (CommandResult) – an instance of the
CommandResult
class, defined in the same module as MgrModule. This acts as a completion and stores the output of the command. UseCommandResult.wait()
if you want to block on completion.svc_type (str) –
svc_id (str) –
command (str) – a JSON-serialized command. This uses the same format as the ceph command line, which is a dictionary of command arguments, with the extra
prefix
key containing the command name itself. Consult MonCommands.h for available commands and their expected arguments.tag (str) – used for nonblocking operation: when a command completes, the
notify()
callback on the MgrModule instance is triggered, with notify_type set to “command”, and notify_id set to the tag of the command.
Receiving notifications¶
The manager daemon calls the notify
function on all active modules
when certain important pieces of cluster state are updated, such as the
cluster maps.
The actual data is not passed into this function, rather it is a cue for the module to go and read the relevant structure if it is interested. Most modules ignore most types of notification: to ignore a notification simply return from this function without doing anything.
-
MgrModule.
notify
(notify_type, notify_id)¶ Called by the ceph-mgr service to notify the Python plugin that new state is available.
- Parameters
notify_type – string indicating what kind of notification, such as osd_map, mon_map, fs_map, mon_status, health, pg_summary, command, service_map
notify_id – string (may be empty) that optionally specifies which entity is being notified about. With “command” notifications this is set to the tag
from send_command
.
Accessing RADOS or CephFS¶
If you want to use the librados python API to access data stored in
the Ceph cluster, you can access the rados
attribute of your
MgrModule
instance. This is an instance of rados.Rados
which
has been constructed for you using the existing Ceph context (an internal
detail of the C++ Ceph code) of the mgr daemon.
Always use this specially constructed librados instance instead of constructing one by hand.
Similarly, if you are using libcephfs to access the file system, then
use the libcephfs create_with_rados
to construct it from the
MgrModule.rados
librados instance, and thereby inherit the correct context.
Remember that your module may be running while other parts of the cluster are down: do not assume that librados or libcephfs calls will return promptly – consider whether to use timeouts or to block if the rest of the cluster is not fully available.
Implementing standby mode¶
For some modules, it is useful to run on standby manager daemons as well as on the active daemon. For example, an HTTP server can usefully serve HTTP redirect responses from the standby managers so that the user can point his browser at any of the manager daemons without having to worry about which one is active.
Standby manager daemons look for a subclass of StandbyModule
in each module. If the class is not found then the module is not
used at all on standby daemons. If the class is found, then
its serve
method is called. Implementations of StandbyModule
must inherit from mgr_module.MgrStandbyModule
.
The interface of MgrStandbyModule
is much restricted compared to
MgrModule
– none of the Ceph cluster state is available to
the module. serve
and shutdown
methods are used in the same
way as a normal module class. The get_active_uri
method enables
the standby module to discover the address of its active peer in
order to make redirects. See the MgrStandbyModule
definition
in the Ceph source code for the full list of methods.
For an example of how to use this interface, look at the source code
of the dashboard
module.
Communicating between modules¶
Modules can invoke member functions of other modules.
-
MgrModule.
remote
(module_name, method_name, *args, **kwargs)¶ Invoke a method on another module. All arguments, and the return value from the other module must be serializable.
Limitation: Do not import any modules within the called method. Otherwise you will get an error in Python 2:
RuntimeError('cannot unmarshal code objects in restricted execution mode',)
- Parameters
module_name – Name of other module. If module isn’t loaded, an ImportError exception is raised.
method_name – Method name. If it does not exist, a NameError exception is raised.
args – Argument tuple
kwargs – Keyword argument dict
- Raises
RuntimeError – Any error raised within the method is converted to a RuntimeError
ImportError – No such module
Be sure to handle ImportError
to deal with the case that the desired
module is not enabled.
If the remote method raises a python exception, this will be converted to a RuntimeError on the calling side, where the message string describes the exception that was originally thrown. If your logic intends to handle certain errors cleanly, it is better to modify the remote method to return an error value instead of raising an exception.
At time of writing, inter-module calls are implemented without copies or serialization, so when you return a python object, you’re returning a reference to that object to the calling module. It is recommend not to rely on this reference passing, as in future the implementation may change to serialize arguments and return values.
Shutting down cleanly¶
If a module implements the serve()
method, it should also implement
the shutdown()
method to shutdown cleanly: misbehaving modules
may otherwise prevent clean shutdown of ceph-mgr.
Limitations¶
It is not possible to call back into C++ code from a module’s
__init__()
method. For example calling self.get_module_option()
at
this point will result in an assertion failure in ceph-mgr. For modules
that implement the serve()
method, it usually makes sense to do most
initialization inside that method instead.
Is something missing?¶
The ceph-mgr python interface is not set in stone. If you have a need that is not satisfied by the current interface, please bring it up on the ceph-devel mailing list. While it is desired to avoid bloating the interface, it is not generally very hard to expose existing data to the Python code when there is a good reason.