charm-ceph-osd/hooks/charmhelpers/core/hookenv.py

979 lines
29 KiB
Python

# Copyright 2014-2015 Canonical Limited.
#
# This file is part of charm-helpers.
#
# charm-helpers is free software: you can redistribute it and/or modify
# it under the terms of the GNU Lesser General Public License version 3 as
# published by the Free Software Foundation.
#
# charm-helpers is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public License
# along with charm-helpers. If not, see <http://www.gnu.org/licenses/>.
"Interactions with the Juju environment"
# Copyright 2013 Canonical Ltd.
#
# Authors:
# Charm Helpers Developers <juju@lists.ubuntu.com>
from __future__ import print_function
import copy
from distutils.version import LooseVersion
from functools import wraps
import glob
import os
import json
import yaml
import subprocess
import sys
import errno
import tempfile
from subprocess import CalledProcessError
import six
if not six.PY3:
from UserDict import UserDict
else:
from collections import UserDict
CRITICAL = "CRITICAL"
ERROR = "ERROR"
WARNING = "WARNING"
INFO = "INFO"
DEBUG = "DEBUG"
MARKER = object()
cache = {}
def cached(func):
"""Cache return values for multiple executions of func + args
For example::
@cached
def unit_get(attribute):
pass
unit_get('test')
will cache the result of unit_get + 'test' for future calls.
"""
@wraps(func)
def wrapper(*args, **kwargs):
global cache
key = str((func, args, kwargs))
try:
return cache[key]
except KeyError:
pass # Drop out of the exception handler scope.
res = func(*args, **kwargs)
cache[key] = res
return res
wrapper._wrapped = func
return wrapper
def flush(key):
"""Flushes any entries from function cache where the
key is found in the function+args """
flush_list = []
for item in cache:
if key in item:
flush_list.append(item)
for item in flush_list:
del cache[item]
def log(message, level=None):
"""Write a message to the juju log"""
command = ['juju-log']
if level:
command += ['-l', level]
if not isinstance(message, six.string_types):
message = repr(message)
command += [message]
# Missing juju-log should not cause failures in unit tests
# Send log output to stderr
try:
subprocess.call(command)
except OSError as e:
if e.errno == errno.ENOENT:
if level:
message = "{}: {}".format(level, message)
message = "juju-log: {}".format(message)
print(message, file=sys.stderr)
else:
raise
class Serializable(UserDict):
"""Wrapper, an object that can be serialized to yaml or json"""
def __init__(self, obj):
# wrap the object
UserDict.__init__(self)
self.data = obj
def __getattr__(self, attr):
# See if this object has attribute.
if attr in ("json", "yaml", "data"):
return self.__dict__[attr]
# Check for attribute in wrapped object.
got = getattr(self.data, attr, MARKER)
if got is not MARKER:
return got
# Proxy to the wrapped object via dict interface.
try:
return self.data[attr]
except KeyError:
raise AttributeError(attr)
def __getstate__(self):
# Pickle as a standard dictionary.
return self.data
def __setstate__(self, state):
# Unpickle into our wrapper.
self.data = state
def json(self):
"""Serialize the object to json"""
return json.dumps(self.data)
def yaml(self):
"""Serialize the object to yaml"""
return yaml.dump(self.data)
def execution_environment():
"""A convenient bundling of the current execution context"""
context = {}
context['conf'] = config()
if relation_id():
context['reltype'] = relation_type()
context['relid'] = relation_id()
context['rel'] = relation_get()
context['unit'] = local_unit()
context['rels'] = relations()
context['env'] = os.environ
return context
def in_relation_hook():
"""Determine whether we're running in a relation hook"""
return 'JUJU_RELATION' in os.environ
def relation_type():
"""The scope for the current relation hook"""
return os.environ.get('JUJU_RELATION', None)
@cached
def relation_id(relation_name=None, service_or_unit=None):
"""The relation ID for the current or a specified relation"""
if not relation_name and not service_or_unit:
return os.environ.get('JUJU_RELATION_ID', None)
elif relation_name and service_or_unit:
service_name = service_or_unit.split('/')[0]
for relid in relation_ids(relation_name):
remote_service = remote_service_name(relid)
if remote_service == service_name:
return relid
else:
raise ValueError('Must specify neither or both of relation_name and service_or_unit')
def local_unit():
"""Local unit ID"""
return os.environ['JUJU_UNIT_NAME']
def remote_unit():
"""The remote unit for the current relation hook"""
return os.environ.get('JUJU_REMOTE_UNIT', None)
def service_name():
"""The name service group this unit belongs to"""
return local_unit().split('/')[0]
@cached
def remote_service_name(relid=None):
"""The remote service name for a given relation-id (or the current relation)"""
if relid is None:
unit = remote_unit()
else:
units = related_units(relid)
unit = units[0] if units else None
return unit.split('/')[0] if unit else None
def hook_name():
"""The name of the currently executing hook"""
return os.environ.get('JUJU_HOOK_NAME', os.path.basename(sys.argv[0]))
class Config(dict):
"""A dictionary representation of the charm's config.yaml, with some
extra features:
- See which values in the dictionary have changed since the previous hook.
- For values that have changed, see what the previous value was.
- Store arbitrary data for use in a later hook.
NOTE: Do not instantiate this object directly - instead call
``hookenv.config()``, which will return an instance of :class:`Config`.
Example usage::
>>> # inside a hook
>>> from charmhelpers.core import hookenv
>>> config = hookenv.config()
>>> config['foo']
'bar'
>>> # store a new key/value for later use
>>> config['mykey'] = 'myval'
>>> # user runs `juju set mycharm foo=baz`
>>> # now we're inside subsequent config-changed hook
>>> config = hookenv.config()
>>> config['foo']
'baz'
>>> # test to see if this val has changed since last hook
>>> config.changed('foo')
True
>>> # what was the previous value?
>>> config.previous('foo')
'bar'
>>> # keys/values that we add are preserved across hooks
>>> config['mykey']
'myval'
"""
CONFIG_FILE_NAME = '.juju-persistent-config'
def __init__(self, *args, **kw):
super(Config, self).__init__(*args, **kw)
self.implicit_save = True
self._prev_dict = None
self.path = os.path.join(charm_dir(), Config.CONFIG_FILE_NAME)
if os.path.exists(self.path):
self.load_previous()
atexit(self._implicit_save)
def load_previous(self, path=None):
"""Load previous copy of config from disk.
In normal usage you don't need to call this method directly - it
is called automatically at object initialization.
:param path:
File path from which to load the previous config. If `None`,
config is loaded from the default location. If `path` is
specified, subsequent `save()` calls will write to the same
path.
"""
self.path = path or self.path
with open(self.path) as f:
self._prev_dict = json.load(f)
for k, v in copy.deepcopy(self._prev_dict).items():
if k not in self:
self[k] = v
def changed(self, key):
"""Return True if the current value for this key is different from
the previous value.
"""
if self._prev_dict is None:
return True
return self.previous(key) != self.get(key)
def previous(self, key):
"""Return previous value for this key, or None if there
is no previous value.
"""
if self._prev_dict:
return self._prev_dict.get(key)
return None
def save(self):
"""Save this config to disk.
If the charm is using the :mod:`Services Framework <services.base>`
or :meth:'@hook <Hooks.hook>' decorator, this
is called automatically at the end of successful hook execution.
Otherwise, it should be called directly by user code.
To disable automatic saves, set ``implicit_save=False`` on this
instance.
"""
with open(self.path, 'w') as f:
json.dump(self, f)
def _implicit_save(self):
if self.implicit_save:
self.save()
@cached
def config(scope=None):
"""Juju charm configuration"""
config_cmd_line = ['config-get']
if scope is not None:
config_cmd_line.append(scope)
config_cmd_line.append('--format=json')
try:
config_data = json.loads(
subprocess.check_output(config_cmd_line).decode('UTF-8'))
if scope is not None:
return config_data
return Config(config_data)
except ValueError:
return None
@cached
def relation_get(attribute=None, unit=None, rid=None):
"""Get relation information"""
_args = ['relation-get', '--format=json']
if rid:
_args.append('-r')
_args.append(rid)
_args.append(attribute or '-')
if unit:
_args.append(unit)
try:
return json.loads(subprocess.check_output(_args).decode('UTF-8'))
except ValueError:
return None
except CalledProcessError as e:
if e.returncode == 2:
return None
raise
def relation_set(relation_id=None, relation_settings=None, **kwargs):
"""Set relation information for the current unit"""
relation_settings = relation_settings if relation_settings else {}
relation_cmd_line = ['relation-set']
accepts_file = "--file" in subprocess.check_output(
relation_cmd_line + ["--help"], universal_newlines=True)
if relation_id is not None:
relation_cmd_line.extend(('-r', relation_id))
settings = relation_settings.copy()
settings.update(kwargs)
for key, value in settings.items():
# Force value to be a string: it always should, but some call
# sites pass in things like dicts or numbers.
if value is not None:
settings[key] = "{}".format(value)
if accepts_file:
# --file was introduced in Juju 1.23.2. Use it by default if
# available, since otherwise we'll break if the relation data is
# too big. Ideally we should tell relation-set to read the data from
# stdin, but that feature is broken in 1.23.2: Bug #1454678.
with tempfile.NamedTemporaryFile(delete=False) as settings_file:
settings_file.write(yaml.safe_dump(settings).encode("utf-8"))
subprocess.check_call(
relation_cmd_line + ["--file", settings_file.name])
os.remove(settings_file.name)
else:
for key, value in settings.items():
if value is None:
relation_cmd_line.append('{}='.format(key))
else:
relation_cmd_line.append('{}={}'.format(key, value))
subprocess.check_call(relation_cmd_line)
# Flush cache of any relation-gets for local unit
flush(local_unit())
def relation_clear(r_id=None):
''' Clears any relation data already set on relation r_id '''
settings = relation_get(rid=r_id,
unit=local_unit())
for setting in settings:
if setting not in ['public-address', 'private-address']:
settings[setting] = None
relation_set(relation_id=r_id,
**settings)
@cached
def relation_ids(reltype=None):
"""A list of relation_ids"""
reltype = reltype or relation_type()
relid_cmd_line = ['relation-ids', '--format=json']
if reltype is not None:
relid_cmd_line.append(reltype)
return json.loads(
subprocess.check_output(relid_cmd_line).decode('UTF-8')) or []
return []
@cached
def related_units(relid=None):
"""A list of related units"""
relid = relid or relation_id()
units_cmd_line = ['relation-list', '--format=json']
if relid is not None:
units_cmd_line.extend(('-r', relid))
return json.loads(
subprocess.check_output(units_cmd_line).decode('UTF-8')) or []
@cached
def relation_for_unit(unit=None, rid=None):
"""Get the json represenation of a unit's relation"""
unit = unit or remote_unit()
relation = relation_get(unit=unit, rid=rid)
for key in relation:
if key.endswith('-list'):
relation[key] = relation[key].split()
relation['__unit__'] = unit
return relation
@cached
def relations_for_id(relid=None):
"""Get relations of a specific relation ID"""
relation_data = []
relid = relid or relation_ids()
for unit in related_units(relid):
unit_data = relation_for_unit(unit, relid)
unit_data['__relid__'] = relid
relation_data.append(unit_data)
return relation_data
@cached
def relations_of_type(reltype=None):
"""Get relations of a specific type"""
relation_data = []
reltype = reltype or relation_type()
for relid in relation_ids(reltype):
for relation in relations_for_id(relid):
relation['__relid__'] = relid
relation_data.append(relation)
return relation_data
@cached
def metadata():
"""Get the current charm metadata.yaml contents as a python object"""
with open(os.path.join(charm_dir(), 'metadata.yaml')) as md:
return yaml.safe_load(md)
@cached
def relation_types():
"""Get a list of relation types supported by this charm"""
rel_types = []
md = metadata()
for key in ('provides', 'requires', 'peers'):
section = md.get(key)
if section:
rel_types.extend(section.keys())
return rel_types
@cached
def peer_relation_id():
'''Get the peers relation id if a peers relation has been joined, else None.'''
md = metadata()
section = md.get('peers')
if section:
for key in section:
relids = relation_ids(key)
if relids:
return relids[0]
return None
@cached
def relation_to_interface(relation_name):
"""
Given the name of a relation, return the interface that relation uses.
:returns: The interface name, or ``None``.
"""
return relation_to_role_and_interface(relation_name)[1]
@cached
def relation_to_role_and_interface(relation_name):
"""
Given the name of a relation, return the role and the name of the interface
that relation uses (where role is one of ``provides``, ``requires``, or ``peers``).
:returns: A tuple containing ``(role, interface)``, or ``(None, None)``.
"""
_metadata = metadata()
for role in ('provides', 'requires', 'peers'):
interface = _metadata.get(role, {}).get(relation_name, {}).get('interface')
if interface:
return role, interface
return None, None
@cached
def role_and_interface_to_relations(role, interface_name):
"""
Given a role and interface name, return a list of relation names for the
current charm that use that interface under that role (where role is one
of ``provides``, ``requires``, or ``peers``).
:returns: A list of relation names.
"""
_metadata = metadata()
results = []
for relation_name, relation in _metadata.get(role, {}).items():
if relation['interface'] == interface_name:
results.append(relation_name)
return results
@cached
def interface_to_relations(interface_name):
"""
Given an interface, return a list of relation names for the current
charm that use that interface.
:returns: A list of relation names.
"""
results = []
for role in ('provides', 'requires', 'peers'):
results.extend(role_and_interface_to_relations(role, interface_name))
return results
@cached
def charm_name():
"""Get the name of the current charm as is specified on metadata.yaml"""
return metadata().get('name')
@cached
def relations():
"""Get a nested dictionary of relation data for all related units"""
rels = {}
for reltype in relation_types():
relids = {}
for relid in relation_ids(reltype):
units = {local_unit(): relation_get(unit=local_unit(), rid=relid)}
for unit in related_units(relid):
reldata = relation_get(unit=unit, rid=relid)
units[unit] = reldata
relids[relid] = units
rels[reltype] = relids
return rels
@cached
def is_relation_made(relation, keys='private-address'):
'''
Determine whether a relation is established by checking for
presence of key(s). If a list of keys is provided, they
must all be present for the relation to be identified as made
'''
if isinstance(keys, str):
keys = [keys]
for r_id in relation_ids(relation):
for unit in related_units(r_id):
context = {}
for k in keys:
context[k] = relation_get(k, rid=r_id,
unit=unit)
if None not in context.values():
return True
return False
def open_port(port, protocol="TCP"):
"""Open a service network port"""
_args = ['open-port']
_args.append('{}/{}'.format(port, protocol))
subprocess.check_call(_args)
def close_port(port, protocol="TCP"):
"""Close a service network port"""
_args = ['close-port']
_args.append('{}/{}'.format(port, protocol))
subprocess.check_call(_args)
@cached
def unit_get(attribute):
"""Get the unit ID for the remote unit"""
_args = ['unit-get', '--format=json', attribute]
try:
return json.loads(subprocess.check_output(_args).decode('UTF-8'))
except ValueError:
return None
def unit_public_ip():
"""Get this unit's public IP address"""
return unit_get('public-address')
def unit_private_ip():
"""Get this unit's private IP address"""
return unit_get('private-address')
@cached
def storage_get(attribute=None, storage_id=None):
"""Get storage attributes"""
_args = ['storage-get', '--format=json']
if storage_id:
_args.extend(('-s', storage_id))
if attribute:
_args.append(attribute)
try:
return json.loads(subprocess.check_output(_args).decode('UTF-8'))
except ValueError:
return None
@cached
def storage_list(storage_name=None):
"""List the storage IDs for the unit"""
_args = ['storage-list', '--format=json']
if storage_name:
_args.append(storage_name)
try:
return json.loads(subprocess.check_output(_args).decode('UTF-8'))
except ValueError:
return None
except OSError as e:
import errno
if e.errno == errno.ENOENT:
# storage-list does not exist
return []
raise
class UnregisteredHookError(Exception):
"""Raised when an undefined hook is called"""
pass
class Hooks(object):
"""A convenient handler for hook functions.
Example::
hooks = Hooks()
# register a hook, taking its name from the function name
@hooks.hook()
def install():
pass # your code here
# register a hook, providing a custom hook name
@hooks.hook("config-changed")
def config_changed():
pass # your code here
if __name__ == "__main__":
# execute a hook based on the name the program is called by
hooks.execute(sys.argv)
"""
def __init__(self, config_save=None):
super(Hooks, self).__init__()
self._hooks = {}
# For unknown reasons, we allow the Hooks constructor to override
# config().implicit_save.
if config_save is not None:
config().implicit_save = config_save
def register(self, name, function):
"""Register a hook"""
self._hooks[name] = function
def execute(self, args):
"""Execute a registered hook based on args[0]"""
_run_atstart()
hook_name = os.path.basename(args[0])
if hook_name in self._hooks:
try:
self._hooks[hook_name]()
except SystemExit as x:
if x.code is None or x.code == 0:
_run_atexit()
raise
_run_atexit()
else:
raise UnregisteredHookError(hook_name)
def hook(self, *hook_names):
"""Decorator, registering them as hooks"""
def wrapper(decorated):
for hook_name in hook_names:
self.register(hook_name, decorated)
else:
self.register(decorated.__name__, decorated)
if '_' in decorated.__name__:
self.register(
decorated.__name__.replace('_', '-'), decorated)
return decorated
return wrapper
def charm_dir():
"""Return the root directory of the current charm"""
return os.environ.get('CHARM_DIR')
@cached
def action_get(key=None):
"""Gets the value of an action parameter, or all key/value param pairs"""
cmd = ['action-get']
if key is not None:
cmd.append(key)
cmd.append('--format=json')
action_data = json.loads(subprocess.check_output(cmd).decode('UTF-8'))
return action_data
def action_set(values):
"""Sets the values to be returned after the action finishes"""
cmd = ['action-set']
for k, v in list(values.items()):
cmd.append('{}={}'.format(k, v))
subprocess.check_call(cmd)
def action_fail(message):
"""Sets the action status to failed and sets the error message.
The results set by action_set are preserved."""
subprocess.check_call(['action-fail', message])
def action_name():
"""Get the name of the currently executing action."""
return os.environ.get('JUJU_ACTION_NAME')
def action_uuid():
"""Get the UUID of the currently executing action."""
return os.environ.get('JUJU_ACTION_UUID')
def action_tag():
"""Get the tag for the currently executing action."""
return os.environ.get('JUJU_ACTION_TAG')
def status_set(workload_state, message):
"""Set the workload state with a message
Use status-set to set the workload state with a message which is visible
to the user via juju status. If the status-set command is not found then
assume this is juju < 1.23 and juju-log the message unstead.
workload_state -- valid juju workload state.
message -- status update message
"""
valid_states = ['maintenance', 'blocked', 'waiting', 'active']
if workload_state not in valid_states:
raise ValueError(
'{!r} is not a valid workload state'.format(workload_state)
)
cmd = ['status-set', workload_state, message]
try:
ret = subprocess.call(cmd)
if ret == 0:
return
except OSError as e:
if e.errno != errno.ENOENT:
raise
log_message = 'status-set failed: {} {}'.format(workload_state,
message)
log(log_message, level='INFO')
def status_get():
"""Retrieve the previously set juju workload state and message
If the status-get command is not found then assume this is juju < 1.23 and
return 'unknown', ""
"""
cmd = ['status-get', "--format=json", "--include-data"]
try:
raw_status = subprocess.check_output(cmd)
except OSError as e:
if e.errno == errno.ENOENT:
return ('unknown', "")
else:
raise
else:
status = json.loads(raw_status.decode("UTF-8"))
return (status["status"], status["message"])
def translate_exc(from_exc, to_exc):
def inner_translate_exc1(f):
@wraps(f)
def inner_translate_exc2(*args, **kwargs):
try:
return f(*args, **kwargs)
except from_exc:
raise to_exc
return inner_translate_exc2
return inner_translate_exc1
@translate_exc(from_exc=OSError, to_exc=NotImplementedError)
def is_leader():
"""Does the current unit hold the juju leadership
Uses juju to determine whether the current unit is the leader of its peers
"""
cmd = ['is-leader', '--format=json']
return json.loads(subprocess.check_output(cmd).decode('UTF-8'))
@translate_exc(from_exc=OSError, to_exc=NotImplementedError)
def leader_get(attribute=None):
"""Juju leader get value(s)"""
cmd = ['leader-get', '--format=json'] + [attribute or '-']
return json.loads(subprocess.check_output(cmd).decode('UTF-8'))
@translate_exc(from_exc=OSError, to_exc=NotImplementedError)
def leader_set(settings=None, **kwargs):
"""Juju leader set value(s)"""
# Don't log secrets.
# log("Juju leader-set '%s'" % (settings), level=DEBUG)
cmd = ['leader-set']
settings = settings or {}
settings.update(kwargs)
for k, v in settings.items():
if v is None:
cmd.append('{}='.format(k))
else:
cmd.append('{}={}'.format(k, v))
subprocess.check_call(cmd)
@translate_exc(from_exc=OSError, to_exc=NotImplementedError)
def payload_register(ptype, klass, pid):
""" is used while a hook is running to let Juju know that a
payload has been started."""
cmd = ['payload-register']
for x in [ptype, klass, pid]:
cmd.append(x)
subprocess.check_call(cmd)
@translate_exc(from_exc=OSError, to_exc=NotImplementedError)
def payload_unregister(klass, pid):
""" is used while a hook is running to let Juju know
that a payload has been manually stopped. The <class> and <id> provided
must match a payload that has been previously registered with juju using
payload-register."""
cmd = ['payload-unregister']
for x in [klass, pid]:
cmd.append(x)
subprocess.check_call(cmd)
@translate_exc(from_exc=OSError, to_exc=NotImplementedError)
def payload_status_set(klass, pid, status):
"""is used to update the current status of a registered payload.
The <class> and <id> provided must match a payload that has been previously
registered with juju using payload-register. The <status> must be one of the
follow: starting, started, stopping, stopped"""
cmd = ['payload-status-set']
for x in [klass, pid, status]:
cmd.append(x)
subprocess.check_call(cmd)
@cached
def juju_version():
"""Full version string (eg. '1.23.3.1-trusty-amd64')"""
# Per https://bugs.launchpad.net/juju-core/+bug/1455368/comments/1
jujud = glob.glob('/var/lib/juju/tools/machine-*/jujud')[0]
return subprocess.check_output([jujud, 'version'],
universal_newlines=True).strip()
@cached
def has_juju_version(minimum_version):
"""Return True if the Juju version is at least the provided version"""
return LooseVersion(juju_version()) >= LooseVersion(minimum_version)
_atexit = []
_atstart = []
def atstart(callback, *args, **kwargs):
'''Schedule a callback to run before the main hook.
Callbacks are run in the order they were added.
This is useful for modules and classes to perform initialization
and inject behavior. In particular:
- Run common code before all of your hooks, such as logging
the hook name or interesting relation data.
- Defer object or module initialization that requires a hook
context until we know there actually is a hook context,
making testing easier.
- Rather than requiring charm authors to include boilerplate to
invoke your helper's behavior, have it run automatically if
your object is instantiated or module imported.
This is not at all useful after your hook framework as been launched.
'''
global _atstart
_atstart.append((callback, args, kwargs))
def atexit(callback, *args, **kwargs):
'''Schedule a callback to run on successful hook completion.
Callbacks are run in the reverse order that they were added.'''
_atexit.append((callback, args, kwargs))
def _run_atstart():
'''Hook frameworks must invoke this before running the main hook body.'''
global _atstart
for callback, args, kwargs in _atstart:
callback(*args, **kwargs)
del _atstart[:]
def _run_atexit():
'''Hook frameworks must invoke this after the main hook body has
successfully completed. Do not invoke it if the hook fails.'''
global _atexit
for callback, args, kwargs in reversed(_atexit):
callback(*args, **kwargs)
del _atexit[:]