import asyncio
import logging
-from juju.controller import Controller
-from juju.client import client
+
import time
from juju.errors import JujuAPIError
from juju.model import Model
from juju.machine import Machine
from juju.application import Application
-from juju.client._definitions import FullStatus
+from juju.unit import Unit
+from juju.client._definitions import (
+ FullStatus,
+ QueryApplicationOffersResults,
+ Cloud,
+ CloudCredential,
+)
+from juju.controller import Controller
+from juju.client import client
+from juju import tag
+
+from n2vc.config import ModelConfig
from n2vc.juju_watcher import JujuModelWatcher
from n2vc.provisioner import AsyncSSHProvisioner
from n2vc.n2vc_conn import N2VCConnector
from n2vc.exceptions import (
JujuMachineNotFound,
JujuApplicationNotFound,
- JujuModelAlreadyExists,
+ JujuLeaderUnitNotFound,
+ JujuActionNotFound,
JujuControllerFailedConnecting,
JujuApplicationExists,
+ JujuInvalidK8sConfiguration,
+ JujuError
)
from n2vc.utils import DB_DATA
from osm_common.dbbase import DbException
+from kubernetes.client.configuration import Configuration
+
+RBAC_LABEL_KEY_NAME = "rbac-id"
class Libjuju:
log: logging.Logger = None,
db: dict = None,
n2vc: N2VCConnector = None,
- apt_mirror: str = None,
- enable_os_upgrade: bool = True,
+ model_config: ModelConfig = {},
):
"""
Constructor
self.log = log or logging.getLogger("Libjuju")
self.db = db
- self.endpoints = self._get_api_endpoints_db() or [endpoint]
+ db_endpoints = self._get_api_endpoints_db()
+ self.endpoints = None
+ if (db_endpoints and endpoint not in db_endpoints) or not db_endpoints:
+ self.endpoints = [endpoint]
+ self._update_api_endpoints_db(self.endpoints)
+ else:
+ self.endpoints = db_endpoints
self.api_proxy = api_proxy
self.username = username
self.password = password
self.n2vc = n2vc
# Generate config for models
- self.model_config = {}
- if apt_mirror:
- self.model_config["apt-mirror"] = apt_mirror
- self.model_config["enable-os-refresh-update"] = enable_os_upgrade
- self.model_config["enable-os-upgrade"] = enable_os_upgrade
+ self.model_config = model_config
self.loop.set_exception_handler(self.handle_exception)
self.creating_model = asyncio.Lock(loop=self.loop)
- self.models = set()
self.log.debug("Libjuju initialized!")
- self.health_check_task = self.loop.create_task(self.health_check())
+ self.health_check_task = self._create_health_check_task()
- async def get_controller(self, timeout: float = 5.0) -> Controller:
+ def _create_health_check_task(self):
+ return self.loop.create_task(self.health_check())
+
+ async def get_controller(self, timeout: float = 15.0) -> Controller:
"""
Get controller
:param: controller: Controller that will be disconnected
"""
- await controller.disconnect()
+ if controller:
+ await controller.disconnect()
- async def add_model(self, model_name: str, cloud_name: str):
+ async def add_model(self, model_name: str, cloud_name: str, credential_name=None):
"""
Create model
:param: model_name: Model name
:param: cloud_name: Cloud name
+ :param: credential_name: Credential name to use for adding the model
+ If not specified, same name as the cloud will be used.
"""
# Get controller
controller = await self.get_controller()
model = None
try:
- # Raise exception if model already exists
- if await self.model_exists(model_name, controller=controller):
- raise JujuModelAlreadyExists(
- "Model {} already exists.".format(model_name)
- )
-
# Block until other workers have finished model creation
while self.creating_model.locked():
await asyncio.sleep(0.1)
- # If the model exists, return it from the controller
- if model_name in self.models:
- return
-
# Create the model
async with self.creating_model:
+ if await self.model_exists(model_name, controller=controller):
+ return
self.log.debug("Creating model {}".format(model_name))
model = await controller.add_model(
model_name,
config=self.model_config,
cloud_name=cloud_name,
- credential_name=cloud_name,
+ credential_name=credential_name or cloud_name,
)
- self.models.add(model_name)
finally:
if model:
await self.disconnect_model(model)
await self.disconnect_controller(controller)
+ async def get_executed_actions(self, model_name: str) -> list:
+ """
+ Get executed/history of actions for a model.
+
+ :param: model_name: Model name, str.
+ :return: List of executed actions for a model.
+ """
+ model = None
+ executed_actions = []
+ controller = await self.get_controller()
+ try:
+ model = await self.get_model(controller, model_name)
+ # Get all unique action names
+ actions = {}
+ for application in model.applications:
+ application_actions = await self.get_actions(application, model_name)
+ actions.update(application_actions)
+ # Get status of all actions
+ for application_action in actions:
+ app_action_status_list = await model.get_action_status(name=application_action)
+ for action_id, action_status in app_action_status_list.items():
+ executed_action = {"id": action_id, "action": application_action,
+ "status": action_status}
+ # Get action output by id
+ action_status = await model.get_action_output(executed_action["id"])
+ for k, v in action_status.items():
+ executed_action[k] = v
+ executed_actions.append(executed_action)
+ except Exception as e:
+ raise JujuError("Error in getting executed actions for model: {}. Error: {}"
+ .format(model_name, str(e)))
+ finally:
+ if model:
+ await self.disconnect_model(model)
+ await self.disconnect_controller(controller)
+ return executed_actions
+
+ async def get_application_configs(self, model_name: str, application_name: str) -> dict:
+ """
+ Get available configs for an application.
+
+ :param: model_name: Model name, str.
+ :param: application_name: Application name, str.
+
+ :return: A dict which has key - action name, value - action description
+ """
+ model = None
+ application_configs = {}
+ controller = await self.get_controller()
+ try:
+ model = await self.get_model(controller, model_name)
+ application = self._get_application(model, application_name=application_name)
+ application_configs = await application.get_config()
+ except Exception as e:
+ raise JujuError("Error in getting configs for application: {} in model: {}. Error: {}"
+ .format(application_name, model_name, str(e)))
+ finally:
+ if model:
+ await self.disconnect_model(model)
+ await self.disconnect_controller(controller)
+ return application_configs
+
async def get_model(
self, controller: Controller, model_name: str, id=None
) -> Model:
if need_to_disconnect:
await self.disconnect_controller(controller)
+ async def models_exist(self, model_names: [str]) -> (bool, list):
+ """
+ Check if models exists
+
+ :param: model_names: List of strings with model names
+
+ :return (bool, list[str]): (True if all models exists, List of model names that don't exist)
+ """
+ if not model_names:
+ raise Exception(
+ "model_names must be a non-empty array. Given value: {}".format(
+ model_names
+ )
+ )
+ non_existing_models = []
+ models = await self.list_models()
+ existing_models = list(set(models).intersection(model_names))
+ non_existing_models = list(set(model_names) - set(existing_models))
+
+ return (
+ len(non_existing_models) == 0,
+ non_existing_models,
+ )
+
async def get_model_status(self, model_name: str) -> FullStatus:
"""
Get model status
progress_timeout: float = None,
total_timeout: float = None,
series: str = "xenial",
+ wait: bool = True,
) -> (Machine, bool):
"""
Create machine
:param: db_dict: Dictionary with data of the DB to write the updates
:param: progress_timeout: Maximum time between two updates in the model
:param: total_timeout: Timeout for the entity to be active
+ :param: series: Series of the machine (xenial, bionic, focal, ...)
+ :param: wait: Wait until machine is ready
:return: (juju.machine.Machine, bool): Machine object and a boolean saying
if the machine is new or it already existed
machine_id, model_name
)
)
- machine = model.machines[machine_id]
+ machine = machines[machine_id]
else:
raise JujuMachineNotFound("Machine {} not found".format(machine_id))
machine.entity_id, model_name
)
)
- await JujuModelWatcher.wait_for(
- model=model,
- entity=machine,
- progress_timeout=progress_timeout,
- total_timeout=total_timeout,
- db_dict=db_dict,
- n2vc=self.n2vc,
- )
+ if wait:
+ await JujuModelWatcher.wait_for(
+ model=model,
+ entity=machine,
+ progress_timeout=progress_timeout,
+ total_timeout=total_timeout,
+ db_dict=db_dict,
+ n2vc=self.n2vc,
+ )
finally:
await self.disconnect_model(model)
await self.disconnect_controller(controller)
connection=connection,
nonce=params.nonce,
machine_id=machine_id,
- api=self.api_proxy,
+ proxy=self.api_proxy,
+ series=params.series,
)
)
return machine_id
+ async def deploy(
+ self, uri: str, model_name: str, wait: bool = True, timeout: float = 3600
+ ):
+ """
+ Deploy bundle or charm: Similar to the juju CLI command `juju deploy`
+
+ :param: uri: Path or Charm Store uri in which the charm or bundle can be found
+ :param: model_name: Model name
+ :param: wait: Indicates whether to wait or not until all applications are active
+ :param: timeout: Time in seconds to wait until all applications are active
+ """
+ controller = await self.get_controller()
+ model = await self.get_model(controller, model_name)
+ try:
+ await model.deploy(uri)
+ if wait:
+ await JujuModelWatcher.wait_for_model(model, timeout=timeout)
+ self.log.debug("All units active in model {}".format(model_name))
+ finally:
+ await self.disconnect_model(model)
+ await self.disconnect_controller(controller)
+
async def deploy_charm(
self,
application_name: str,
total_timeout: float = None,
config: dict = None,
series: str = None,
+ num_units: int = 1,
):
"""Deploy charm
:param: total_timeout: Timeout for the entity to be active
:param: config: Config for the charm
:param: series: Series of the charm
+ :param: num_units: Number of units
:return: (juju.application.Application): Juju application
"""
application_name, model_name
)
)
+ if num_units > 1:
+ for _ in range(num_units - 1):
+ m, _ = await self.create_machine(model_name, wait=False)
+ await application.add_unit(to=m.entity_id)
+
await JujuModelWatcher.wait_for(
model=model,
entity=application,
:param: application_name: Application name
:param: model_name: Model name
- :param: cloud_name: Cloud name
:param: action_name: Name of the action
:param: db_dict: Dictionary with data of the DB to write the updates
:param: progress_timeout: Maximum time between two updates in the model
try:
# Get application
application = self._get_application(
- model, application_name=application_name,
+ model,
+ application_name=application_name,
)
if application is None:
raise JujuApplicationNotFound("Cannot execute action")
- # Get unit
+ # Get leader unit
+ # Racing condition:
+ # Ocassionally, self._get_leader_unit() will return None
+ # because the leader elected hook has not been triggered yet.
+ # Therefore, we are doing some retries. If it happens again,
+ # re-open bug 1236
+ attempts = 3
+ time_between_retries = 10
unit = None
- for u in application.units:
- if await u.is_leader_from_status():
- unit = u
+ for _ in range(attempts):
+ unit = await self._get_leader_unit(application)
+ if unit is None:
+ await asyncio.sleep(time_between_retries)
+ else:
+ break
if unit is None:
- raise Exception("Cannot execute action: leader unit not found")
+ raise JujuLeaderUnitNotFound(
+ "Cannot execute action: leader unit not found"
+ )
actions = await application.get_actions()
if action_name not in actions:
- raise Exception(
+ raise JujuActionNotFound(
"Action {} not in available actions".format(action_name)
)
action_name, action.status, application_name, model_name
)
)
- except Exception as e:
- raise e
finally:
await self.disconnect_model(model)
await self.disconnect_controller(controller)
try:
# Get application
application = self._get_application(
- model, application_name=application_name,
+ model,
+ application_name=application_name,
)
# Return list of actions
await self.disconnect_model(model)
await self.disconnect_controller(controller)
+ async def get_metrics(self, model_name: str, application_name: str) -> dict:
+ """Get the metrics collected by the VCA.
+
+ :param model_name The name or unique id of the network service
+ :param application_name The name of the application
+ """
+ if not model_name or not application_name:
+ raise Exception("model_name and application_name must be non-empty strings")
+ metrics = {}
+ controller = await self.get_controller()
+ model = await self.get_model(controller, model_name)
+ try:
+ application = self._get_application(model, application_name)
+ if application is not None:
+ metrics = await application.get_metrics()
+ finally:
+ self.disconnect_model(model)
+ self.disconnect_controller(controller)
+ return metrics
+
async def add_relation(
self,
model_name: str,
- application_name_1: str,
- application_name_2: str,
- relation_1: str,
- relation_2: str,
+ endpoint_1: str,
+ endpoint_2: str,
):
"""Add relation
- :param: model_name: Model name
- :param: application_name_1 First application name
- :param: application_name_2: Second application name
- :param: relation_1: First relation name
- :param: relation_2: Second relation name
+ :param: model_name: Model name
+ :param: endpoint_1 First endpoint name
+ ("app:endpoint" format or directly the saas name)
+ :param: endpoint_2: Second endpoint name (^ same format)
"""
- self.log.debug("Adding relation: {} -> {}".format(relation_1, relation_2))
+ self.log.debug("Adding relation: {} -> {}".format(endpoint_1, endpoint_2))
# Get controller
controller = await self.get_controller()
# Get model
model = await self.get_model(controller, model_name)
- # Build relation strings
- r1 = "{}:{}".format(application_name_1, relation_1)
- r2 = "{}:{}".format(application_name_2, relation_2)
-
# Add relation
try:
- await model.add_relation(relation1=r1, relation2=r2)
+ await model.add_relation(endpoint_1, endpoint_2)
except JujuAPIError as e:
if "not found" in e.message:
self.log.warning("Relation not found: {}".format(e.message))
await self.disconnect_model(model)
await self.disconnect_controller(controller)
- async def destroy_model(
- self, model_name: str, total_timeout: float,
+ async def consume(
+ self,
+ offer_url: str,
+ model_name: str,
):
+ """
+ Adds a remote offer to the model. Relations can be created later using "juju relate".
+
+ :param: offer_url: Offer Url
+ :param: model_name: Model name
+
+ :raises ParseError if there's a problem parsing the offer_url
+ :raises JujuError if remote offer includes and endpoint
+ :raises JujuAPIError if the operation is not successful
+ """
+ controller = await self.get_controller()
+ model = await controller.get_model(model_name)
+
+ try:
+ await model.consume(offer_url)
+ finally:
+ await self.disconnect_model(model)
+ await self.disconnect_controller(controller)
+
+ async def destroy_model(self, model_name: str, total_timeout: float):
"""
Destroy model
"""
controller = await self.get_controller()
- model = await self.get_model(controller, model_name)
+ model = None
try:
+ if not await self.model_exists(model_name, controller=controller):
+ return
+
+ model = await self.get_model(controller, model_name)
self.log.debug("Destroying model {}".format(model_name))
uuid = model.info.uuid
- # Destroy applications
- for application_name in model.applications:
- try:
- await self.destroy_application(
- model, application_name=application_name,
- )
- except Exception as e:
- self.log.error(
- "Error destroying application {} in model {}: {}".format(
- application_name, model_name, e
- )
- )
-
- # Destroy machines
- machines = await model.get_machines()
- for machine_id in machines:
- try:
- await self.destroy_machine(
- model, machine_id=machine_id, total_timeout=total_timeout,
- )
- except asyncio.CancelledError:
- raise
- except Exception:
- pass
+ # Destroy machines that are manually provisioned
+ # and still are in pending state
+ await self._destroy_pending_machines(model, only_manual=True)
# Disconnect model
await self.disconnect_model(model)
- # Destroy model
- if model_name in self.models:
- self.models.remove(model_name)
-
- await controller.destroy_model(uuid)
+ await controller.destroy_model(uuid, force=True, max_wait=0)
# Wait until model is destroyed
self.log.debug("Waiting for model {} to be destroyed...".format(model_name))
- last_exception = ""
if total_timeout is None:
total_timeout = 3600
end = time.time() + total_timeout
while time.time() < end:
- try:
- models = await controller.list_models()
- if model_name not in models:
- self.log.debug(
- "The model {} ({}) was destroyed".format(model_name, uuid)
- )
- return
- except asyncio.CancelledError:
- raise
- except Exception as e:
- last_exception = e
+ models = await controller.list_models()
+ if model_name not in models:
+ self.log.debug(
+ "The model {} ({}) was destroyed".format(model_name, uuid)
+ )
+ return
await asyncio.sleep(5)
raise Exception(
- "Timeout waiting for model {} to be destroyed {}".format(
- model_name, last_exception
- )
+ "Timeout waiting for model {} to be destroyed".format(model_name)
)
+ except Exception as e:
+ if model:
+ await self.disconnect_model(model)
+ raise e
finally:
await self.disconnect_controller(controller)
- async def destroy_application(self, model: Model, application_name: str):
+ async def destroy_application(
+ self, model_name: str, application_name: str, total_timeout: float
+ ):
"""
Destroy application
- :param: model: Model object
+ :param: model_name: Model name
:param: application_name: Application name
+ :param: total_timeout: Timeout
"""
- self.log.debug(
- "Destroying application {} in model {}".format(
- application_name, model.info.name
+
+ controller = await self.get_controller()
+ model = None
+
+ try:
+ model = await self.get_model(controller, model_name)
+ self.log.debug(
+ "Destroying application {} in model {}".format(
+ application_name, model_name
+ )
)
- )
- application = model.applications.get(application_name)
- if application:
- await application.destroy()
- else:
- self.log.warning("Application not found: {}".format(application_name))
+ application = self._get_application(model, application_name)
+ if application:
+ await application.destroy()
+ else:
+ self.log.warning("Application not found: {}".format(application_name))
- async def destroy_machine(
- self, model: Model, machine_id: str, total_timeout: float = 3600
- ):
+ self.log.debug(
+ "Waiting for application {} to be destroyed in model {}...".format(
+ application_name, model_name
+ )
+ )
+ if total_timeout is None:
+ total_timeout = 3600
+ end = time.time() + total_timeout
+ while time.time() < end:
+ if not self._get_application(model, application_name):
+ self.log.debug(
+ "The application {} was destroyed in model {} ".format(
+ application_name, model_name
+ )
+ )
+ return
+ await asyncio.sleep(5)
+ raise Exception(
+ "Timeout waiting for application {} to be destroyed in model {}".format(
+ application_name, model_name
+ )
+ )
+ finally:
+ if model is not None:
+ await self.disconnect_model(model)
+ await self.disconnect_controller(controller)
+
+ async def _destroy_pending_machines(self, model: Model, only_manual: bool = False):
"""
- Destroy machine
+ Destroy pending machines in a given model
- :param: model: Model object
- :param: machine_id: Machine id
- :param: total_timeout: Timeout in seconds
+ :param: only_manual: Bool that indicates only manually provisioned
+ machines should be destroyed (if True), or that
+ all pending machines should be destroyed
"""
- machines = await model.get_machines()
- if machine_id in machines:
- machine = model.machines[machine_id]
- # TODO: change this by machine.is_manual when this is upstreamed:
- # https://github.com/juju/python-libjuju/pull/396
- if "instance-id" in machine.safe_data and machine.safe_data[
- "instance-id"
- ].startswith("manual:"):
+ status = await model.get_status()
+ for machine_id in status.machines:
+ machine_status = status.machines[machine_id]
+ if machine_status.agent_status.status == "pending":
+ if only_manual and not machine_status.instance_id.startswith("manual:"):
+ break
+ machine = model.machines[machine_id]
await machine.destroy(force=True)
- # max timeout
- end = time.time() + total_timeout
-
- # wait for machine removal
- machines = await model.get_machines()
- while machine_id in machines and time.time() < end:
- self.log.debug(
- "Waiting for machine {} is destroyed".format(machine_id)
- )
- await asyncio.sleep(0.5)
- machines = await model.get_machines()
- self.log.debug("Machine destroyed: {}".format(machine_id))
- else:
- self.log.debug("Machine not found: {}".format(machine_id))
-
async def configure_application(
self, model_name: str, application_name: str, config: dict = None
):
self.log.debug("Configuring application {}".format(application_name))
if config:
+ controller = await self.get_controller()
+ model = None
try:
- controller = await self.get_controller()
model = await self.get_model(controller, model_name)
application = self._get_application(
- model, application_name=application_name,
+ model,
+ application_name=application_name,
)
await application.set_config(config)
finally:
- await self.disconnect_model(model)
+ if model:
+ await self.disconnect_model(model)
await self.disconnect_controller(controller)
def _get_api_endpoints_db(self) -> [str]:
if not juju_info:
try:
self.db.create(
- DB_DATA.api_endpoints.table, DB_DATA.api_endpoints.filter,
+ DB_DATA.api_endpoints.table,
+ DB_DATA.api_endpoints.filter,
)
except DbException as e:
# Racing condition: check if another N2VC worker has created it
:param: interval: Time in seconds between checks
"""
+ controller = None
while True:
try:
controller = await self.get_controller()
finally:
await self.disconnect_controller(controller)
await asyncio.sleep(interval)
+
+ async def list_models(self, contains: str = None) -> [str]:
+ """List models with certain names
+
+ :param: contains: String that is contained in model name
+
+ :retur: [models] Returns list of model names
+ """
+
+ controller = await self.get_controller()
+ try:
+ models = await controller.list_models()
+ if contains:
+ models = [model for model in models if contains in model]
+ return models
+ finally:
+ await self.disconnect_controller(controller)
+
+ async def list_offers(self, model_name: str) -> QueryApplicationOffersResults:
+ """List models with certain names
+
+ :param: model_name: Model name
+
+ :return: Returns list of offers
+ """
+
+ controller = await self.get_controller()
+ try:
+ return await controller.list_offers(model_name)
+ finally:
+ await self.disconnect_controller(controller)
+
+ async def add_k8s(
+ self,
+ name: str,
+ rbac_id: str,
+ token: str,
+ client_cert_data: str,
+ configuration: Configuration,
+ storage_class: str,
+ credential_name: str = None,
+ ):
+ """
+ Add a Kubernetes cloud to the controller
+
+ Similar to the `juju add-k8s` command in the CLI
+
+ :param: name: Name for the K8s cloud
+ :param: configuration: Kubernetes configuration object
+ :param: storage_class: Storage Class to use in the cloud
+ :param: credential_name: Storage Class to use in the cloud
+ """
+
+ if not storage_class:
+ raise Exception("storage_class must be a non-empty string")
+ if not name:
+ raise Exception("name must be a non-empty string")
+ if not configuration:
+ raise Exception("configuration must be provided")
+
+ endpoint = configuration.host
+ credential = self.get_k8s_cloud_credential(
+ configuration,
+ client_cert_data,
+ token,
+ )
+ credential.attrs[RBAC_LABEL_KEY_NAME] = rbac_id
+ cloud = client.Cloud(
+ type_="kubernetes",
+ auth_types=[credential.auth_type],
+ endpoint=endpoint,
+ ca_certificates=[client_cert_data],
+ config={
+ "operator-storage": storage_class,
+ "workload-storage": storage_class,
+ },
+ )
+
+ return await self.add_cloud(
+ name, cloud, credential, credential_name=credential_name
+ )
+
+ def get_k8s_cloud_credential(
+ self,
+ configuration: Configuration,
+ client_cert_data: str,
+ token: str = None,
+ ) -> client.CloudCredential:
+ attrs = {}
+ # TODO: Test with AKS
+ key = None # open(configuration.key_file, "r").read()
+ username = configuration.username
+ password = configuration.password
+
+ if client_cert_data:
+ attrs["ClientCertificateData"] = client_cert_data
+ if key:
+ attrs["ClientKeyData"] = key
+ if token:
+ if username or password:
+ raise JujuInvalidK8sConfiguration("Cannot set both token and user/pass")
+ attrs["Token"] = token
+
+ auth_type = None
+ if key:
+ auth_type = "oauth2"
+ if client_cert_data:
+ auth_type = "oauth2withcert"
+ if not token:
+ raise JujuInvalidK8sConfiguration(
+ "missing token for auth type {}".format(auth_type)
+ )
+ elif username:
+ if not password:
+ self.log.debug(
+ "credential for user {} has empty password".format(username)
+ )
+ attrs["username"] = username
+ attrs["password"] = password
+ if client_cert_data:
+ auth_type = "userpasswithcert"
+ else:
+ auth_type = "userpass"
+ elif client_cert_data and token:
+ auth_type = "certificate"
+ else:
+ raise JujuInvalidK8sConfiguration("authentication method not supported")
+ return client.CloudCredential(auth_type=auth_type, attrs=attrs)
+
+ async def add_cloud(
+ self,
+ name: str,
+ cloud: Cloud,
+ credential: CloudCredential = None,
+ credential_name: str = None,
+ ) -> Cloud:
+ """
+ Add cloud to the controller
+
+ :param: name: Name of the cloud to be added
+ :param: cloud: Cloud object
+ :param: credential: CloudCredentials object for the cloud
+ :param: credential_name: Credential name.
+ If not defined, cloud of the name will be used.
+ """
+ controller = await self.get_controller()
+ try:
+ _ = await controller.add_cloud(name, cloud)
+ if credential:
+ await controller.add_credential(
+ credential_name or name, credential=credential, cloud=name
+ )
+ # Need to return the object returned by the controller.add_cloud() function
+ # I'm returning the original value now until this bug is fixed:
+ # https://github.com/juju/python-libjuju/issues/443
+ return cloud
+ finally:
+ await self.disconnect_controller(controller)
+
+ async def remove_cloud(self, name: str):
+ """
+ Remove cloud
+
+ :param: name: Name of the cloud to be removed
+ """
+ controller = await self.get_controller()
+ try:
+ await controller.remove_cloud(name)
+ finally:
+ await self.disconnect_controller(controller)
+
+ async def _get_leader_unit(self, application: Application) -> Unit:
+ unit = None
+ for u in application.units:
+ if await u.is_leader_from_status():
+ unit = u
+ break
+ return unit
+
+ async def get_cloud_credentials(self, cloud_name: str, credential_name: str):
+ controller = await self.get_controller()
+ try:
+ facade = client.CloudFacade.from_connection(controller.connection())
+ cloud_cred_tag = tag.credential(cloud_name, self.username, credential_name)
+ params = [client.Entity(cloud_cred_tag)]
+ return (await facade.Credential(params)).results
+ finally:
+ await self.disconnect_controller(controller)