- async def _juju_create_machine(
- self,
- model_name: str,
- application_name: str,
- machine_id: str = None,
- db_dict: dict = None,
- progress_timeout: float = None,
- total_timeout: float = None
- ) -> Machine:
-
- self.debug('creating machine in model: {}, existing machine id: {}'.format(model_name, machine_id))
-
- # get juju model and observer (create model if needed)
- model = await self._juju_get_model(model_name=model_name)
- observer = self.juju_observers[model_name]
-
- # find machine id in model
- machine = None
- if machine_id is not None:
- self.debug('Finding existing machine id {} in model'.format(machine_id))
- # get juju existing machines in the model
- existing_machines = await model.get_machines()
- if machine_id in existing_machines:
- self.debug('Machine id {} found in model (reusing it)'.format(machine_id))
- machine = model.machines[machine_id]
-
- if machine is None:
- self.debug('Creating a new machine in juju...')
- # machine does not exist, create it and wait for it
- machine = await model.add_machine(
- spec=None,
- constraints=None,
- disks=None,
- series='xenial'
- )
-
- # register machine with observer
- observer.register_machine(machine=machine, db_dict=db_dict)
-
- # id for the execution environment
- ee_id = N2VCJujuConnector._build_ee_id(
- model_name=model_name,
- application_name=application_name,
- machine_id=str(machine.entity_id)
- )
-
- # write ee_id in database
- self._write_ee_id_db(
- db_dict=db_dict,
- ee_id=ee_id
- )
-
- # wait for machine creation
- await observer.wait_for_machine(
- machine_id=str(machine.entity_id),
- progress_timeout=progress_timeout,
- total_timeout=total_timeout
- )
-
- else:
-
- self.debug('Reusing old machine pending')
-
- # register machine with observer
- observer.register_machine(machine=machine, db_dict=db_dict)
-
- # machine does exist, but it is in creation process (pending), wait for create finalisation
- await observer.wait_for_machine(
- machine_id=machine.entity_id,
- progress_timeout=progress_timeout,
- total_timeout=total_timeout)
-
- self.debug("Machine ready at " + str(machine.dns_name))
- return machine
-
- async def _juju_provision_machine(
- self,
- model_name: str,
- hostname: str,
- username: str,
- private_key_path: str,
- db_dict: dict = None,
- progress_timeout: float = None,
- total_timeout: float = None
- ) -> str:
-
- if not self.api_proxy:
- msg = 'Cannot provision machine: api_proxy is not defined'
- self.error(msg=msg)
- raise N2VCException(message=msg)
-
- self.debug('provisioning machine. model: {}, hostname: {}, username: {}'.format(model_name, hostname, username))
-
- if not self._authenticated:
- await self._juju_login()
-
- # get juju model and observer
- model = await self._juju_get_model(model_name=model_name)
- observer = self.juju_observers[model_name]
-
- # TODO check if machine is already provisioned
- machine_list = await model.get_machines()
-
- provisioner = SSHProvisioner(
- host=hostname,
- user=username,
- private_key_path=private_key_path,
- log=self.log
- )
-
- params = None
- try:
- params = provisioner.provision_machine()
- except Exception as ex:
- msg = "Exception provisioning machine: {}".format(ex)
- self.log.error(msg)
- raise N2VCException(message=msg)
-
- params.jobs = ['JobHostUnits']
-
- connection = model.connection()
-
- # Submit the request.
- self.debug("Adding machine to model")
- client_facade = client.ClientFacade.from_connection(connection)
- results = await client_facade.AddMachines(params=[params])
- error = results.machines[0].error
- if error:
- msg = "Error adding machine: {}}".format(error.message)
- self.error(msg=msg)
- raise ValueError(msg)
-
- machine_id = results.machines[0].machine
-
- # Need to run this after AddMachines has been called,
- # as we need the machine_id
- self.debug("Installing Juju agent into machine {}".format(machine_id))
- asyncio.ensure_future(provisioner.install_agent(
- connection=connection,
- nonce=params.nonce,
- machine_id=machine_id,
- api=self.api_proxy,
- ))
-
- # wait for machine in model (now, machine is not yet in model, so we must wait for it)
- machine = None
- for i in range(10):
- machine_list = await model.get_machines()
- if machine_id in machine_list:
- self.debug('Machine {} found in model!'.format(machine_id))
- machine = model.machines.get(machine_id)
- break
- await asyncio.sleep(2)
-
- if machine is None:
- msg = 'Machine {} not found in model'.format(machine_id)
- self.error(msg=msg)
- raise Exception(msg)
-
- # register machine with observer
- observer.register_machine(machine=machine, db_dict=db_dict)
-
- # wait for machine creation
- self.debug('waiting for provision finishes... {}'.format(machine_id))
- await observer.wait_for_machine(
- machine_id=machine_id,
- progress_timeout=progress_timeout,
- total_timeout=total_timeout
- )
-
- self.debug("Machine provisioned {}".format(machine_id))
-
- return machine_id
-
- async def _juju_deploy_charm(
- self,
- model_name: str,
- application_name: str,
- charm_path: str,
- machine_id: str,
- db_dict: dict,
- progress_timeout: float = None,
- total_timeout: float = None
- ) -> (Application, int):
-
- # get juju model and observer
- model = await self._juju_get_model(model_name=model_name)
- observer = self.juju_observers[model_name]
-
- # check if application already exists
- application = None
- if application_name in model.applications:
- application = model.applications[application_name]
-
- if application is None:
-
- # application does not exist, create it and wait for it
- self.debug('deploying application {} to machine {}, model {}'
- .format(application_name, machine_id, model_name))
- self.debug('charm: {}'.format(charm_path))
- series = 'xenial'
- # series = None
- application = await model.deploy(
- entity_url=charm_path,
- application_name=application_name,
- channel='stable',
- num_units=1,
- series=series,
- to=machine_id
- )
-
- # register application with observer
- observer.register_application(application=application, db_dict=db_dict)
-
- self.debug('waiting for application deployed... {}'.format(application.entity_id))
- retries = await observer.wait_for_application(
- application_id=application.entity_id,
- progress_timeout=progress_timeout,
- total_timeout=total_timeout)
- self.debug('application deployed')
-
- else:
-
- # register application with observer
- observer.register_application(application=application, db_dict=db_dict)
-
- # application already exists, but not finalised
- self.debug('application already exists, waiting for deployed...')
- retries = await observer.wait_for_application(
- application_id=application.entity_id,
- progress_timeout=progress_timeout,
- total_timeout=total_timeout)
- self.debug('application deployed')
-
- return application, retries
-
- async def _juju_execute_action(
- self,
- model_name: str,
- application_name: str,
- action_name: str,
- db_dict: dict,
- progress_timeout: float = None,
- total_timeout: float = None,
- **kwargs
- ) -> Action:
-
- # get juju model and observer
- model = await self._juju_get_model(model_name=model_name)
- observer = self.juju_observers[model_name]
-
- application = await self._juju_get_application(model_name=model_name, application_name=application_name)
-
- self.debug('trying to execute action {}'.format(action_name))
- unit = application.units[0]
- if unit is not None:
- actions = await application.get_actions()
- if action_name in actions:
- self.debug('executing action {} with params {}'.format(action_name, kwargs))
- action = await unit.run_action(action_name, **kwargs)
-
- # register action with observer
- observer.register_action(action=action, db_dict=db_dict)
-
- self.debug(' waiting for action completed or error...')
- await observer.wait_for_action(
- action_id=action.entity_id,
- progress_timeout=progress_timeout,
- total_timeout=total_timeout)
- self.debug('action completed with status: {}'.format(action.status))
- output = await model.get_action_output(action_uuid=action.entity_id)
- status = await model.get_action_status(uuid_or_prefix=action.entity_id)
- if action.entity_id in status:
- status = status[action.entity_id]
- else:
- status = 'failed'
- return output, status
-
- raise N2VCExecutionException(
- message='Cannot execute action on charm',
- primitive_name=action_name
- )
-
- async def _juju_configure_application(
- self,
- model_name: str,
- application_name: str,
- config: dict,
- db_dict: dict,
- progress_timeout: float = None,
- total_timeout: float = None
- ):
-
- # get juju model
- model = await self._juju_get_model(model_name=model_name)
-
- # get the application
- application = await self._juju_get_application(model_name=model_name, application_name=application_name)
-
- self.debug('configuring the application {} -> {}'.format(application_name, config))
- res = await application.set_config(config)
- self.debug('application {} configured. res={}'.format(application_name, res))
-
- # Verify the config is set
- new_conf = await application.get_config()
- for key in config:
- value = new_conf[key]['value']
- self.debug(' {} = {}'.format(key, value))
- if config[key] != value:
- raise N2VCException(
- message='key {} is not configured correctly {} != {}'.format(key, config[key], new_conf[key])
- )
-
- # check if 'verify-ssh-credentials' action exists
- unit = application.units[0]
- actions = await application.get_actions()
- if 'verify-ssh-credentials' not in actions:
- msg = 'Action verify-ssh-credentials does not exist in application {}'.format(application_name)
- return False
-
- # execute verify-credentials
- num_retries = 20
- retry_timeout = 15.0
- for i in range(num_retries):
- try:
- self.debug('Executing action verify-ssh-credentials...')
- output, ok = await self._juju_execute_action(
- model_name=model_name,
- application_name=application_name,
- action_name='verify-ssh-credentials',
- db_dict=db_dict,
- progress_timeout=progress_timeout,
- total_timeout=total_timeout
- )
- self.debug('Result: {}, output: {}'.format(ok, output))
- return True
- except Exception as e:
- self.debug('Error executing verify-ssh-credentials: {}. Retrying...'.format(e))
- await asyncio.sleep(retry_timeout)
- else:
- self.error('Error executing verify-ssh-credentials after {} retries. '.format(num_retries))
- return False
-
- async def _juju_get_application(
- self,
- model_name: str,
- application_name: str
- ):
- """Get the deployed application."""
-
- model = await self._juju_get_model(model_name=model_name)
-
- application_name = N2VCJujuConnector._format_app_name(application_name)
-
- if model.applications and application_name in model.applications:
- return model.applications[application_name]
- else:
- raise N2VCException(message='Cannot get application {} from model {}'.format(application_name, model_name))
-
- async def _juju_get_model(self, model_name: str) -> Model:
- """ Get a model object from juju controller
-
- :param str model_name: name of the model
- :returns Model: model obtained from juju controller or Exception
- """
-
- # format model name
- model_name = N2VCJujuConnector._format_model_name(model_name)
-
- if model_name in self.juju_models:
- return self.juju_models[model_name]
-
- if self._creating_model:
- self.debug('Another coroutine is creating a model. Wait...')
- while self._creating_model:
- # another coroutine is creating a model, wait
- await asyncio.sleep(0.1)
- # retry (perhaps another coroutine has created the model meanwhile)
- if model_name in self.juju_models:
- return self.juju_models[model_name]
-
- try:
- self._creating_model = True
-
- # get juju model names from juju
- model_list = await self.controller.list_models()
-
- if model_name not in model_list:
- self.info('Model {} does not exist. Creating new model...'.format(model_name))
- model = await self.controller.add_model(
- model_name=model_name,
- config={'authorized-keys': self.public_key}
- )
- self.info('New model created, name={}'.format(model_name))
- else:
- self.debug('Model already exists in juju. Getting model {}'.format(model_name))
- model = await self.controller.get_model(model_name)
- self.debug('Existing model in juju, name={}'.format(model_name))
-
- self.juju_models[model_name] = model
- self.juju_observers[model_name] = JujuModelObserver(n2vc=self, model=model)
- return model
-
- except Exception as e:
- msg = 'Cannot get model {}. Exception: {}'.format(model_name, e)
- self.error(msg)
- raise N2VCException(msg)
- finally:
- self._creating_model = False
-
- async def _juju_add_relation(
- self,
- model_name: str,
- application_name_1: str,
- application_name_2: str,
- relation_1: str,
- relation_2: str
- ):
-
- self.debug('adding relation')
-
- # get juju model and observer
- model = await self._juju_get_model(model_name=model_name)
-
- r1 = '{}:{}'.format(application_name_1, relation_1)
- r2 = '{}:{}'.format(application_name_2, relation_2)
- await model.add_relation(relation1=r1, relation2=r2)
-
- async def _juju_destroy_application(
- self,
- model_name: str,
- application_name: str
- ):
-
- self.debug('Destroying application {} in model {}'.format(application_name, model_name))
-
- # get juju model and observer
- model = await self._juju_get_model(model_name=model_name)
-
- application = model.applications.get(application_name)
- if application:
- await application.destroy()
- else:
- self.debug('Application not found: {}'.format(application_name))
-
- async def _juju_destroy_machine(
- self,
- model_name: str,
- machine_id: str,
- total_timeout: float = None
- ):
-
- self.debug('Destroying machine {} in model {}'.format(machine_id, model_name))
-
- if total_timeout is None:
- total_timeout = 3600
-
- # get juju model and observer
- model = await self._juju_get_model(model_name=model_name)
-
- machines = await model.get_machines()
- if machine_id in machines:
- 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.debug('Waiting for machine {} is destroyed'.format(machine_id))
- await asyncio.sleep(0.5)
- machines = await model.get_machines()
- self.debug('Machine destroyed: {}'.format(machine_id))
- else:
- self.debug('Machine not found: {}'.format(machine_id))
-
- async def _juju_destroy_model(
- self,
- model_name: str,
- total_timeout: float = None
- ):
-
- self.debug('Destroying model {}'.format(model_name))
-
- if total_timeout is None:
- total_timeout = 3600
-
- model = await self._juju_get_model(model_name=model_name)
- uuid = model.info.uuid
-
- self.debug('disconnecting model {}...'.format(model_name))
- await self._juju_disconnect_model(model_name=model_name)
- self.juju_models[model_name] = None
- self.juju_observers[model_name] = None
-
- self.debug('destroying model {}...'.format(model_name))
- await self.controller.destroy_model(uuid)
-
- # wait for model is completely destroyed
- end = time.time() + total_timeout
- while time.time() < end:
- self.debug('waiting for model is destroyed...')
- try:
- await self.controller.get_model(uuid)
- except Exception:
- self.debug('model destroyed')
- return
- await asyncio.sleep(1.0)
-
- async def _juju_login(self):
- """Connect to juju controller
-
- """
-
- # if already authenticated, exit function
- if self._authenticated:
- return
-
- # if connecting, wait for finish
- # another task could be trying to connect in parallel
- while self._connecting:
- await asyncio.sleep(0.1)
-
- # double check after other task has finished
- if self._authenticated:
- return
-
- try:
- self._connecting = True
- self.info(
- 'connecting to juju controller: {} {}:{} ca_cert: {}'
- .format(self.url, self.username, self.secret, '\n'+self.ca_cert if self.ca_cert else 'None'))
-
- # Create controller object
- self.controller = Controller(loop=self.loop)
- # Connect to controller
- await self.controller.connect(
- endpoint=self.url,
- username=self.username,
- password=self.secret,
- cacert=self.ca_cert
- )
- self._authenticated = True
- self.info('juju controller connected')
- except Exception as e:
- message = 'Exception connecting to juju: {}'.format(e)
- self.error(message)
- raise N2VCConnectionException(
- message=message,
- url=self.url
- )
- finally:
- self._connecting = False
-
- async def _juju_logout(self):
- """Logout of the Juju controller."""
- if not self._authenticated:
- return False
-
- # disconnect all models
- for model_name in self.juju_models:
- try:
- await self._juju_disconnect_model(model_name)
- except Exception as e:
- self.error('Error disconnecting model {} : {}'.format(model_name, e))
- # continue with next model...
-
- self.info("Disconnecting controller")
- try:
- await self.controller.disconnect()
- except Exception as e:
- raise N2VCConnectionException(message='Error disconnecting controller: {}'.format(e), url=self.url)
-
- self.controller = None
- self._authenticated = False
- self.info('disconnected')
-
- async def _juju_disconnect_model(
- self,
- model_name: str
- ):
- self.debug("Disconnecting model {}".format(model_name))
- if model_name in self.juju_models:
- await self.juju_models[model_name].disconnect()
- self.juju_models[model_name] = None
- self.juju_observers[model_name] = None
-
- def _create_juju_public_key(self):
- """Recreate the Juju public key on lcm container, if needed
- Certain libjuju commands expect to be run from the same machine as Juju
- is bootstrapped to. This method will write the public key to disk in
- that location: ~/.local/share/juju/ssh/juju_id_rsa.pub
- """
-
- # Make sure that we have a public key before writing to disk
- if self.public_key is None or len(self.public_key) == 0:
- if 'OSMLCM_VCA_PUBKEY' in os.environ:
- self.public_key = os.getenv('OSMLCM_VCA_PUBKEY', '')
- if len(self.public_key) == 0:
- return
- else:
- return
-
- pk_path = "{}/.local/share/juju/ssh".format(os.path.expanduser('~'))
- file_path = "{}/juju_id_rsa.pub".format(pk_path)
- self.debug('writing juju public key to file:\n{}\npublic key: {}'.format(file_path, self.public_key))
- if not os.path.exists(pk_path):
- # create path and write file
- os.makedirs(pk_path)
- with open(file_path, 'w') as f:
- self.debug('Creating juju public key file: {}'.format(file_path))
- f.write(self.public_key)
- else:
- self.debug('juju public key file already exists: {}'.format(file_path))
-