data_models/data_model.py - enodebd - Gitiles

 """
 Copyright 2020 The Magma Authors.

 This source code is licensed under the BSD-style license found in the
 LICENSE file in the root directory of this source tree.

 Unless required by applicable law or agreed to in writing, software
 distributed under the License is distributed on an "AS IS" BASIS,
 WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 See the License for the specific language governing permissions and
 limitations under the License.
 """

 from abc import ABC, abstractmethod
 from collections import namedtuple
 from typing import Any, Callable, Dict, List, Optional

 from data_models.data_model_parameters import ParameterName

 TrParam = namedtuple('TrParam', ['path', 'is_invasive', 'type', 'is_optional'])

 # We may want to model nodes in the datamodel that are derived from other fields
 # in the datamodel and thus maynot have a representation in tr69.
 # e.g PTP_STATUS in FreedomFiOne is True iff GPS is in sync and SyncStatus is
 # True.
 # Explicitly map these params to invalid paths so setters and getters know they
 # should not try to read or write these nodes on the eNB side.
 InvalidTrParamPath = "INVALID_TR_PATH"


 class DataModel(ABC):
     """
     Class to represent relevant data model parameters.

     Also should contain transform functions for certain parameters that are
     represented differently in the eNodeB device than it is in Magma.

     Subclass this for each data model implementation.

     This class is effectively read-only.
     """

     def __init__(self):
         self._presence_by_param = {}

     def are_param_presences_known(self) -> bool:
         """
         True if all optional parameters' presence are known in data model
         """
         optional_params = self.get_names_of_optional_params()
         for param in optional_params:
             if param not in self._presence_by_param:
                 return False
         return True

     def is_parameter_present(self, param_name: ParameterName) -> bool:
         """ Is the parameter missing from the device's data model """
         param_info = self.get_parameter(param_name)
         if param_info is None:
             return False
         if not param_info.is_optional:
             return True
         if param_name not in self._presence_by_param:
             raise KeyError(
                 'Parameter presence not yet marked in data '
                 'model: %s' % param_name,
             )
         return self._presence_by_param[param_name]

     def set_parameter_presence(
         self,
         param_name: ParameterName,
         is_present: bool,
     ) -> None:
         """ Mark optional parameter as either missing or not """
         self._presence_by_param[param_name] = is_present

     def get_missing_params(self) -> List[ParameterName]:
         """
         Return optional params confirmed to be missing from data model.
         NOTE: Make sure we already know which parameters are present or not
         """
         all_missing = []
         for param in self.get_names_of_optional_params():
             if self.is_parameter_present(param):
                 all_missing.append(param)
         return all_missing

     def get_present_params(self) -> List[ParameterName]:
         """
         Return optional params confirmed to be present in data model.
         NOTE: Make sure we already know which parameters are present or not
         """
         all_optional = self.get_names_of_optional_params()
         all_present = self.get_parameter_names()
         for param in all_optional:
             if not self.is_parameter_present(param):
                 all_present.remove(param)
         return all_present

     @classmethod
     def get_names_of_optional_params(cls) -> List[ParameterName]:
         all_optional_params = []
         for name in cls.get_parameter_names():
             if cls.get_parameter(name).is_optional:
                 all_optional_params.append(name)
         return all_optional_params

     @classmethod
     def transform_for_magma(
         cls,
         param_name: ParameterName,
         enb_value: Any,
     ) -> Any:
         """
         Convert a parameter from its device specific formatting to the
         consistent format that magma understands.
         For the same parameter, different data models have their own
         idiosyncrasies. For this reason, it's important to nominalize these
         values before processing them in Magma code.

         Args:
             param_name: The parameter name
             enb_value: Native value of the parameter

         Returns:
             Returns the nominal value of the parameter that is understood
             by Magma code.
         """
         transforms = cls._get_magma_transforms()
         if param_name in transforms:
             transform_function = transforms[param_name]
             return transform_function(enb_value)
         return enb_value

     @classmethod
     def transform_for_enb(
         cls,
         param_name: ParameterName,
         magma_value: Any,
     ) -> Any:
         """
         Convert a parameter from the format that Magma understands to
         the device specific formatting.
         For the same parameter, different data models have their own
         idiosyncrasies. For this reason, it's important to nominalize these
         values before processing them in Magma code.

         Args:
             param_name: The parameter name. The transform is dependent on the
                         exact parameter.
             magma_value: Nominal value of the parameter.

         Returns:
             Returns the native value of the parameter that will be set in the
             CPE data model configuration.
         """
         transforms = cls._get_enb_transforms()
         if param_name in transforms:
             transform_function = transforms[param_name]
             return transform_function(magma_value)
         return magma_value

     @classmethod
     def get_parameter_name_from_path(
         cls,
         param_path: str,
     ) -> Optional[ParameterName]:
         """
         Args:
             param_path: Parameter path,
                 eg. "Device.DeviceInfo.X_BAICELLS_COM_GPS_Status"
         Returns:
             ParameterName or None if there is no ParameterName matching
         """
         all_param_names = cls.get_parameter_names()
         numbered_param_names = cls.get_numbered_param_names()
         for _obj_name, param_name_list in numbered_param_names.items():
             all_param_names = all_param_names + param_name_list

         for param_name in all_param_names:
             param_info = cls.get_parameter(param_name)
             if param_info is not None and param_path == param_info.path:
                 return param_name
         return None

     @classmethod
     @abstractmethod
     def get_parameter(cls, param_name: ParameterName) -> Optional[TrParam]:
         """
         Args:
             param_name: String of the parameter name

         Returns:
             TrParam or None if it doesn't exist
         """
         pass

     @classmethod
     @abstractmethod
     def _get_magma_transforms(
         cls,
     ) -> Dict[ParameterName, Callable[[Any], Any]]:
         """
         For the same parameter, different data models have their own
         idiosyncrasies. For this reason, it's important to nominalize these
         values before processing them in Magma code.

         Returns:
             Dictionary with key of parameter name, and value of a transform
             function taking the device-specific value of the parameter and
             returning the value in format understood by Magma.
         """
         pass

     @classmethod
     @abstractmethod
     def _get_enb_transforms(
         cls,
     ) -> Dict[ParameterName, Callable[[Any], Any]]:
         """
         For the same parameter, different data models have their own
         idiosyncrasies. For this reason, it's important to nominalize these
         values before processing them in Magma code.

         Returns:
             Dictionary with key of parameter name, and value of a transform
             function taking the nominal value of the parameter and returning
             the device-understood value.
         """
         pass

     @classmethod
     @abstractmethod
     def get_load_parameters(cls) -> List[ParameterName]:
         """
         Returns:
             List of all parameters to query when reading eNodeB state
         """
         pass

     @classmethod
     @abstractmethod
     def get_num_plmns(cls) -> int:
         """
         Returns:
             The number of PLMNs in the configuration.
         """
         pass

     @classmethod
     @abstractmethod
     def get_parameter_names(cls) -> List[ParameterName]:
         """
         Returns:
             A list of all parameter names that are neither numbered objects,
             or belonging to numbered objects
         """
         pass

     @classmethod
     @abstractmethod
     def get_numbered_param_names(
         cls,
     ) -> Dict[ParameterName, List[ParameterName]]:
         """
         Returns:
             A key for all parameters that are numbered objects, and the value
             is the list of parameters that belong to that numbered object
         """
         pass
	"""
	Copyright 2020 The Magma Authors.

	This source code is licensed under the BSD-style license found in the
	LICENSE file in the root directory of this source tree.

	Unless required by applicable law or agreed to in writing, software
	distributed under the License is distributed on an "AS IS" BASIS,
	WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	See the License for the specific language governing permissions and
	limitations under the License.
	"""

	from abc import ABC, abstractmethod
	from collections import namedtuple
	from typing import Any, Callable, Dict, List, Optional

	from data_models.data_model_parameters import ParameterName

	TrParam = namedtuple('TrParam', ['path', 'is_invasive', 'type', 'is_optional'])

	# We may want to model nodes in the datamodel that are derived from other fields
	# in the datamodel and thus maynot have a representation in tr69.
	# e.g PTP_STATUS in FreedomFiOne is True iff GPS is in sync and SyncStatus is
	# True.
	# Explicitly map these params to invalid paths so setters and getters know they
	# should not try to read or write these nodes on the eNB side.
	InvalidTrParamPath = "INVALID_TR_PATH"


	class DataModel(ABC):
	"""
	Class to represent relevant data model parameters.

	Also should contain transform functions for certain parameters that are
	represented differently in the eNodeB device than it is in Magma.

	Subclass this for each data model implementation.

	This class is effectively read-only.
	"""

	def __init__(self):
	self._presence_by_param = {}

	def are_param_presences_known(self) -> bool:
	"""
	True if all optional parameters' presence are known in data model
	"""
	optional_params = self.get_names_of_optional_params()
	for param in optional_params:
	if param not in self._presence_by_param:
	return False
	return True

	def is_parameter_present(self, param_name: ParameterName) -> bool:
	""" Is the parameter missing from the device's data model """
	param_info = self.get_parameter(param_name)
	if param_info is None:
	return False
	if not param_info.is_optional:
	return True
	if param_name not in self._presence_by_param:
	raise KeyError(
	'Parameter presence not yet marked in data '
	'model: %s' % param_name,
	)
	return self._presence_by_param[param_name]

	def set_parameter_presence(
	self,
	param_name: ParameterName,
	is_present: bool,
	) -> None:
	""" Mark optional parameter as either missing or not """
	self._presence_by_param[param_name] = is_present

	def get_missing_params(self) -> List[ParameterName]:
	"""
	Return optional params confirmed to be missing from data model.
	NOTE: Make sure we already know which parameters are present or not
	"""
	all_missing = []
	for param in self.get_names_of_optional_params():
	if self.is_parameter_present(param):
	all_missing.append(param)
	return all_missing

	def get_present_params(self) -> List[ParameterName]:
	"""
	Return optional params confirmed to be present in data model.
	NOTE: Make sure we already know which parameters are present or not
	"""
	all_optional = self.get_names_of_optional_params()
	all_present = self.get_parameter_names()
	for param in all_optional:
	if not self.is_parameter_present(param):
	all_present.remove(param)
	return all_present

	@classmethod
	def get_names_of_optional_params(cls) -> List[ParameterName]:
	all_optional_params = []
	for name in cls.get_parameter_names():
	if cls.get_parameter(name).is_optional:
	all_optional_params.append(name)
	return all_optional_params

	@classmethod
	def transform_for_magma(
	cls,
	param_name: ParameterName,
	enb_value: Any,
	) -> Any:
	"""
	Convert a parameter from its device specific formatting to the
	consistent format that magma understands.
	For the same parameter, different data models have their own
	idiosyncrasies. For this reason, it's important to nominalize these
	values before processing them in Magma code.

	Args:
	param_name: The parameter name
	enb_value: Native value of the parameter

	Returns:
	Returns the nominal value of the parameter that is understood
	by Magma code.
	"""
	transforms = cls._get_magma_transforms()
	if param_name in transforms:
	transform_function = transforms[param_name]
	return transform_function(enb_value)
	return enb_value

	@classmethod
	def transform_for_enb(
	cls,
	param_name: ParameterName,
	magma_value: Any,
	) -> Any:
	"""
	Convert a parameter from the format that Magma understands to
	the device specific formatting.
	For the same parameter, different data models have their own
	idiosyncrasies. For this reason, it's important to nominalize these
	values before processing them in Magma code.

	Args:
	param_name: The parameter name. The transform is dependent on the
	exact parameter.
	magma_value: Nominal value of the parameter.

	Returns:
	Returns the native value of the parameter that will be set in the
	CPE data model configuration.
	"""
	transforms = cls._get_enb_transforms()
	if param_name in transforms:
	transform_function = transforms[param_name]
	return transform_function(magma_value)
	return magma_value

	@classmethod
	def get_parameter_name_from_path(
	cls,
	param_path: str,
	) -> Optional[ParameterName]:
	"""
	Args:
	param_path: Parameter path,
	eg. "Device.DeviceInfo.X_BAICELLS_COM_GPS_Status"
	Returns:
	ParameterName or None if there is no ParameterName matching
	"""
	all_param_names = cls.get_parameter_names()
	numbered_param_names = cls.get_numbered_param_names()
	for _obj_name, param_name_list in numbered_param_names.items():
	all_param_names = all_param_names + param_name_list

	for param_name in all_param_names:
	param_info = cls.get_parameter(param_name)
	if param_info is not None and param_path == param_info.path:
	return param_name
	return None

	@classmethod
	@abstractmethod
	def get_parameter(cls, param_name: ParameterName) -> Optional[TrParam]:
	"""
	Args:
	param_name: String of the parameter name

	Returns:
	TrParam or None if it doesn't exist
	"""
	pass

	@classmethod
	@abstractmethod
	def _get_magma_transforms(
	cls,
	) -> Dict[ParameterName, Callable[[Any], Any]]:
	"""
	For the same parameter, different data models have their own
	idiosyncrasies. For this reason, it's important to nominalize these
	values before processing them in Magma code.

	Returns:
	Dictionary with key of parameter name, and value of a transform
	function taking the device-specific value of the parameter and
	returning the value in format understood by Magma.
	"""
	pass

	@classmethod
	@abstractmethod
	def _get_enb_transforms(
	cls,
	) -> Dict[ParameterName, Callable[[Any], Any]]:
	"""
	For the same parameter, different data models have their own
	idiosyncrasies. For this reason, it's important to nominalize these
	values before processing them in Magma code.

	Returns:
	Dictionary with key of parameter name, and value of a transform
	function taking the nominal value of the parameter and returning
	the device-understood value.
	"""
	pass

	@classmethod
	@abstractmethod
	def get_load_parameters(cls) -> List[ParameterName]:
	"""
	Returns:
	List of all parameters to query when reading eNodeB state
	"""
	pass

	@classmethod
	@abstractmethod
	def get_num_plmns(cls) -> int:
	"""
	Returns:
	The number of PLMNs in the configuration.
	"""
	pass

	@classmethod
	@abstractmethod
	def get_parameter_names(cls) -> List[ParameterName]:
	"""
	Returns:
	A list of all parameter names that are neither numbered objects,
	or belonging to numbered objects
	"""
	pass

	@classmethod
	@abstractmethod
	def get_numbered_param_names(
	cls,
	) -> Dict[ParameterName, List[ParameterName]]:
	"""
	Returns:
	A key for all parameters that are numbered objects, and the value
	is the list of parameters that belong to that numbered object
	"""
	pass