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gerrit.opencord.org / enodebd / 8d06416b06448a5eb0b45f624f5de91ec731e043 / . / devices / baicells_qafa.py
blob: 20d34e4ed4f7ff6f0323e529f9c4f2247f1ae641 [file] [log] [blame]
# SPDX-FileCopyrightText: 2020 The Magma Authors.
# SPDX-FileCopyrightText: 2022 Open Networking Foundation <support@opennetworking.org>
#
# SPDX-License-Identifier: BSD-3-Clause
from typing import Any, Callable, Dict, List, Optional, Type
from common.service import MagmaService
from data_models import transform_for_enb, transform_for_magma
from data_models.data_model import DataModel, TrParam
from data_models.data_model_parameters import (
ParameterName,
TrParameterType,
)
from device_config.enodeb_config_postprocessor import (
EnodebConfigurationPostProcessor,
)
from device_config.enodeb_configuration import EnodebConfiguration
from devices.baicells_qafb import (
BaicellsQafbGetObjectParametersState,
BaicellsQafbWaitGetTransientParametersState,
)
from devices.device_utils import EnodebDeviceName
from state_machines.enb_acs_impl import BasicEnodebAcsStateMachine
from state_machines.enb_acs_states import (
AddObjectsState,
DeleteObjectsState,
EnbSendRebootState,
EndSessionState,
EnodebAcsState,
ErrorState,
GetParametersState,
GetRPCMethodsState,
SendGetTransientParametersState,
SetParameterValuesState,
WaitEmptyMessageState,
WaitGetParametersState,
WaitInformMRebootState,
WaitInformState,
WaitRebootResponseState,
WaitSetParameterValuesState,
)
class BaicellsQAFAHandler(BasicEnodebAcsStateMachine):
def __init__(
self,
service: MagmaService,
) -> None:
self._state_map = {}
super().__init__(service=service, use_param_key=False)
def reboot_asap(self) -> None:
self.transition('reboot')
def is_enodeb_connected(self) -> bool:
return not isinstance(self.state, WaitInformState)
def _init_state_map(self) -> None:
self._state_map = {
'wait_inform': WaitInformState(self, when_done='get_rpc_methods'),
'get_rpc_methods': GetRPCMethodsState(self, when_done='wait_empty', when_skip='get_transient_params'),
'wait_empty': WaitEmptyMessageState(self, when_done='get_transient_params'),
'get_transient_params': SendGetTransientParametersState(self, when_done='wait_get_transient_params'),
'wait_get_transient_params': BaicellsQafbWaitGetTransientParametersState(self, when_get='get_params', when_get_obj_params='get_obj_params', when_delete='delete_objs', when_add='add_objs', when_set='set_params', when_skip='end_session'),
'get_params': GetParametersState(self, when_done='wait_get_params'),
'wait_get_params': WaitGetParametersState(self, when_done='get_obj_params'),
'get_obj_params': BaicellsQafbGetObjectParametersState(self, when_delete='delete_objs', when_add='add_objs', when_set='set_params', when_skip='end_session'),
'delete_objs': DeleteObjectsState(self, when_add='add_objs', when_skip='set_params'),
'add_objs': AddObjectsState(self, when_done='set_params'),
'set_params': SetParameterValuesState(self, when_done='wait_set_params'),
'wait_set_params': WaitSetParameterValuesState(self, when_done='check_get_params', when_apply_invasive='check_get_params'),
'check_get_params': GetParametersState(self, when_done='check_wait_get_params', request_all_params=True),
'check_wait_get_params': WaitGetParametersState(self, when_done='end_session'),
'end_session': EndSessionState(self),
# These states are only entered through manual user intervention
'reboot': EnbSendRebootState(self, when_done='wait_reboot'),
'wait_reboot': WaitRebootResponseState(self, when_done='wait_post_reboot_inform'),
'wait_post_reboot_inform': WaitInformMRebootState(self, when_done='wait_empty', when_timeout='wait_inform'),
# The states below are entered when an unexpected message type is
# received
'unexpected_fault': ErrorState(self, inform_transition_target='wait_inform'),
}
@property
def device_name(self) -> str:
return EnodebDeviceName.BAICELLS_QAFA
@property
def data_model_class(self) -> Type[DataModel]:
return BaicellsQAFATrDataModel
@property
def config_postprocessor(self) -> EnodebConfigurationPostProcessor:
return BaicellsQAFATrConfigurationInitializer()
@property
def state_map(self) -> Dict[str, EnodebAcsState]:
return self._state_map
@property
def disconnected_state_name(self) -> str:
return 'wait_inform'
@property
def unexpected_fault_state_name(self) -> str:
return 'unexpected_fault'
class BaicellsQAFATrDataModel(DataModel):
"""
Class to represent relevant data model parameters from TR-196/TR-098.
This class is effectively read-only.
This model specifically targets Qualcomm-based BaiCells units running
QAFA firmware.
These models have these idiosyncrasies (on account of running TR098):
- Parameter content root is different (InternetGatewayDevice)
- GetParameter queries with a wildcard e.g. InternetGatewayDevice. do
not respond with the full tree (we have to query all parameters)
- MME status is not exposed - we assume the MME is connected if
the eNodeB is transmitting (OpState=true)
- Parameters such as band capability/duplex config
are rooted under `boardconf.` and not the device config root
- Parameters like Admin state, CellReservedForOperatorUse,
Duplex mode, DL bandwidth and Band capability have different
formats from Intel-based Baicells units, necessitating,
formatting before configuration and transforming values
read from eNodeB state.
- Num PLMNs is not reported by these units
"""
# Mapping of TR parameter paths to aliases
DEVICE_PATH = 'InternetGatewayDevice.'
FAPSERVICE_PATH = DEVICE_PATH + 'Services.FAPService.1.'
EEPROM_PATH = 'boardconf.status.eepromInfo.'
PARAMETERS = {
# Top-level objects
ParameterName.DEVICE: TrParam(DEVICE_PATH, True, TrParameterType.OBJECT, False),
ParameterName.FAP_SERVICE: TrParam(FAPSERVICE_PATH, True, TrParameterType.OBJECT, False),
# Qualcomm units do not expose MME_Status (We assume that the eNB is broadcasting state is connected to the MME)
ParameterName.MME_STATUS: TrParam(FAPSERVICE_PATH + 'FAPControl.LTE.OpState', True, TrParameterType.BOOLEAN, False),
ParameterName.GPS_LAT: TrParam(DEVICE_PATH + 'FAP.GPS.latitude', True, TrParameterType.STRING, False),
ParameterName.GPS_LONG: TrParam(DEVICE_PATH + 'FAP.GPS.longitude', True, TrParameterType.STRING, False),
ParameterName.SW_VERSION: TrParam(DEVICE_PATH + 'DeviceInfo.SoftwareVersion', True, TrParameterType.STRING, False),
ParameterName.SERIAL_NUMBER: TrParam(DEVICE_PATH + 'DeviceInfo.SerialNumber', True, TrParameterType.STRING, False),
# Capabilities
ParameterName.DUPLEX_MODE_CAPABILITY: TrParam(EEPROM_PATH + 'div_multiple', True, TrParameterType.STRING, False),
ParameterName.BAND_CAPABILITY: TrParam(EEPROM_PATH + 'work_mode', True, TrParameterType.STRING, False),
# RF-related parameters
ParameterName.EARFCNDL: TrParam(FAPSERVICE_PATH + 'CellConfig.LTE.RAN.RF.EARFCNDL', True, TrParameterType.INT, False),
ParameterName.PCI1: TrParam(FAPSERVICE_PATH + 'CellConfig.LTE.RAN.RF.PhyCellID', True, TrParameterType.INT, False),
ParameterName.DL_BANDWIDTH: TrParam(DEVICE_PATH + 'Services.RfConfig.1.RfCarrierCommon.carrierBwMhz', True, TrParameterType.INT, False),
ParameterName.SUBFRAME_ASSIGNMENT: TrParam(FAPSERVICE_PATH + 'CellConfig.LTE.RAN.PHY.TDDFrame.SubFrameAssignment', True, 'bool', False),
ParameterName.SPECIAL_SUBFRAME_PATTERN: TrParam(FAPSERVICE_PATH + 'CellConfig.LTE.RAN.PHY.TDDFrame.SpecialSubframePatterns', True, TrParameterType.INT, False),
ParameterName.CELL_ID: TrParam(FAPSERVICE_PATH + 'CellConfig.LTE.RAN.Common.CellIdentity', True, TrParameterType.UNSIGNED_INT, False),
# Other LTE parameters
ParameterName.ADMIN_STATE: TrParam(FAPSERVICE_PATH + 'FAPControl.LTE.AdminState', False, TrParameterType.STRING, False),
ParameterName.OP_STATE: TrParam(FAPSERVICE_PATH + 'FAPControl.LTE.OpState', True, TrParameterType.BOOLEAN, False),
ParameterName.RF_TX_STATUS: TrParam(FAPSERVICE_PATH + 'FAPControl.LTE.OpState', True, TrParameterType.BOOLEAN, False),
# Core network parameters
ParameterName.MME_ADDRESS: TrParam(FAPSERVICE_PATH + 'FAPControl.LTE.Gateway.S1SigLinkServerList', True, TrParameterType.STRING, False),
ParameterName.MME_PORT: TrParam(FAPSERVICE_PATH + 'FAPControl.LTE.Gateway.S1SigLinkPort', True, TrParameterType.INT, False),
# This parameter is standard but doesn't exist
# ParameterName.NUM_PLMNS: TrParam(FAPSERVICE_PATH + 'CellConfig.LTE.EPC.PLMNListNumberOfEntries', True, TrParameterType.INT, False),
ParameterName.TAC1: TrParam(FAPSERVICE_PATH + 'CellConfig.LTE.EPC.TAC', True, TrParameterType.INT, False),
ParameterName.IP_SEC_ENABLE: TrParam('boardconf.ipsec.ipsecConfig.onBoot', False, TrParameterType.BOOLEAN, False),
# Management server parameters
ParameterName.PERIODIC_INFORM_ENABLE: TrParam(DEVICE_PATH + 'ManagementServer.PeriodicInformEnable', False, TrParameterType.BOOLEAN, False),
ParameterName.PERIODIC_INFORM_INTERVAL: TrParam(DEVICE_PATH + 'ManagementServer.PeriodicInformInterval', False, TrParameterType.INT, False),
# Performance management parameters
ParameterName.PERF_MGMT_ENABLE: TrParam(DEVICE_PATH + 'FAP.PerfMgmt.Config.Enable', False, TrParameterType.BOOLEAN, False),
ParameterName.PERF_MGMT_UPLOAD_INTERVAL: TrParam(DEVICE_PATH + 'FAP.PerfMgmt.Config.PeriodicUploadInterval', False, TrParameterType.INT, False),
ParameterName.PERF_MGMT_UPLOAD_URL: TrParam(DEVICE_PATH + 'FAP.PerfMgmt.Config.URL', False, TrParameterType.STRING, False),
}
NUM_PLMNS_IN_CONFIG = 6
TRANSFORMS_FOR_ENB = {
ParameterName.CELL_BARRED: transform_for_enb.invert_cell_barred,
}
for i in range(1, NUM_PLMNS_IN_CONFIG + 1):
TRANSFORMS_FOR_ENB[ParameterName.PLMN_N_CELL_RESERVED % i] = transform_for_enb.cell_reserved
PARAMETERS[ParameterName.PLMN_N % i] = TrParam(FAPSERVICE_PATH + 'CellConfig.LTE.EPC.PLMNList.%d.' % i, True, TrParameterType.STRING, False)
PARAMETERS[ParameterName.PLMN_N_CELL_RESERVED % i] = TrParam(FAPSERVICE_PATH + 'CellConfig.LTE.EPC.PLMNList.%d.CellReservedForOperatorUse' % i, True, TrParameterType.STRING, False)
PARAMETERS[ParameterName.PLMN_N_ENABLE % i] = TrParam(FAPSERVICE_PATH + 'CellConfig.LTE.EPC.PLMNList.%d.Enable' % i, True, TrParameterType.BOOLEAN, False)
PARAMETERS[ParameterName.PLMN_N_PRIMARY % i] = TrParam(FAPSERVICE_PATH + 'CellConfig.LTE.EPC.PLMNList.%d.IsPrimary' % i, True, TrParameterType.BOOLEAN, False)
PARAMETERS[ParameterName.PLMN_N_PLMNID % i] = TrParam(FAPSERVICE_PATH + 'CellConfig.LTE.EPC.PLMNList.%d.PLMNID' % i, True, TrParameterType.STRING, False)
TRANSFORMS_FOR_ENB[ParameterName.ADMIN_STATE] = transform_for_enb.admin_state
TRANSFORMS_FOR_MAGMA = {
# We don't set these parameters
ParameterName.BAND_CAPABILITY: transform_for_magma.band_capability,
ParameterName.DUPLEX_MODE_CAPABILITY: transform_for_magma.duplex_mode,
}
@classmethod
def get_parameter(cls, param_name: ParameterName) -> Optional[TrParam]:
return cls.PARAMETERS.get(param_name)
@classmethod
def _get_magma_transforms(
cls,
) -> Dict[ParameterName, Callable[[Any], Any]]:
return cls.TRANSFORMS_FOR_MAGMA
@classmethod
def _get_enb_transforms(cls) -> Dict[ParameterName, Callable[[Any], Any]]:
return cls.TRANSFORMS_FOR_ENB
@classmethod
def get_load_parameters(cls) -> List[ParameterName]:
"""
Load all the parameters instead of a subset.
"""
return list(cls.PARAMETERS.keys())
@classmethod
def get_num_plmns(cls) -> int:
return cls.NUM_PLMNS_IN_CONFIG
@classmethod
def get_parameter_names(cls) -> List[ParameterName]:
excluded_params = [
str(ParameterName.DEVICE),
str(ParameterName.FAP_SERVICE),
]
names = list(
filter(
lambda x: (not str(x).startswith('PLMN'))
and (str(x) not in excluded_params),
cls.PARAMETERS.keys(),
),
)
return names
@classmethod
def get_numbered_param_names(
cls,
) -> Dict[ParameterName, List[ParameterName]]:
names = {}
for i in range(1, cls.NUM_PLMNS_IN_CONFIG + 1):
params = []
params.append(ParameterName.PLMN_N_CELL_RESERVED % i)
params.append(ParameterName.PLMN_N_ENABLE % i)
params.append(ParameterName.PLMN_N_PRIMARY % i)
params.append(ParameterName.PLMN_N_PLMNID % i)
names[ParameterName.PLMN_N % i] = params
return names
class BaicellsQAFATrConfigurationInitializer(EnodebConfigurationPostProcessor):
def postprocess(self, desired_cfg: EnodebConfiguration) -> None:
desired_cfg.delete_parameter(ParameterName.ADMIN_STATE)