/******************************************************************************* ################################################################################ # Copyright (c) [2017-2019] [Radisys] # # # # Licensed under the Apache License, Version 2.0 (the "License"); # # you may not use this file except in compliance with the License. # # You may obtain a copy of the License at # # # # http://www.apache.org/licenses/LICENSE-2.0 # # # # 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. # ################################################################################ *******************************************************************************/ #include "common_def.h" #include "du_tmr.h" #include "lrg.h" #include "lkw.x" #include "lrg.x" #include "legtp.h" #include "du_app_mac_inf.h" #include "du_app_rlc_inf.h" #include "du_e2ap_mgr.h" #include "du_e2ap_msg_hdl.h" #include "du_cfg.h" #include "du_mgr.h" #include "du_mgr_main.h" #include "du_utils.h" #include "GlobalE2node-gNB-ID.h" #include "ProtocolIE-FieldE2.h" #include "E2setupRequest.h" #include "InitiatingMessageE2.h" #include "SuccessfulOutcomeE2.h" #include "UnsuccessfulOutcomeE2.h" #include "E2AP-PDU.h" #include "odu_common_codec.h" #include "E2nodeComponentInterfaceF1.h" #include "E2setupRequest.h" #include "du_e2_conversions.h" #include "E2SM-KPM-RANfunction-Description.h" #include "RANfunction-Name.h" #include "RIC-EventTriggerStyle-Item.h" #include "RIC-ReportStyle-Item.h" #include "MeasurementInfo-Action-Item.h" #include "E2SM-KPM-EventTriggerDefinition.h" #include "E2SM-KPM-EventTriggerDefinition-Format1.h" #include "E2SM-KPM-ActionDefinition.h" #include "E2SM-KPM-ActionDefinition-Format1.h" #include "MeasurementInfoItem.h" #include "RANfunctionsIDcause-List.h" #include "MeasurementRecord.h" #include "MeasurementData.h" #include "MeasurementRecordItem.h" #include "MeasurementDataItem.h" #include "E2SM-KPM-IndicationMessage-Format1.h" #include "E2SM-KPM-IndicationMessage.h" #include "E2SM-KPM-IndicationHeader.h" #include "E2SM-KPM-IndicationHeader-Format1.h" #include "LabelInfoItem.h" /******************************************************************* * * @brief Fill E2 Failure Cause * * @details * * Function : fillE2Cause * * Functionality: Fill E2 Failure Cause * * @params[in] E2 Cause pointer to be filled in * E2 Cause to be filled from * @return void * ******************************************************************/ void fillE2Cause(CauseE2_t *e2Cause, E2FailureCause failureCause) { e2Cause->present = failureCause.causeType; switch(e2Cause->present) { case CauseE2_PR_ricRequest: { e2Cause->choice.ricRequest = failureCause.cause; break; } case CauseE2_PR_ricService: { e2Cause->choice.ricService = failureCause.cause; break; } case CauseE2_PR_e2Node: { e2Cause->choice.e2Node = failureCause.cause; break; } case CauseE2_PR_transport: { e2Cause->choice.transport = failureCause.cause; break; } case CauseE2_PR_protocol: { e2Cause->choice.protocol = failureCause.cause; break; } case CauseE2_PR_misc: { e2Cause->choice.misc = failureCause.cause; break; } case CauseE2_PR_NOTHING: default: break; } } /******************************************************************* * * @brief Printing Type and Cause of failure * * @details * * Function : printE2ErrorCause * * Functionality: Printing Type and Cause of failure * * @params[in] E2 Cause * @return void * ******************************************************************/ void printE2ErrorCause(CauseE2_t *cause) { switch(cause->present) { case CauseE2_PR_ricRequest: { DU_LOG("Failure_Type [%s] Cause [%ld]", "RIC_Request", cause->choice.ricRequest); break; } case CauseE2_PR_ricService: { DU_LOG("Failure_Type [%s] Cause [%ld]", "RIC_Service", cause->choice.ricService); break; } case CauseE2_PR_e2Node: { DU_LOG("Failure_Type [%s] Cause [%ld]", "E2_Node", cause->choice.e2Node); break; } case CauseE2_PR_transport: { DU_LOG("Failure_Type [%s] Cause [%ld]", "Transport", cause->choice.transport); break; } case CauseE2_PR_protocol: { DU_LOG("Failure_Type [%s] Cause [%ld]", "Protocol", cause->choice.protocol); break; } case CauseE2_PR_misc: { DU_LOG("Failure_Type [%s] Cause [%ld]", "Miscellaneous", cause->choice.misc); break; } default: { DU_LOG("Failure_Type and Cause unknown"); break; } } } /******************************************************************* * * @brief Free the ErrorIndication Message * * @details * * Function : FreeRicIndication * * Functionality: Free the ErrorIndication Message * * @params[in] * E2AP_PDU is to freed * @return void * ******************************************************************/ void FreeErrorIndication(E2AP_PDU_t *e2apMsg) { uint8_t arrIdx = 0; ErrorIndicationE2_t *errorIndicationMsg= NULLP; if(e2apMsg != NULLP) { if(e2apMsg->choice.initiatingMessage != NULLP) { errorIndicationMsg = &e2apMsg->choice.initiatingMessage->value.choice.ErrorIndicationE2; if(errorIndicationMsg!= NULLP) { if(errorIndicationMsg->protocolIEs.list.array != NULLP) { for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { DU_FREE(errorIndicationMsg->protocolIEs.list.array[arrIdx],sizeof(ErrorIndicationE2_t)); } DU_FREE(errorIndicationMsg->protocolIEs.list.array,errorIndicationMsg->protocolIEs.list.size); } } DU_FREE(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); } DU_FREE(e2apMsg, sizeof(E2AP_PDU_t)); } } /******************************************************************* * * @brief Builds and Send the ErrorIndication Message * * @details * * Function : BuildAndSendErrorIndication * * Functionality:Fills the ErrorIndication Message * * @params[in] * Trans id * Ric req id * Ran function id * Cause of failure * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildAndSendErrorIndication(int8_t transId, RicRequestId requestId, uint16_t ranFuncId, E2FailureCause failureCause) { uint8_t elementCnt =0, arrIdx=0, ret = RFAILED; E2AP_PDU_t *e2apMsg = NULLP; ErrorIndicationE2_t *errorIndicationMsg=NULLP; asn_enc_rval_t encRetVal; /* Encoder return value */ while(true) { DU_LOG("\nINFO --> E2AP : Building Error Indication Message\n"); DU_ALLOC(e2apMsg, sizeof(E2AP_PDU_t)); if(e2apMsg == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for E2AP-PDU failed in %s at line %d",__func__, __LINE__); break; } e2apMsg->present = E2AP_PDU_PR_initiatingMessage; DU_ALLOC(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); if(e2apMsg->choice.initiatingMessage == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for E2AP-PDU failed in %s at line %d",__func__, __LINE__); break; } e2apMsg->choice.initiatingMessage->procedureCode = ProcedureCodeE2_id_ErrorIndicationE2; e2apMsg->choice.initiatingMessage->criticality = CriticalityE2_reject; e2apMsg->choice.initiatingMessage->value.present = InitiatingMessageE2__value_PR_ErrorIndicationE2; errorIndicationMsg = &e2apMsg->choice.initiatingMessage->value.choice.ErrorIndicationE2; /* Element count is 2 for TransactionID/RICrequestID and Cause. * If the RAN function id is present, the count will be increased.*/ elementCnt = 2; if(ranFuncId>0) { elementCnt++; } errorIndicationMsg->protocolIEs.list.count = elementCnt; errorIndicationMsg->protocolIEs.list.size = elementCnt * sizeof(ErrorIndicationE2_IEs_t*); /* Initialize the E2Setup members */ DU_ALLOC(errorIndicationMsg->protocolIEs.list.array, errorIndicationMsg->protocolIEs.list.size); if(errorIndicationMsg->protocolIEs.list.array == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation failed for array elements in %s at line %d",__func__, __LINE__); break; } for(arrIdx = 0; arrIdx < elementCnt; (arrIdx)++) { DU_ALLOC(errorIndicationMsg->protocolIEs.list.array[arrIdx], sizeof(ErrorIndicationE2_IEs_t)); if(errorIndicationMsg->protocolIEs.list.array[arrIdx] == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation failed for array [%d] elements in %s at line %d", arrIdx, __func__, __LINE__); break; } } if(arrIdx < elementCnt) break; arrIdx = 0; if(transId >=0 && transId<=255) { /* TransactionID */ errorIndicationMsg->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_TransactionID; errorIndicationMsg->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; errorIndicationMsg->protocolIEs.list.array[arrIdx]->value.present = ErrorIndicationE2_IEs__value_PR_TransactionID; errorIndicationMsg->protocolIEs.list.array[arrIdx]->value.choice.TransactionID = transId; } else { /* RICrequestID */ errorIndicationMsg->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_RICrequestID; errorIndicationMsg->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; errorIndicationMsg->protocolIEs.list.array[arrIdx]->value.present = ErrorIndicationE2_IEs__value_PR_RICrequestID; errorIndicationMsg->protocolIEs.list.array[arrIdx]->value.choice.RICrequestID.ricRequestorID = requestId.requestorId; errorIndicationMsg->protocolIEs.list.array[arrIdx]->value.choice.RICrequestID.ricInstanceID = requestId.instanceId; } if(ranFuncId>0) { /* RAN Function ID */ arrIdx++; errorIndicationMsg->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_RANfunctionID; errorIndicationMsg->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; errorIndicationMsg->protocolIEs.list.array[arrIdx]->value.present = ErrorIndicationE2_IEs__value_PR_RANfunctionID; errorIndicationMsg->protocolIEs.list.array[arrIdx]->value.choice.RANfunctionID = ranFuncId; } /* Cause */ arrIdx++; errorIndicationMsg->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_CauseE2; errorIndicationMsg->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_ignore; errorIndicationMsg->protocolIEs.list.array[arrIdx]->value.present = ErrorIndicationE2_IEs__value_PR_CauseE2; fillE2Cause(&errorIndicationMsg->protocolIEs.list.array[arrIdx]->value.choice.CauseE2, failureCause); /* Prints the Msg formed */ xer_fprint(stdout, &asn_DEF_E2AP_PDU, e2apMsg); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2AP_PDU, 0, e2apMsg, PrepFinalEncBuf,\ encBuf); if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> E2AP : Could not encode Error Indication Message (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> E2AP : Created APER encoded buffer for Error Indication Message \n"); #ifdef DEBUG_ASN_PRINT for(int i=0; i< encBufSize; i++) { printf("%x",encBuf[i]); } #endif } if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL, encBuf, encBufSize) != ROK) { DU_LOG("\nINFO --> E2AP : Sending Error Indication Message"); } ret = ROK; break; } FreeErrorIndication(e2apMsg); return ret; } /****************************************************************** * * @brief Deallocation of memory allocated by aper decoder for e2 * Config Update Failure * * @details * * Function : freeAperDecodingOfE2Node Config UpdateFailure * * Functionality: Deallocation of memory allocated by aper decoder * for e2 Config Update Failure * * @params[in] E2nodeConfigurationUpdateFailure_t to be deallocated * @return void * * ****************************************************************/ void freeAperDecodingOfE2NodeConfigUpdateFailure(E2nodeConfigurationUpdateFailure_t *e2NodeCfgUpdFail) { uint8_t arrIdx =0; if(e2NodeCfgUpdFail) { if(e2NodeCfgUpdFail->protocolIEs.list.array) { for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { if(e2NodeCfgUpdFail->protocolIEs.list.array[arrIdx]) { free(e2NodeCfgUpdFail->protocolIEs.list.array[arrIdx]); } } free(e2NodeCfgUpdFail->protocolIEs.list.array); } } } /****************************************************************** * * @brief Processes E2 Node Config Update Failure sent by RIC * * @details * * Function : procE2NodeConfigUpdateFailure * * Functionality: Processes E2 Node Config Update failure sent by RIC * * @params[in] E2AP_PDU_t ASN decoded E2AP message * @return ROK - success * RFAILED - failure * * ****************************************************************/ void procE2NodeConfigUpdateFailure(E2AP_PDU_t *e2apMsg) { uint8_t arrIdx =0, transId =0, timerValue=0; E2nodeConfigurationUpdateFailure_t *e2NodeCfgUpdFail=NULL; DU_LOG("\nINFO --> E2AP : E2 Node Config Update failure received"); e2NodeCfgUpdFail = &e2apMsg->choice.unsuccessfulOutcome->value.choice.E2nodeConfigurationUpdateFailure; for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { switch(e2NodeCfgUpdFail->protocolIEs.list.array[arrIdx]->id) { case ProtocolIE_IDE2_id_TransactionID: { transId = e2NodeCfgUpdFail->protocolIEs.list.array[arrIdx]->value.choice.TransactionID; if((duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].transactionId == transId) &&\ (duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].procedureCode == e2apMsg->choice.unsuccessfulOutcome->procedureCode)) { memset(&duCb.e2apDb.e2TransInfo.e2InitTransaction[transId], 0, sizeof(E2TransInfo)); } else { DU_LOG("\nERROR --> E2AP : Invalid transaction id [%d]", transId); } break; } case ProtocolIE_IDE2_id_TimeToWaitE2: { timerValue = convertE2WaitTimerEnumToValue(e2NodeCfgUpdFail->protocolIEs.list.array[arrIdx]->value.choice.TimeToWaitE2); if((duChkTmr((PTR)&(duCb.e2apDb), EVENT_E2_NODE_CONFIG_UPDATE_TMR)) == FALSE) { duStartTmr((PTR)&(duCb.e2apDb), EVENT_E2_NODE_CONFIG_UPDATE_TMR, timerValue); } else { DU_LOG("\nERROR --> E2AP : EVENT_E2_NODE_CONFIG_UPDATE_TMR timer is already running"); } break; } } } freeAperDecodingOfE2NodeConfigUpdateFailure(e2NodeCfgUpdFail); } /******************************************************************* * * @brief Builds Global gNodeB Params * * @details * * Function : BuildGlobalgNBId * * Functionality: Building the Plmn and gNB id * * @params[in] GlobalE2node_gNB_ID_t *gNbId * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildGlobalgNBId(GlobalE2node_gNB_ID_t *gNbId) { uint8_t unused = 0; uint8_t byteSize = 4; uint8_t gnbId = duCb.gnbId; uint8_t ret = ROK; /* fill Global gNB ID Id */ gNbId->global_gNB_ID.plmn_id.size = 3 * sizeof(uint8_t); gNbId->global_gNB_ID.plmn_id.buf = NULLP; DU_ALLOC(gNbId->global_gNB_ID.plmn_id.buf , gNbId->global_gNB_ID.plmn_id.size); if(gNbId->global_gNB_ID.plmn_id.buf == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed for Plmn buffer"); ret = RFAILED; } else { buildPlmnId(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn, \ gNbId->global_gNB_ID.plmn_id.buf); gNbId->global_gNB_ID.gnb_id.present = GNB_ID_Choice_PR_gnb_ID; /* Allocate Buffer size */ gNbId->global_gNB_ID.gnb_id.choice.gnb_ID.size = byteSize * sizeof(uint8_t); gNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf = NULLP; DU_ALLOC(gNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf, \ gNbId->global_gNB_ID.gnb_id.choice.gnb_ID.size); if(gNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed for gnb buffer"); ret = RFAILED; } else { fillBitString(&gNbId->global_gNB_ID.gnb_id.choice.gnb_ID, unused, byteSize, gnbId); } } /* fill gNB-DU ID */ DU_ALLOC( gNbId->gNB_DU_ID, sizeof(GNB_DU_ID_t)); if(gNbId->gNB_DU_ID == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed for gNB_DU_ID "); ret = RFAILED; } else { gNbId->gNB_DU_ID->size = sizeof(uint8_t); DU_ALLOC( gNbId->gNB_DU_ID->buf, sizeof(uint8_t)); if(gNbId->gNB_DU_ID->buf) { gNbId->gNB_DU_ID->buf[0] =duCb.e2apDb.e2NodeId; } else { DU_LOG("\nERROR --> E2AP: Memory allocation failed for gNB_DU_ID buffer"); ret = RFAILED; } } return ret; } /******************************************************************* * * @brief fill the E2 node config information * * @details * * Function : fillE2NodeConfig * * Functionality: fill E2 node config information * * @params[in] * Pointer to e2NodeCfg to be filled * E2 Node Component information * Type of configuration * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t fillE2NodeConfig(PTR e2NodeCfg, E2NodeComponent *e2NodeComponentInfo, ConfigType configType) { E2nodeComponentInterfaceType_t *interfaceType=NULLP; E2nodeComponentID_t *componentID =NULLP; E2nodeComponentConfiguration_t *configuration=NULLP; E2nodeComponentConfigAddition_Item_t *e2NodeAddItem=NULL; E2nodeComponentConfigUpdate_Item_t *e2NodeUpdateItem =NULL; E2nodeComponentConfigRemoval_Item_t *e2NodeRemovalItem=NULL; switch(configType) { case CONFIG_ADD: { e2NodeAddItem = (E2nodeComponentConfigAddition_Item_t*)e2NodeCfg; interfaceType = &e2NodeAddItem->e2nodeComponentInterfaceType; componentID = &e2NodeAddItem->e2nodeComponentID; configuration = &e2NodeAddItem->e2nodeComponentConfiguration; break; } case CONFIG_MOD: { e2NodeUpdateItem = (E2nodeComponentConfigUpdate_Item_t *) e2NodeCfg; interfaceType = &e2NodeUpdateItem->e2nodeComponentInterfaceType; componentID = &e2NodeUpdateItem->e2nodeComponentID; configuration = &e2NodeUpdateItem->e2nodeComponentConfiguration; break; } case CONFIG_DEL: { e2NodeRemovalItem = (E2nodeComponentConfigRemoval_Item_t*) e2NodeCfg; interfaceType = &e2NodeRemovalItem->e2nodeComponentInterfaceType; componentID = &e2NodeRemovalItem->e2nodeComponentID; break; } default: { DU_LOG("\nERROR --> E2AP : Configuration type %d does not supported ", configType); return RFAILED; } } /* E2nodeComponentInterfaceType */ *interfaceType = convertInterfaceToE2ComponentInterfaceType(e2NodeComponentInfo->interfaceType); /* We now only support the F1 interface out of these interfaces * (NG,XN,E1,F1,W1,S1,X2), therefore only the F1 component identifier was filled in. */ if(*interfaceType == F1) { /* E2 Node Component ID */ componentID->present = E2nodeComponentID_PR_e2nodeComponentInterfaceTypeF1; DU_ALLOC(componentID->choice.e2nodeComponentInterfaceTypeF1,sizeof(E2nodeComponentInterfaceF1_t)); if(componentID->choice.e2nodeComponentInterfaceTypeF1 == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at line %d",__func__,__LINE__); return RFAILED; } componentID->choice.e2nodeComponentInterfaceTypeF1->gNB_DU_ID.size = sizeof(uint8_t); DU_ALLOC(componentID->choice.e2nodeComponentInterfaceTypeF1->gNB_DU_ID.buf,\ componentID->choice.e2nodeComponentInterfaceTypeF1->gNB_DU_ID.size); if(componentID->choice.e2nodeComponentInterfaceTypeF1->gNB_DU_ID.buf == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at line %d",__func__,__LINE__); return RFAILED; } memcpy(componentID->choice.e2nodeComponentInterfaceTypeF1->gNB_DU_ID.buf, &e2NodeComponentInfo->componentId,\ componentID->choice.e2nodeComponentInterfaceTypeF1->gNB_DU_ID.size); } if(configType == CONFIG_DEL) { /* We don't need to fill out the E2 Node Component Request and Response * information in the case of CONFIG_DEL, therefore returning ROK from here. */ return ROK; } /* E2 Node Component Request Part */ if(e2NodeComponentInfo->componentRequestPart) { configuration->e2nodeComponentRequestPart.size = e2NodeComponentInfo->reqBufSize ; DU_ALLOC(configuration->e2nodeComponentRequestPart.buf,\ configuration->e2nodeComponentRequestPart.size); if(configuration->e2nodeComponentRequestPart.buf == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at line %d",__func__,__LINE__); return RFAILED; } memcpy(configuration->e2nodeComponentRequestPart.buf,\ e2NodeComponentInfo->componentRequestPart, configuration->\ e2nodeComponentRequestPart.size); } else { DU_LOG("\nERROR --> E2AP: componentRequestPart is null "); return RFAILED; } /* E2 Node Component Response Part */ if(e2NodeComponentInfo->componentResponsePart) { configuration->e2nodeComponentResponsePart.size = e2NodeComponentInfo->rspBufSize; DU_ALLOC(configuration->e2nodeComponentResponsePart.buf, configuration->e2nodeComponentResponsePart.size); if(configuration->e2nodeComponentResponsePart.buf == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at line %d",__func__,__LINE__); return RFAILED; } memcpy(configuration->e2nodeComponentResponsePart.buf, e2NodeComponentInfo->componentResponsePart, configuration->\ e2nodeComponentResponsePart.size); } else { DU_LOG("\nERROR --> E2AP: componentResponsePart is null"); return RFAILED; } return ROK; } /******************************************************************* * * @brief Builds E2 node config addition list * * @details * * Function : BuildE2NodeConfigAddList * * Functionality: Building E2 node config addition list * * @params[in] * E2nodeComponentConfigAddition_List_t to be filled * Procedure Code * Count of E2 node to be added in the list * Received list of E2 node configuration * * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildE2NodeConfigAddList(E2nodeComponentConfigAddition_List_t *e2NodeAddList, uint8_t procedureCode, uint16_t count, E2NodeConfigItem *e2NodeList) { uint8_t arrIdx = 0; CmLList *node =NULL; E2NodeComponent *e2NodeComponentInfo=NULL; E2nodeComponentConfigAddition_ItemIEs_t *e2NodeAddItemIe=NULL; E2nodeComponentConfigAddition_Item_t *e2NodeAddItem=NULL; /* For ProcedureCodeE2_id_E2setup, the number of E2 node configuration list items is * equal to the number of E2 node configuration entries stored in the database. * For any other procedure, the E2 node configuration list count is equal * to the count of E2 node configuration obtained from the function's caller */ if(procedureCode == ProcedureCodeE2_id_E2setup) e2NodeAddList->list.count = duCb.e2apDb.e2NodeComponentList.count; else e2NodeAddList->list.count = count; e2NodeAddList->list.size = e2NodeAddList->list.count * sizeof(E2nodeComponentConfigAddition_ItemIEs_t *); DU_ALLOC(e2NodeAddList->list.array, e2NodeAddList->list.size); if(e2NodeAddList->list.array == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed for BuildE2NodeConfigAddList %d",__LINE__); return RFAILED; } for(arrIdx = 0; arrIdx< e2NodeAddList->list.count; arrIdx++) { DU_ALLOC(e2NodeAddList->list.array[arrIdx], sizeof(E2nodeComponentConfigAddition_ItemIEs_t)); if(e2NodeAddList->list.array[arrIdx] == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed for BuildE2NodeConfigAddList %d",__LINE__); return RFAILED; } if(procedureCode == ProcedureCodeE2_id_E2setup) { /* Getting all of the E2 node configuration's information from DuCb one by one*/ if(arrIdx == 0) { CM_LLIST_FIRST_NODE(&duCb.e2apDb.e2NodeComponentList, node); } else { node = node->next; } if(!node) { DU_LOG("\nERROR --> E2AP : E2 node component list node is null"); return RFAILED; } e2NodeComponentInfo = (E2NodeComponent*)node->node; } else { /* Getting only those E2 node configuration from DuCb whose interface * and action type is present in the received array */ e2NodeComponentInfo = fetchE2NodeComponentInfo(e2NodeList[arrIdx].interface, e2NodeList[arrIdx].actionType, &node); } if(!e2NodeComponentInfo) { DU_LOG("\nERROR --> E2AP : Received null e2NodeComponentInfo at line number %d",__LINE__); return RFAILED; } e2NodeAddItemIe = (E2nodeComponentConfigAddition_ItemIEs_t *) e2NodeAddList->list.array[arrIdx]; e2NodeAddItemIe->id = ProtocolIE_IDE2_id_E2nodeComponentConfigAddition_Item; e2NodeAddItemIe->criticality = CriticalityE2_reject; e2NodeAddItemIe->value.present = E2nodeComponentConfigAddition_ItemIEs__value_PR_E2nodeComponentConfigAddition_Item; e2NodeAddItem = &e2NodeAddItemIe->value.choice.E2nodeComponentConfigAddition_Item; if(fillE2NodeConfig((PTR)e2NodeAddItem, e2NodeComponentInfo, CONFIG_ADD) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to fill the E2 node configuration"); return RFAILED; } } return ROK; } /******************************************************************* * * @brief Builds E2 node config update list * * @details * * Function : BuildE2NodeConfigUpdateList * * Functionality: Building E2 node config update list * * @params[in] * E2nodeComponentConfigUpdate_List_t to be filled * Count of E2 node to be update in the list * Received list of E2 node configuration * * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildE2NodeConfigUpdateList(E2nodeComponentConfigUpdate_List_t *e2NodeUpdateList, uint16_t count, E2NodeConfigItem *updateE2Node) { uint8_t arrIdx = 0; CmLList *node =NULL; E2NodeComponent *e2NodeComponentInfo =NULL; E2nodeComponentConfigUpdate_ItemIEs_t *e2NodeUpdateItemIe =NULL; E2nodeComponentConfigUpdate_Item_t *e2NodeUpdateItem =NULL; e2NodeUpdateList->list.count = count; e2NodeUpdateList->list.size = e2NodeUpdateList->list.count * sizeof(E2nodeComponentConfigUpdate_ItemIEs_t *); DU_ALLOC(e2NodeUpdateList->list.array, e2NodeUpdateList->list.size); if(e2NodeUpdateList->list.array == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed for BuildE2NodeConfigUpdateList %d",__LINE__); return RFAILED; } for(arrIdx = 0; arrIdx< e2NodeUpdateList->list.count; arrIdx++) { DU_ALLOC(e2NodeUpdateList->list.array[arrIdx], sizeof(E2nodeComponentConfigUpdate_ItemIEs_t)); if(e2NodeUpdateList->list.array[arrIdx] == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed for BuildE2NodeConfigUpdateList %d",__LINE__); return RFAILED; } e2NodeComponentInfo= fetchE2NodeComponentInfo(updateE2Node[arrIdx].interface, updateE2Node[arrIdx].actionType, &node); if(!e2NodeComponentInfo) { DU_LOG("\nERROR --> E2AP : Received null e2NodeComponentInfo at line number %d",__LINE__); return RFAILED; } e2NodeUpdateItemIe = (E2nodeComponentConfigUpdate_ItemIEs_t *) e2NodeUpdateList->list.array[arrIdx]; e2NodeUpdateItemIe->id = ProtocolIE_IDE2_id_E2nodeComponentConfigUpdate_Item; e2NodeUpdateItemIe->criticality = CriticalityE2_reject; e2NodeUpdateItemIe->value.present = E2nodeComponentConfigUpdate_ItemIEs__value_PR_E2nodeComponentConfigUpdate_Item; e2NodeUpdateItem = &e2NodeUpdateItemIe->value.choice.E2nodeComponentConfigUpdate_Item; if(fillE2NodeConfig((PTR)e2NodeUpdateItem, e2NodeComponentInfo, CONFIG_MOD) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to fill the E2 node configuration"); return RFAILED; } } return ROK; } /******************************************************************* * * @brief Builds E2 node config remove list * * @details * * Function :BuildE2NodeConfigRemoveList * * Functionality: Building E2 node config remove list * * @params[in] * E2nodeComponentConfigRemoval_List_t to be filled * Count of E2 node to be remove in the list * Received list of E2 node configuration * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildE2NodeConfigRemoveList(E2nodeComponentConfigRemoval_List_t *e2NodeRemoveList, uint16_t count, E2NodeConfigItem *updateE2Node) { uint8_t arrIdx = 0; CmLList *node=NULL; E2NodeComponent *e2NodeComponentInfo=NULL; E2nodeComponentConfigRemoval_ItemIEs_t *e2NodeRemovalItemIe=NULL; E2nodeComponentConfigRemoval_Item_t *e2NodeRemovalItem=NULL; e2NodeRemoveList->list.count = count; e2NodeRemoveList->list.size = e2NodeRemoveList->list.count * sizeof(E2nodeComponentConfigRemoval_ItemIEs_t *); DU_ALLOC(e2NodeRemoveList->list.array, e2NodeRemoveList->list.size); if(e2NodeRemoveList->list.array == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed for BuildE2NodeConfigRemoveList %d",__LINE__); return RFAILED; } for(arrIdx = 0; arrIdx< e2NodeRemoveList->list.count; arrIdx++) { DU_ALLOC(e2NodeRemoveList->list.array[arrIdx], sizeof(E2nodeComponentConfigRemoval_ItemIEs_t)); if(e2NodeRemoveList->list.array[arrIdx] == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed for BuildE2NodeConfigRemoveList %d",__LINE__); return RFAILED; } e2NodeComponentInfo= fetchE2NodeComponentInfo(updateE2Node[arrIdx].interface, updateE2Node[arrIdx].actionType, &node); if(!e2NodeComponentInfo) { DU_LOG("\nERROR --> E2AP : Received null e2NodeComponentInfo at line number %d",__LINE__); return RFAILED; } e2NodeRemovalItemIe = (E2nodeComponentConfigRemoval_ItemIEs_t *) e2NodeRemoveList->list.array[arrIdx]; e2NodeRemovalItemIe->id = ProtocolIE_IDE2_id_E2nodeComponentConfigRemoval_Item; e2NodeRemovalItemIe->criticality = CriticalityE2_reject; e2NodeRemovalItemIe->value.present = E2nodeComponentConfigRemoval_ItemIEs__value_PR_E2nodeComponentConfigRemoval_Item; e2NodeRemovalItem = &e2NodeRemovalItemIe->value.choice.E2nodeComponentConfigRemoval_Item; if(fillE2NodeConfig((PTR)e2NodeRemovalItem, e2NodeComponentInfo, CONFIG_DEL) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to fill the E2 node configuration"); return RFAILED; } } return ROK; } /******************************************************************* * * @brief deallocation of E2SM_KPM_RANfunction_Description_t * * @details * * Function : freeE2smKpmRanFunctionDefinition * * Functionality: deallocation of E2SM_KPM_RANfunction_Description_t * * @params[in] E2SM_KPM_RANfunction_Description_t *ranFunctionDefinition * @return void * ******************************************************************/ void freeE2smKpmRanFunctionDefinition(E2SM_KPM_RANfunction_Description_t *ranFunctionDefinition) { MeasurementInfo_Action_Item_t *measInfoList; uint8_t eventTriggerIdx, reportStyleIdx, measInfoIdx; RANfunction_Name_t *ranFuncName; struct E2SM_KPM_RANfunction_Description__ric_ReportStyle_List *ricReportStyle; struct E2SM_KPM_RANfunction_Description__ric_EventTriggerStyle_List *eventTriggerStyle; if(ranFunctionDefinition) { ranFuncName = &ranFunctionDefinition->ranFunction_Name; /* Free RAN function Name */ DU_FREE(ranFuncName->ranFunction_ShortName.buf, ranFuncName->ranFunction_ShortName.size); DU_FREE(ranFuncName->ranFunction_E2SM_OID.buf, ranFuncName->ranFunction_E2SM_OID.size); DU_FREE(ranFuncName->ranFunction_Description.buf, ranFuncName->ranFunction_Description.size); /* Sequence of Event Trigger styles */ eventTriggerStyle = ranFunctionDefinition->ric_EventTriggerStyle_List; if(eventTriggerStyle) { if(eventTriggerStyle->list.array) { for(eventTriggerIdx =0;eventTriggerIdxlist.count; eventTriggerIdx++) { if(eventTriggerStyle->list.array[eventTriggerIdx]) { DU_FREE(eventTriggerStyle->list.array[eventTriggerIdx]->ric_EventTriggerStyle_Name.buf,\ eventTriggerStyle->list.array[eventTriggerIdx]->ric_EventTriggerStyle_Name.size); DU_FREE(eventTriggerStyle->list.array[eventTriggerIdx], sizeof(RIC_EventTriggerStyle_Item_t )); } } DU_FREE(eventTriggerStyle->list.array, eventTriggerStyle->list.size) } DU_FREE(eventTriggerStyle, sizeof(struct E2SM_KPM_RANfunction_Description__ric_EventTriggerStyle_List)); } /* Sequence of Report styles */ ricReportStyle = ranFunctionDefinition->ric_ReportStyle_List; if(ricReportStyle) { if(ricReportStyle->list.array) { for(reportStyleIdx =0;reportStyleIdxlist.count; reportStyleIdx++) { if(ricReportStyle->list.array[reportStyleIdx]) { if(ricReportStyle->list.array[reportStyleIdx]->ric_ReportStyle_Name.buf) { DU_FREE(ricReportStyle->list.array[reportStyleIdx]->ric_ReportStyle_Name.buf,\ ricReportStyle->list.array[reportStyleIdx]->ric_ReportStyle_Name.size); } if(ricReportStyle->list.array[reportStyleIdx]->measInfo_Action_List.list.array) { for(measInfoIdx=0; measInfoIdxlist.array[reportStyleIdx]->measInfo_Action_List.list.count; \ measInfoIdx++) { measInfoList = ricReportStyle->list.array[reportStyleIdx]->measInfo_Action_List.list.array[measInfoIdx]; if(measInfoList) { DU_FREE(measInfoList->measID, sizeof(long)); DU_FREE(measInfoList->measName.buf, measInfoList->measName.size); DU_FREE(measInfoList,sizeof(MeasurementInfo_Action_Item_t)); } } DU_FREE(measInfoList,ricReportStyle->list.array[reportStyleIdx]->measInfo_Action_List.list.size); } DU_FREE(ricReportStyle->list.array[reportStyleIdx], sizeof(RIC_ReportStyle_Item_t)); } } DU_FREE(ricReportStyle->list.array, ricReportStyle->list.size); } DU_FREE(ricReportStyle, sizeof(struct E2SM_KPM_RANfunction_Description__ric_ReportStyle_List)); } DU_FREE(ranFunctionDefinition, sizeof(E2SM_KPM_RANfunction_Description_t)); } } /******************************************************************* * * @brief fill the e2sm ric report style * * @details * * Function : fillRicReportStyle * * Functionality: fill the report style * * @params[in] RanFunction *ranFuncDb, struct * E2SM_KPM_RANfunction_Description__ric_ReportStyle_List *ricReportStyle * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t fillRicReportStyle(RanFunction *ranFuncDb, struct E2SM_KPM_RANfunction_Description__ric_ReportStyle_List *ricReportStyle) { uint8_t styleIdx, measInfoIdx; MeasurementInfo_Action_List_t *measInfo; CmLList *node; ricReportStyle->list.count = ranFuncDb->numOfReportStyleSupported; ricReportStyle->list.size = ricReportStyle->list.count * sizeof(RIC_ReportStyle_Item_t*); DU_ALLOC(ricReportStyle->list.array, ricReportStyle->list.size); if(!ricReportStyle->list.array) { DU_LOG("\nERROR --> E2AP: Memory allocation failed for ranFuncDefinition %d",__LINE__); return RFAILED; } for(styleIdx =0;styleIdxlist.count; styleIdx++) { DU_ALLOC(ricReportStyle->list.array[styleIdx], sizeof(RIC_ReportStyle_Item_t)); if(!ricReportStyle->list.array[styleIdx]) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); return RFAILED; } /* RIC Report Style Type */ ricReportStyle->list.array[styleIdx]->ric_ReportStyle_Type = ranFuncDb->reportStyleList[styleIdx].reportStyle.styleType; /* RIC Report Style Format Type */ ricReportStyle->list.array[styleIdx]->ric_ActionFormat_Type = ranFuncDb->reportStyleList[styleIdx].reportStyle.formatType; /* RIC Report Style Name */ ricReportStyle->list.array[styleIdx]->ric_ReportStyle_Name.size = strlen(ranFuncDb->reportStyleList[styleIdx].reportStyle.name); DU_ALLOC(ricReportStyle->list.array[styleIdx]->ric_ReportStyle_Name.buf,\ ricReportStyle->list.array[styleIdx]->ric_ReportStyle_Name.size); if(!ricReportStyle->list.array[styleIdx]->ric_ReportStyle_Name.buf) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); return RFAILED; } memcpy(ricReportStyle->list.array[styleIdx]->ric_ReportStyle_Name.buf, ranFuncDb->reportStyleList[styleIdx].reportStyle.name,\ ricReportStyle->list.array[styleIdx]->ric_ReportStyle_Name.size); /* RIC Indication Header Format Type*/ ricReportStyle->list.array[styleIdx]->ric_IndicationHeaderFormat_Type = ranFuncDb->ricIndicationHeaderFormat; /* RIC Indication Message Format Type*/ ricReportStyle->list.array[styleIdx]->ric_IndicationMessageFormat_Type = ranFuncDb->ricIndicationMessageFormat; /* Measurement Info Action List */ CmLListCp measInfoList =ranFuncDb->reportStyleList[styleIdx].measurementInfoList; if(!measInfoList.count) { continue; } CM_LLIST_FIRST_NODE(&ranFuncDb->reportStyleList[styleIdx].measurementInfoList, node); measInfo = &ricReportStyle->list.array[styleIdx]->measInfo_Action_List; measInfo->list.count = measInfoList.count; measInfo->list.size = measInfoList.count*sizeof(MeasurementInfo_Action_Item_t*); DU_ALLOC(measInfo->list.array, measInfo->list.size); if(!measInfo->list.array) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); return RFAILED; } for(measInfoIdx=0; measInfoIdxlist.count; measInfoIdx++) { if(!node) { DU_LOG("\nERROR --> E2AP: Measurement info node is null"); return RFAILED; } DU_ALLOC(measInfo->list.array[measInfoIdx],sizeof(MeasurementInfo_Action_Item_t)); if(!measInfo->list.array[measInfoIdx]) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); return RFAILED; } MeasurementInfoForAction *measInfoForAction= (MeasurementInfoForAction*)node->node; DU_ALLOC(measInfo->list.array[measInfoIdx]->measID, sizeof(long)); if(!measInfo->list.array[measInfoIdx]->measID) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); return RFAILED; } memcpy(measInfo->list.array[measInfoIdx]->measID, &measInfoForAction->measurementTypeId,sizeof(long)); measInfo->list.array[measInfoIdx]->measName.size= strlen(measInfoForAction->measurementTypeName); DU_ALLOC(measInfo->list.array[measInfoIdx]->measName.buf, measInfo->list.array[measInfoIdx]->measName.size); if(!measInfo->list.array[measInfoIdx]->measName.size) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); return RFAILED; } memcpy(measInfo->list.array[measInfoIdx]->measName.buf, \ measInfoForAction->measurementTypeName,\ measInfo->list.array[measInfoIdx]->measName.size); node = node->next; } } return ROK; } /******************************************************************* * * @brief fill the ric event trigger style * * @details * * Function : fillRicEventTriggerStyle * * Functionality: fill the ric event trigger style * * @params[in] * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t fillRicEventTriggerStyle(RanFunction *ranFuncDb, struct E2SM_KPM_RANfunction_Description__ric_EventTriggerStyle_List *ricEventTriggerStyle) { uint8_t styleIdx; ricEventTriggerStyle->list.count = ranFuncDb->numOfEventTriggerStyleSupported; ricEventTriggerStyle->list.size = ricEventTriggerStyle->list.count* sizeof(RIC_EventTriggerStyle_Item_t *); DU_ALLOC(ricEventTriggerStyle->list.array, ricEventTriggerStyle->list.size); if(!ricEventTriggerStyle->list.array) { DU_LOG("\nERROR --> E2AP: Memory allocation failed for ric_EventTriggerStyle_List %d",__LINE__); return RFAILED; } for(styleIdx =0;styleIdxlist.count; styleIdx++) { DU_ALLOC(ricEventTriggerStyle->list.array[styleIdx], sizeof(RIC_EventTriggerStyle_Item_t )); if(!ricEventTriggerStyle->list.array[styleIdx]) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); return RFAILED; } ricEventTriggerStyle->list.array[styleIdx]->ric_EventTriggerStyle_Type = ranFuncDb->eventTriggerStyleList[styleIdx].styleType; ricEventTriggerStyle->list.array[styleIdx]->ric_EventTriggerFormat_Type = ranFuncDb->eventTriggerStyleList[styleIdx].formatType; ricEventTriggerStyle->list.array[styleIdx]->ric_EventTriggerStyle_Name.size = strlen(ranFuncDb->eventTriggerStyleList[styleIdx].name); DU_ALLOC(ricEventTriggerStyle->list.array[styleIdx]->ric_EventTriggerStyle_Name.buf,\ ricEventTriggerStyle->list.array[styleIdx]->ric_EventTriggerStyle_Name.size); if(!ricEventTriggerStyle->list.array[styleIdx]->ric_EventTriggerStyle_Name.buf) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); return RFAILED; } memcpy(ricEventTriggerStyle->list.array[styleIdx]->ric_EventTriggerStyle_Name.buf,ranFuncDb->eventTriggerStyleList[styleIdx].name,\ ricEventTriggerStyle->list.array[styleIdx]->ric_EventTriggerStyle_Name.size); } return ROK; } /******************************************************************* * * @brief Builds Ran function item * * @details * * Function : BuildRanFunctionItem * * Functionality: Building RAN function item * * @params[in] * RAN function item that has to be filled * Stored RAN Function information * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildRanFunctionItem(RANfunction_Item_t *ranFuncItem, RanFunction *ranFuncDb) { uint8_t ret =RFAILED; RANfunctionDefinition_t *ranFunctionDefinition; RANfunction_Name_t *ranFuncName; asn_enc_rval_t encRetVal; E2SM_KPM_RANfunction_Description_t *ranFuncDefinition; while(true) { /* RAN function Id*/ ranFuncItem->ranFunctionID = ranFuncDb->id; /* RAN Function Revision*/ ranFuncItem->ranFunctionRevision = ranFuncDb->revisionCounter; /* RAN function OID*/ ranFuncItem->ranFunctionOID.size = strlen(ranFuncDb->name.serviceModelOID); DU_ALLOC(ranFuncItem->ranFunctionOID.buf, ranFuncItem->ranFunctionOID.size); if(!ranFuncItem->ranFunctionOID.buf) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); break; } memcpy(ranFuncItem->ranFunctionOID.buf, ranFuncDb->name.serviceModelOID, ranFuncItem->ranFunctionOID.size); /* RAN function Definition */ DU_ALLOC(ranFuncDefinition, sizeof(E2SM_KPM_RANfunction_Description_t)); if(!ranFuncDefinition) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); break; } /* RAN function Name */ ranFuncName = &ranFuncDefinition->ranFunction_Name; /* RAN function ShortName */ ranFuncName->ranFunction_ShortName.size = strlen(ranFuncDb->name.shortName); DU_ALLOC(ranFuncName->ranFunction_ShortName.buf, ranFuncName->ranFunction_ShortName.size); if(!ranFuncName->ranFunction_ShortName.buf) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); break; } memcpy(ranFuncName->ranFunction_ShortName.buf, ranFuncDb->name.shortName, strlen(ranFuncDb->name.shortName)); /* RAN function E2SM_OID */ ranFuncName->ranFunction_E2SM_OID.size = strlen(ranFuncDb->name.serviceModelOID); DU_ALLOC(ranFuncName->ranFunction_E2SM_OID.buf, ranFuncName->ranFunction_E2SM_OID.size); if(!ranFuncName->ranFunction_E2SM_OID.buf) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); break; } memcpy(ranFuncName->ranFunction_E2SM_OID.buf, ranFuncDb->name.serviceModelOID, ranFuncName->ranFunction_E2SM_OID.size); /* RAN Function Name Description */ ranFuncName->ranFunction_Description.size = strlen(ranFuncDb->name.description); DU_ALLOC(ranFuncName->ranFunction_Description.buf, ranFuncName->ranFunction_Description.size); if(!ranFuncName->ranFunction_Description.buf) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); break; } memcpy(ranFuncName->ranFunction_Description.buf, ranFuncDb->name.description, ranFuncName->ranFunction_Description.size); /* RIC Event Trigger Style List */ DU_ALLOC(ranFuncDefinition->ric_EventTriggerStyle_List, sizeof(struct E2SM_KPM_RANfunction_Description__ric_EventTriggerStyle_List)); if(!ranFuncDefinition->ric_EventTriggerStyle_List) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); break; } if(fillRicEventTriggerStyle(ranFuncDb, ranFuncDefinition->ric_EventTriggerStyle_List)!=ROK) { DU_LOG("\nERROR --> E2AP: failed to fill ric event trigger style"); break; } /* RIC Report Style List */ DU_ALLOC(ranFuncDefinition->ric_ReportStyle_List, sizeof(struct E2SM_KPM_RANfunction_Description__ric_ReportStyle_List)); if(!ranFuncDefinition->ric_ReportStyle_List) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in function %s at %d",__func__,__LINE__); break; } if(fillRicReportStyle(ranFuncDb, ranFuncDefinition->ric_ReportStyle_List) != ROK) { DU_LOG("\nERROR --> E2AP: failed to fill ric report style"); break; } /* Encode the F1SetupRequest type as APER */ xer_fprint(stdout, &asn_DEF_E2SM_KPM_RANfunction_Description, ranFuncDefinition); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2SM_KPM_RANfunction_Description, 0, ranFuncDefinition, PrepFinalEncBuf, encBuf); /* Encode results */ if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> F1AP : Could not encode RAN function definition (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> F1AP : Created APER encoded buffer for RAN function definition \n"); for(uint8_t measIeIdx=0; measIeIdx< encBufSize; measIeIdx++) { printf("%x",encBuf[measIeIdx]); } ranFunctionDefinition = &ranFuncItem->ranFunctionDefinition; ranFunctionDefinition->size = encBufSize; DU_ALLOC(ranFunctionDefinition->buf, encBufSize); if(ranFunctionDefinition->buf == NULLP) { DU_LOG("\nERROR --> F1AP : Memory allocation failed for RAN function definition buffer"); break; } memcpy(ranFunctionDefinition->buf, &encBuf, encBufSize); ret = ROK; break; } } freeE2smKpmRanFunctionDefinition(ranFuncDefinition); return ret; } /******************************************************************* * * @brief Builds Ran function add list based on the procedure code * * @details * * Function : BuildRanFunctionAddList * * Functionality: Building RAN addition addition list * In case of ProcedureCodeE2_id_E2setup we add all the RAN Function list * which is present in E2 database. * In the case of other procedures, we just fill the RAN functions whose ID * is contained in recvList * * @params[in] * RAN Function list * Procedure code * Count of ran functions to be added in the list * Received list of RAN functions * * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildRanFunctionAddList(RANfunctions_List_t *ranFunctionsList, uint8_t procedureCode, uint8_t count, RanFuncInfo *recvList) { uint16_t id; RanFunction *ranFuncDb; uint8_t ranFuncIdx; RANfunction_ItemIEs_t *ranFuncItemIe; /* For ProcedureCodeE2_id_E2setup, the number of RAN function list items is * equal to the number of ran function entries stored in the database. * For any other procedure, the RAN function list count is equal * to the count of ran functions obtained from the function's caller */ if(procedureCode == ProcedureCodeE2_id_E2setup) ranFunctionsList->list.count = duCb.e2apDb.numOfRanFunction; else ranFunctionsList->list.count = count; ranFunctionsList->list.size = ranFunctionsList->list.count * sizeof(RANfunction_ItemIEs_t*); DU_ALLOC(ranFunctionsList->list.array, ranFunctionsList->list.size); if(ranFunctionsList->list.array == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in %s at %d",__func__, __LINE__); return RFAILED; } for(ranFuncIdx = 0; ranFuncIdx< ranFunctionsList->list.count; ranFuncIdx++) { DU_ALLOC(ranFunctionsList->list.array[ranFuncIdx], sizeof(RANfunction_ItemIEs_t)); if(ranFunctionsList->list.array[ranFuncIdx] == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in %s at %d",__func__, __LINE__); return RFAILED; } if(procedureCode == ProcedureCodeE2_id_E2setup) { /* Getting all of the RAN function's information from DuCb one by one*/ ranFuncDb = &duCb.e2apDb.ranFunction[ranFuncIdx]; } else { /* Getting only the RAN function information from DuCb whose Id is * present in the received array */ id =recvList[ranFuncIdx].id; ranFuncDb = &duCb.e2apDb.ranFunction[id-1]; } ranFuncItemIe = (RANfunction_ItemIEs_t *) ranFunctionsList->list.array[ranFuncIdx]; ranFuncItemIe->id = ProtocolIE_IDE2_id_RANfunction_Item; ranFuncItemIe->criticality = CriticalityE2_ignore; ranFuncItemIe->value.present = RANfunction_ItemIEs__value_PR_RANfunction_Item; BuildRanFunctionItem(&ranFuncItemIe->value.choice.RANfunction_Item, ranFuncDb); } return ROK; } /******************************************************************* * * @brief De Allocate E2 Setup Request Message * * @details * * Function : FreeE2SetupReq * * Functionality: De-Allocating E2 Setup request Message * * @params[in] E2AP_PDU_t *e2apMsg * @return void * * ****************************************************************/ void FreeE2SetupReq(E2AP_PDU_t *e2apMsg) { uint8_t arrIdx = 0; uint8_t e2NodeAddListIdx =0, ranFuncAddListIdx; E2setupRequest_t *e2SetupReq; E2nodeComponentConfigAddition_List_t *e2NodeAddList; E2nodeComponentConfigAddition_ItemIEs_t *e2NodeAddItem; RANfunctions_List_t *ranFunctionsList; RANfunction_ItemIEs_t *ranFuncItemIe; RANfunction_Item_t *ranFunItem; /* De-allocating Memory */ if(e2apMsg != NULLP) { if(e2apMsg->choice.initiatingMessage != NULLP) { e2SetupReq = &e2apMsg->choice.initiatingMessage->value.choice.E2setupRequest; if(e2SetupReq->protocolIEs.list.array != NULLP) { for(arrIdx = 0; arrIdx < e2SetupReq->protocolIEs.list.count; arrIdx++) { if(e2SetupReq->protocolIEs.list.array[arrIdx] != NULLP) { switch(e2SetupReq->protocolIEs.list.array[arrIdx]->id) { case ProtocolIE_IDE2_id_TransactionID: break; case ProtocolIE_IDE2_id_GlobalE2node_ID: { if(e2SetupReq->protocolIEs.list.array[arrIdx]->\ value.choice.GlobalE2node_ID.choice.gNB != NULLP) { GlobalE2node_gNB_ID_t *gNbId = NULLP; gNbId = e2SetupReq->protocolIEs.list.array[arrIdx]->\ value.choice.GlobalE2node_ID.choice.gNB; if(gNbId->global_gNB_ID.plmn_id.buf != NULLP) { DU_FREE(gNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf,\ gNbId->global_gNB_ID.gnb_id.choice.gnb_ID.size); DU_FREE(gNbId->global_gNB_ID.plmn_id.buf,\ gNbId->global_gNB_ID.plmn_id.size); } if(gNbId->gNB_DU_ID != NULLP) { DU_FREE( gNbId->gNB_DU_ID->buf, gNbId->gNB_DU_ID->size); DU_FREE(gNbId->gNB_DU_ID, sizeof(GNB_DU_ID_t)); } DU_FREE(e2SetupReq->protocolIEs.list.array[arrIdx]->value.\ choice.GlobalE2node_ID.choice.gNB, sizeof(GlobalE2node_gNB_ID_t)); } break; } case ProtocolIE_IDE2_id_E2nodeComponentConfigAddition: { e2NodeAddList = &e2SetupReq->protocolIEs.list.array[arrIdx]->value.choice.E2nodeComponentConfigAddition_List; if(e2NodeAddList->list.array) { for(e2NodeAddListIdx = 0; e2NodeAddListIdx< e2NodeAddList->list.count; e2NodeAddListIdx++) { e2NodeAddItem = (E2nodeComponentConfigAddition_ItemIEs_t *) e2NodeAddList->list.array[e2NodeAddListIdx]; /* Free E2 Node Component Request Part */ DU_FREE(e2NodeAddItem->value.choice.E2nodeComponentConfigAddition_Item.e2nodeComponentConfiguration.e2nodeComponentRequestPart.buf,\ e2NodeAddItem->value.choice.E2nodeComponentConfigAddition_Item.e2nodeComponentConfiguration.e2nodeComponentRequestPart.size); /* Free E2 Node Component Response Part */ DU_FREE(e2NodeAddItem->value.choice.E2nodeComponentConfigAddition_Item.e2nodeComponentConfiguration.\ e2nodeComponentResponsePart.buf, \ e2NodeAddItem->value.choice.E2nodeComponentConfigAddition_Item.e2nodeComponentConfiguration.e2nodeComponentResponsePart.size); /* Free E2 Node Component ID */ if(e2NodeAddItem->value.choice.E2nodeComponentConfigAddition_Item.e2nodeComponentID.choice.e2nodeComponentInterfaceTypeF1) { DU_FREE(e2NodeAddItem->value.choice.E2nodeComponentConfigAddition_Item.e2nodeComponentID.choice.\ e2nodeComponentInterfaceTypeF1->gNB_DU_ID.buf,\ e2NodeAddItem->value.choice.E2nodeComponentConfigAddition_Item.e2nodeComponentID.choice.\ e2nodeComponentInterfaceTypeF1->gNB_DU_ID.size); DU_FREE(e2NodeAddItem->value.choice.E2nodeComponentConfigAddition_Item.e2nodeComponentID.choice.e2nodeComponentInterfaceTypeF1,\ sizeof(E2nodeComponentInterfaceF1_t)); } DU_FREE(e2NodeAddList->list.array[e2NodeAddListIdx], sizeof(E2nodeComponentConfigAddition_ItemIEs_t)); } DU_FREE(e2NodeAddList->list.array, e2NodeAddList->list.size); } break; } case ProtocolIE_IDE2_id_RANfunctionsAdded: { ranFunctionsList = &(e2SetupReq->protocolIEs.list.array[arrIdx]->value.choice.RANfunctions_List); if(ranFunctionsList->list.array) { for(ranFuncAddListIdx= 0; ranFuncAddListIdx< ranFunctionsList->list.count; ranFuncAddListIdx++) { if(ranFunctionsList->list.array[ranFuncAddListIdx]) { ranFuncItemIe = (RANfunction_ItemIEs_t *) ranFunctionsList->list.array[ranFuncAddListIdx]; ranFunItem = &ranFuncItemIe->value.choice.RANfunction_Item; DU_FREE(ranFunItem->ranFunctionOID.buf, ranFunItem->ranFunctionOID.size); DU_FREE(ranFunItem->ranFunctionDefinition.buf, ranFunItem->ranFunctionDefinition.size); DU_FREE(ranFunctionsList->list.array[ranFuncAddListIdx], sizeof(RANfunction_ItemIEs_t)); } } DU_FREE(ranFunctionsList->list.array, ranFunctionsList->list.size); } break; } default: DU_LOG("\nERROR --> E2AP: Invalid event at e2SetupRequet %ld ",\ (e2SetupReq->protocolIEs.list.array[arrIdx]->id)); break; } DU_FREE(e2SetupReq->protocolIEs.list.array[arrIdx], sizeof(E2setupRequestIEs_t)); } } DU_FREE(e2SetupReq->protocolIEs.list.array, e2SetupReq->protocolIEs.list.size); } DU_FREE(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); } DU_FREE(e2apMsg, sizeof(E2AP_PDU_t)); } } /******************************************************************* * * @brief Builds and Send the E2SetupRequest * * @details * * Function : BuildAndSendE2SetupReq * * Functionality:Fills the E2SetupRequest * * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildAndSendE2SetupReq() { uint8_t arrIdx = 0, elementCnt=0; uint8_t transId = 0, ret = ROK; bool memAllocFailed; E2AP_PDU_t *e2apMsg = NULLP; E2setupRequest_t *e2SetupReq = NULLP; asn_enc_rval_t encRetVal; /* Encoder return value */ DU_LOG("\nINFO --> E2AP : Building E2 Setup Request\n"); do { DU_ALLOC(e2apMsg, sizeof(E2AP_PDU_t)); if(e2apMsg == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for E2AP-PDU failed"); break; } e2apMsg->present = E2AP_PDU_PR_initiatingMessage; DU_ALLOC(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); if(e2apMsg->choice.initiatingMessage == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for E2AP-PDU failed"); break; } e2apMsg->choice.initiatingMessage->criticality = CriticalityE2_reject; e2apMsg->choice.initiatingMessage->procedureCode = ProcedureCodeE2_id_E2setup; e2apMsg->choice.initiatingMessage->value.present = InitiatingMessageE2__value_PR_E2setupRequest; e2SetupReq = &e2apMsg->choice.initiatingMessage->value.choice.E2setupRequest; elementCnt = 4; e2SetupReq->protocolIEs.list.count = elementCnt; e2SetupReq->protocolIEs.list.size = elementCnt * sizeof(E2setupRequestIEs_t*); /* Initialize the E2Setup members */ DU_ALLOC(e2SetupReq->protocolIEs.list.array, \ e2SetupReq->protocolIEs.list.size); if(e2SetupReq->protocolIEs.list.array == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation failed for array elements"); break; } for(arrIdx = 0; arrIdx < elementCnt; (arrIdx)++) { DU_ALLOC(e2SetupReq->protocolIEs.list.array[arrIdx],\ sizeof(E2setupRequestIEs_t)); if(e2SetupReq->protocolIEs.list.array[arrIdx] == NULLP) { memAllocFailed = true; DU_LOG("\nERROR --> E2AP : Memory allocation failed for arrayarrIdx [%d]", arrIdx); break; } } if(memAllocFailed == true) break; arrIdx = 0; /* TransactionID */ e2SetupReq->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_TransactionID; e2SetupReq->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; e2SetupReq->protocolIEs.list.array[arrIdx]->value.present = E2setupRequestIEs__value_PR_TransactionID; transId = assignTransactionId(); e2SetupReq->protocolIEs.list.array[arrIdx]->value.choice.TransactionID = transId; arrIdx++; /* GlobalE2node_gNB_ID */ e2SetupReq->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_GlobalE2node_ID; e2SetupReq->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; e2SetupReq->protocolIEs.list.array[arrIdx]->value.present = E2setupRequestIEs__value_PR_GlobalE2node_ID; e2SetupReq->protocolIEs.list.array[arrIdx]->value.choice.GlobalE2node_ID.present = GlobalE2node_ID_PR_gNB; DU_ALLOC(e2SetupReq->protocolIEs.list.array[arrIdx]->value.choice.\ GlobalE2node_ID.choice.gNB, sizeof(GlobalE2node_gNB_ID_t)); if(e2SetupReq->protocolIEs.list.array[arrIdx]->value.choice.\ GlobalE2node_ID.choice.gNB == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation failed for gNbId"); break; } else { ret = BuildGlobalgNBId(e2SetupReq->protocolIEs.list.array[arrIdx]->value.\ choice.GlobalE2node_ID.choice.gNB); if(ret != ROK) { DU_LOG("\nERROR --> E2AP : Failed to build Global Gnb Id"); break; } } /* RAN Functions Added List */ arrIdx++; e2SetupReq->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_RANfunctionsAdded; e2SetupReq->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; e2SetupReq->protocolIEs.list.array[arrIdx]->value.present = E2setupRequestIEs__value_PR_RANfunctions_List; if(BuildRanFunctionAddList(&(e2SetupReq->protocolIEs.list.array[arrIdx]->value.choice.RANfunctions_List), ProcedureCodeE2_id_E2setup, 0, NULL)!=ROK) { DU_LOG("\nERROR --> E2AP : Failed to create RAN Function"); break; } /* E2 Node Component Configuration Addition List */ arrIdx++; e2SetupReq->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_E2nodeComponentConfigAddition; e2SetupReq->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; e2SetupReq->protocolIEs.list.array[arrIdx]->value.present = E2setupRequestIEs__value_PR_E2nodeComponentConfigAddition_List; if(BuildE2NodeConfigAddList(&(e2SetupReq->protocolIEs.list.array[arrIdx]->value.choice.E2nodeComponentConfigAddition_List), ProcedureCodeE2_id_E2setup, 0, NULL)!=ROK) { DU_LOG("\nERROR --> E2AP : Failed to create E2 Node config list"); break; } /* Prints the Msg formed */ xer_fprint(stdout, &asn_DEF_E2AP_PDU, e2apMsg); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2AP_PDU, 0, e2apMsg, PrepFinalEncBuf,\ encBuf); if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> E2AP : Could not encode E2SetupRequest structure (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> E2AP : Created APER encoded buffer for E2SetupRequest\n"); #ifdef DEBUG_ASN_PRINT for(int i=0; i< encBufSize; i++) { printf("%x",encBuf[i]); } #endif } if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL, encBuf, encBufSize) != ROK) { DU_LOG("\nERROR --> E2AP : Sending E2 Setup request failed"); } break; }while(true); duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].transactionId = transId; duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].procedureCode = e2apMsg->choice.initiatingMessage->procedureCode; FreeE2SetupReq(e2apMsg); return ret; }/* End of BuildAndSendE2SetupReq */ /******************************************************************* * * @brief Builds RIC Action Admitted List * * @details * * Function : BuildRicActionAdmitList * * Functionality: Builds RIC Action Admitted List * * @params[in] Pointer to RIC Action Admitted List to be filled * Subscription Response information * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t BuildRicActionAdmitList(RICaction_Admitted_List_t *admitList, PendingSubsRspInfo *subsRspInfo) { uint8_t idx = 0; uint8_t elementCnt = 0; RICaction_Admitted_ItemIEs_t *admitItem = NULLP; elementCnt = subsRspInfo->numOfAcceptedActions; admitList->list.count = elementCnt; admitList->list.size = elementCnt * sizeof(RICaction_Admitted_ItemIEs_t *); DU_ALLOC(admitList->list.array, admitList->list.size); if(admitList->list.array == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation failed at [%s] : line [%d]", __func__, __LINE__); return RFAILED; } for(idx=0; idxlist.array[idx], sizeof(RICaction_Admitted_ItemIEs_t)); if(admitList->list.array[idx] == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation failed at [%s] : line [%d]", __func__, __LINE__); return RFAILED; } admitItem = (RICaction_Admitted_ItemIEs_t *)admitList->list.array[idx]; admitItem->id = ProtocolIE_IDE2_id_RICaction_Admitted_Item; admitItem->criticality = CriticalityE2_reject; admitItem->value.present = RICaction_Admitted_ItemIEs__value_PR_RICaction_Admitted_Item; admitItem->value.choice.RICaction_Admitted_Item.ricActionID = subsRspInfo->acceptedActionList[idx]; } return ROK; } /******************************************************************* * * @brief Builds RIC Action Not Admitted List * * @details * * Function : BuildRicActionNotAdmitList * * Functionality: Builds RIC Action Not Admitted List * * @params[in] Pointer to RIC Action Not Admitted List to be filled * Subscription Response information * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t BuildRicActionNotAdmitList(RICaction_NotAdmitted_List_t *notAdmitList, PendingSubsRspInfo *subsRspInfo) { uint8_t idx = 0; uint8_t elementCnt = 0; RICaction_NotAdmitted_ItemIEs_t *notAdmitItem = NULLP; elementCnt = subsRspInfo->numOfRejectedActions; notAdmitList->list.count = elementCnt; notAdmitList->list.size = elementCnt * sizeof(RICaction_NotAdmitted_ItemIEs_t *); DU_ALLOC(notAdmitList->list.array, notAdmitList->list.size); if(notAdmitList->list.array == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation failed at [%s] : line [%d]", __func__, __LINE__); return RFAILED; } for(idx=0; idxlist.array[idx], sizeof(RICaction_NotAdmitted_ItemIEs_t)); if(notAdmitList->list.array[idx] == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation failed at [%s] : line [%d]", __func__, __LINE__); return RFAILED; } notAdmitItem = (RICaction_NotAdmitted_ItemIEs_t *)notAdmitList->list.array[idx]; notAdmitItem->id = ProtocolIE_IDE2_id_RICaction_NotAdmitted_Item; notAdmitItem->criticality = CriticalityE2_reject; notAdmitItem->value.present = RICaction_NotAdmitted_ItemIEs__value_PR_RICaction_NotAdmitted_Item; notAdmitItem->value.choice.RICaction_NotAdmitted_Item.ricActionID = \ subsRspInfo->rejectedActionList[idx].id; fillE2Cause(¬AdmitItem->value.choice.RICaction_NotAdmitted_Item.cause, \ subsRspInfo->rejectedActionList[idx].failureCause); } return ROK; } /******************************************************************* * * @breif Deallocation of BuildAndSendRicSubscriptionRsp memory * * @details * * Function : FreeRicSubscriptionRsp * * Functionality:Free the RicSubscriptionRsp * * @param[in] E2AP_PDU_t *e2apRicMsg * * @return void * ******************************************************************/ void FreeRicSubscriptionRsp(E2AP_PDU_t *e2apRicMsg) { RICsubscriptionResponse_t *ricSubscriptionRsp= NULLP; uint8_t idx=0; uint8_t listIdx=0; RICaction_Admitted_List_t *admitList = NULLP; RICaction_NotAdmitted_List_t *notAdmitList = NULLP; if(e2apRicMsg != NULLP) { if(e2apRicMsg->choice.successfulOutcome != NULLP) { ricSubscriptionRsp = &e2apRicMsg->choice.successfulOutcome->value.choice.RICsubscriptionResponse; if(ricSubscriptionRsp) { if(ricSubscriptionRsp->protocolIEs.list.array != NULLP) { for(idx=0; idxprotocolIEs.list.count; idx++) { if(ricSubscriptionRsp->protocolIEs.list.array[idx] != NULLP) { switch(ricSubscriptionRsp->protocolIEs.list.array[idx]->id) { case ProtocolIE_IDE2_id_RICactions_Admitted: { admitList = &ricSubscriptionRsp->protocolIEs.list.\ array[idx]->value.choice.RICaction_Admitted_List; if(admitList->list.array != NULLP) { for(listIdx=0 ; listIdx < admitList->list.count; listIdx++) { DU_FREE(admitList->list.array[listIdx], sizeof(RICaction_Admitted_ItemIEs_t)); } DU_FREE(admitList->list.array, admitList->list.size); } break; } case ProtocolIE_IDE2_id_RICactions_NotAdmitted: { notAdmitList = &ricSubscriptionRsp->protocolIEs.list.\ array[idx]->value.choice.RICaction_NotAdmitted_List; if(notAdmitList->list.array != NULLP) { for(listIdx=0 ; listIdx < notAdmitList->list.count; listIdx++) { DU_FREE(notAdmitList->list.array[listIdx], sizeof(RICaction_NotAdmitted_ItemIEs_t)); } DU_FREE(notAdmitList->list.array, notAdmitList->list.size); } break; } default: break; } DU_FREE(ricSubscriptionRsp->protocolIEs.list.array[idx], sizeof(RICsubscriptionResponse_IEs_t)); } } DU_FREE(ricSubscriptionRsp->protocolIEs.list.array, ricSubscriptionRsp->protocolIEs.list.size); } } DU_FREE(e2apRicMsg->choice.successfulOutcome, sizeof(SuccessfulOutcomeE2_t)); } DU_FREE(e2apRicMsg, sizeof(E2AP_PDU_t)); } } /******************************************************************* * * @brief Fill RIC Subscription Response IEs * * @details * * Function : fillRicSubscriptionRsp * * functionality: Fill RIC Subscription Response IEs * * @param Pointer to RIC subscription response * Subscription response information * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t fillRicSubscriptionRsp(RICsubscriptionResponse_t *ricSubscriptionRsp, PendingSubsRspInfo *subsRspInfo) { uint8_t ieIdx = 0; uint8_t elementCnt = 0; RICsubscriptionResponse_IEs_t *subsRspIe = NULLP; elementCnt = 3; if(subsRspInfo->numOfRejectedActions) elementCnt++; ricSubscriptionRsp->protocolIEs.list.count = elementCnt; ricSubscriptionRsp->protocolIEs.list.size = elementCnt * sizeof(RICsubscriptionResponse_IEs_t); DU_ALLOC(ricSubscriptionRsp->protocolIEs.list.array, ricSubscriptionRsp->protocolIEs.list.size); if(ricSubscriptionRsp->protocolIEs.list.array == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation failed at %s : line %d", __func__, __LINE__); return RFAILED; } for(ieIdx=0; ieIdxprotocolIEs.list.count; ieIdx++) { DU_ALLOC(ricSubscriptionRsp->protocolIEs.list.array[ieIdx], sizeof(RICsubscriptionResponse_IEs_t)); if(ricSubscriptionRsp->protocolIEs.list.array[ieIdx] == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation failed at [%s] : line [%d] : ieIdx [%d]", __func__, __LINE__,ieIdx); return RFAILED; } } /* RIC Request ID */ ieIdx=0; subsRspIe = ricSubscriptionRsp->protocolIEs.list.array[ieIdx]; subsRspIe->id = ProtocolIE_IDE2_id_RICrequestID; subsRspIe->criticality = CriticalityE2_reject; subsRspIe->value.present = RICsubscriptionRequest_IEs__value_PR_RICrequestID; subsRspIe->value.choice.RICrequestID.ricRequestorID = subsRspInfo->requestId.requestorId; subsRspIe->value.choice.RICrequestID.ricInstanceID = subsRspInfo->requestId.instanceId; /* RAN Function ID */ ieIdx++; subsRspIe = ricSubscriptionRsp->protocolIEs.list.array[ieIdx]; subsRspIe->id = ProtocolIE_IDE2_id_RANfunctionID; subsRspIe->criticality = CriticalityE2_reject; subsRspIe->value.present = RICsubscriptionRequest_IEs__value_PR_RANfunctionID; subsRspIe->value.choice.RANfunctionID = subsRspInfo->ranFuncId; /* RIC Action Admitted List */ ieIdx++; subsRspIe = ricSubscriptionRsp->protocolIEs.list.array[ieIdx]; subsRspIe->id = ProtocolIE_IDE2_id_RICactions_Admitted; subsRspIe->criticality = CriticalityE2_reject; subsRspIe->value.present = RICsubscriptionResponse_IEs__value_PR_RICaction_Admitted_List; if(BuildRicActionAdmitList(&subsRspIe->value.choice.RICaction_Admitted_List, subsRspInfo) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to fill RIC Action Admitted List in RIC Subscription Response"); return RFAILED; } /* RIC Action Not Admitted List */ if(subsRspInfo->numOfRejectedActions) { ieIdx++; subsRspIe = ricSubscriptionRsp->protocolIEs.list.array[ieIdx]; subsRspIe->id = ProtocolIE_IDE2_id_RICactions_NotAdmitted; subsRspIe->criticality = CriticalityE2_reject; subsRspIe->criticality = CriticalityE2_reject; subsRspIe->value.present = RICsubscriptionResponse_IEs__value_PR_RICaction_NotAdmitted_List; if(BuildRicActionNotAdmitList(&subsRspIe->value.choice.RICaction_NotAdmitted_List, subsRspInfo) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to fill RIC Action Not Admitted List in RIC Subscription Response"); return RFAILED; } } return ROK; } /******************************************************************* * * @brief Builds and Send the RicSubscriptionRsp * * @details * * Function : BuildAndSendRicSubscriptionRsp * * Functionality:Fills the RicSubscriptionRsp * * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildAndSendRicSubscriptionRsp(PendingSubsRspInfo *subsRspInfo) { uint8_t ret = RFAILED; E2AP_PDU_t *e2apRicMsg = NULLP; RICsubscriptionResponse_t *ricSubscriptionRsp=NULLP; asn_enc_rval_t encRetVal; while(true) { DU_LOG("\nINFO --> E2AP : Building RIC Subscription Response\n"); DU_ALLOC(e2apRicMsg, sizeof(E2AP_PDU_t)); if(e2apRicMsg == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for E2AP-PDU failed"); break; } e2apRicMsg->present = E2AP_PDU_PR_successfulOutcome; DU_ALLOC(e2apRicMsg->choice.successfulOutcome, sizeof(SuccessfulOutcomeE2_t)); if(e2apRicMsg->choice.successfulOutcome == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for RIC subscription Response failed"); break; } e2apRicMsg->choice.successfulOutcome->procedureCode = ProcedureCodeE2_id_RICsubscription; e2apRicMsg->choice.successfulOutcome->criticality = CriticalityE2_reject; e2apRicMsg->choice.successfulOutcome->value.present = SuccessfulOutcomeE2__value_PR_RICsubscriptionResponse; ricSubscriptionRsp = &e2apRicMsg->choice.successfulOutcome->value.choice.RICsubscriptionResponse; if(fillRicSubscriptionRsp(ricSubscriptionRsp, subsRspInfo) != ROK) { DU_LOG("\nERROR --> E2AP : Memory allocation for RICsubscriptionResponseIE failed"); break; } /* Prints the Msg formed */ xer_fprint(stdout, &asn_DEF_E2AP_PDU, e2apRicMsg); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2AP_PDU, 0, e2apRicMsg, PrepFinalEncBuf, encBuf); if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> E2AP : Could not encode RIC Subscription Response structure (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> E2AP : Created APER encoded buffer for RIC subscription response \n"); #ifdef DEBUG_ASN_PRINT for(int i=0; i< encBufSize; i++) { printf("%x",encBuf[i]); } #endif } if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL, encBuf, encBufSize) != ROK) { DU_LOG("\nERROR --> E2AP : Sending RIC Subscription Response failed"); break; } ret = ROK; break; } FreeRicSubscriptionRsp(e2apRicMsg); return ret; } /****************************************************************** * * @brief Deallocation of memory allocated by aper decoder for e2 setup response * * @details * * Function : freeAperDecodingOfE2SetupRsp * * Functionality: Deallocation of memory allocated by aper decoder for e2 * setup response * * @params[in] E2setupResponse_t *e2SetRspMsg; * @return void * * ****************************************************************/ void freeAperDecodingOfE2SetupRsp(E2setupResponse_t *e2SetRspMsg) { uint8_t arrIdx, e2NodeConfigAddAckListIdx; E2nodeComponentConfigAdditionAck_ItemIEs_t *e2NodeAddAckItem; E2nodeComponentConfigAdditionAck_List_t *e2NodeConfigAddAckList; if(e2SetRspMsg) { if(e2SetRspMsg->protocolIEs.list.array) { for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { if(e2SetRspMsg->protocolIEs.list.array[arrIdx]) { switch(e2SetRspMsg->protocolIEs.list.array[arrIdx]->id) { case ProtocolIE_IDE2_id_TransactionID: break; case ProtocolIE_IDE2_id_GlobalRIC_ID: { free(e2SetRspMsg->protocolIEs.list.array[arrIdx]->value.choice.GlobalRIC_ID.pLMN_Identity.buf); free(e2SetRspMsg->protocolIEs.list.array[arrIdx]->value.choice.GlobalRIC_ID.ric_ID.buf); break; } case ProtocolIE_IDE2_id_E2nodeComponentConfigAdditionAck: { e2NodeConfigAddAckList = &e2SetRspMsg->protocolIEs.list.array[arrIdx]->value.choice.E2nodeComponentConfigAdditionAck_List; if(e2NodeConfigAddAckList->list.array ) { for(e2NodeConfigAddAckListIdx = 0; e2NodeConfigAddAckListIdx< e2NodeConfigAddAckList->list.count; e2NodeConfigAddAckListIdx++) { if(e2NodeConfigAddAckList->list.array[e2NodeConfigAddAckListIdx]) { e2NodeAddAckItem = (E2nodeComponentConfigAdditionAck_ItemIEs_t*) e2NodeConfigAddAckList->list.array[e2NodeConfigAddAckListIdx]; free(e2NodeAddAckItem->value.choice.E2nodeComponentConfigAdditionAck_Item.e2nodeComponentID.choice.\ e2nodeComponentInterfaceTypeF1->gNB_DU_ID.buf); free(e2NodeAddAckItem->value.choice.E2nodeComponentConfigAdditionAck_Item.e2nodeComponentID.choice.\ e2nodeComponentInterfaceTypeF1); free(e2NodeConfigAddAckList->list.array[e2NodeConfigAddAckListIdx]); } } free(e2NodeConfigAddAckList->list.array); } break; } } free(e2SetRspMsg->protocolIEs.list.array[arrIdx]); } } free(e2SetRspMsg->protocolIEs.list.array); } } } /****************************************************************** * * @brief Processes E2 Setup Response sent by RIC * * @details * * Function : procE2SetupRsp * * Functionality: Processes E2 Setup Response sent by RIC * * @params[in] E2AP_PDU_t ASN decoded E2AP message * @return void * * ****************************************************************/ void procE2SetupRsp(E2AP_PDU_t *e2apMsg) { bool invalidTransId = false; uint8_t arrIdx =0, transId=0, idx=0; uint32_t recvBufLen; E2setupResponse_t *e2SetRspMsg=NULL; CmLList *node=NULL; E2NodeComponent *e2NodeComponentInfo=NULL; E2nodeComponentConfigAdditionAck_List_t *e2NodeCfgAckList=NULL; E2nodeComponentConfigAdditionAck_ItemIEs_t *e2NodeAddAckItem=NULL; DU_LOG("\nINFO --> E2AP : E2 Setup Response received"); duCb.e2Status = TRUE; //Set E2 status as true e2SetRspMsg = &e2apMsg->choice.successfulOutcome->value.choice.E2setupResponse; for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { switch(e2SetRspMsg->protocolIEs.list.array[arrIdx]->id) { case ProtocolIE_IDE2_id_TransactionID: { transId = e2SetRspMsg->protocolIEs.list.array[arrIdx]->value.choice.TransactionID; if((duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].transactionId == transId) &&\ (duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].procedureCode == e2apMsg->choice.successfulOutcome->procedureCode)) { memset(&duCb.e2apDb.e2TransInfo.e2InitTransaction[transId], 0, sizeof(E2TransInfo)); } else { DU_LOG("\nERROR --> E2AP : Invalid transaction id [%d]", transId); invalidTransId = true; } break; } case ProtocolIE_IDE2_id_GlobalRIC_ID: { /* To store the Ric Id Params */ recvBufLen = sizeof(e2SetRspMsg->protocolIEs.list.array[arrIdx]->value\ .choice.GlobalRIC_ID.pLMN_Identity.size); memcpy(&duCb.e2apDb.ricId.plmnId, e2SetRspMsg->protocolIEs.list.array[arrIdx]\ ->value.choice.GlobalRIC_ID.pLMN_Identity.buf, recvBufLen); bitStringToInt(&e2SetRspMsg->protocolIEs.list.array[arrIdx]->value.choice.GlobalRIC_ID.ric_ID, &duCb.e2apDb.ricId); /*TODO : duCb.e2apDb.ricId.plmnId memory to be deallocated after the usage */ break; } case ProtocolIE_IDE2_id_E2nodeComponentConfigAdditionAck: { e2NodeCfgAckList = &e2SetRspMsg->protocolIEs.list.array[arrIdx]->value.choice.E2nodeComponentConfigAdditionAck_List; for(idx =0; idx list.count; idx++) { e2NodeAddAckItem = (E2nodeComponentConfigAdditionAck_ItemIEs_t*) e2NodeCfgAckList->list.array[idx]; switch(e2NodeAddAckItem->value.choice.E2nodeComponentConfigAdditionAck_Item.e2nodeComponentID.present) { case E2nodeComponentID_PR_e2nodeComponentInterfaceTypeF1: { e2NodeComponentInfo = fetchE2NodeComponentInfo(F1, E2_NODE_COMPONENT_ADD, &node); if(!e2NodeComponentInfo) { DU_LOG("\nERROR --> E2AP : Received null e2NodeComponentInfo at line number %d",__LINE__); } else { cmLListDelFrm(&duCb.e2apDb.e2NodeComponentList, node); DU_FREE(e2NodeComponentInfo->componentRequestPart, e2NodeComponentInfo->reqBufSize); DU_FREE(e2NodeComponentInfo->componentResponsePart, e2NodeComponentInfo->rspBufSize); DU_FREE(e2NodeComponentInfo, sizeof(E2NodeComponent)); DU_FREE(node, sizeof(CmLList)); } break; } default: break; } } break; } default: { DU_LOG("\nERROR --> E2AP : Invalid IE received in E2SetupRsp:%ld", e2SetRspMsg->protocolIEs.list.array[arrIdx]->id); break; } } if(invalidTransId == true) { break; } } freeAperDecodingOfE2SetupRsp(e2SetRspMsg); if(invalidTransId == false) { if(duSendE2NodeConfigurationUpdate() != ROK) { DU_LOG("\nERROR --> E2AP : Failed to send E2 node config update"); } } } /******************************************************************* * * @brief Free RIC Subscription Request * * @details * * Function : freeAperDecodingOfRicSubsReq * * Functionality : Free RIC Subscription Request * * @return void * ******************************************************************/ void freeAperDecodingOfRicSubsReq(RICsubscriptionRequest_t *ricSubscriptionReq) { uint8_t idx = 0; uint8_t elementIdx = 0; RICsubscriptionDetails_t *subsDetails = NULLP; RICaction_ToBeSetup_ItemIEs_t *actionItem = NULLP; if(ricSubscriptionReq->protocolIEs.list.array) { for(idx=0; idx < ricSubscriptionReq->protocolIEs.list.count; idx++) { switch(ricSubscriptionReq->protocolIEs.list.array[idx]->id) { case ProtocolIE_IDE2_id_RICsubscriptionDetails: { subsDetails = &(ricSubscriptionReq->protocolIEs.list.array[idx]->value.choice.RICsubscriptionDetails); free(subsDetails->ricEventTriggerDefinition.buf); if(subsDetails->ricAction_ToBeSetup_List.list.array) { for(elementIdx = 0; elementIdx < subsDetails->ricAction_ToBeSetup_List.list.count; elementIdx++) { if(subsDetails->ricAction_ToBeSetup_List.list.array[elementIdx]) { actionItem = (RICaction_ToBeSetup_ItemIEs_t *)subsDetails->ricAction_ToBeSetup_List.list.array[elementIdx]; if(actionItem->value.choice.RICaction_ToBeSetup_Item.ricActionDefinition) { free(actionItem->value.choice.RICaction_ToBeSetup_Item.ricActionDefinition->buf); free(actionItem->value.choice.RICaction_ToBeSetup_Item.ricActionDefinition); } free(subsDetails->ricAction_ToBeSetup_List.list.array[elementIdx]); } } free(subsDetails->ricAction_ToBeSetup_List.list.array); } break; } } free(ricSubscriptionReq->protocolIEs.list.array[idx]); } free(ricSubscriptionReq->protocolIEs.list.array); } } /******************************************************************* * * @brief Free Event Trigger Definition * * @details * * Function : freeAperDecodingOfEventTriggerDef * * Functionality: Free Event Trigger Definition * * @params[in] E2SM-KPM Event Trigger Definition * @return void * * ****************************************************************/ void freeAperDecodingOfEventTriggerDef(E2SM_KPM_EventTriggerDefinition_t *eventTiggerDef) { if(eventTiggerDef) { switch(eventTiggerDef->eventDefinition_formats.present) { case E2SM_KPM_EventTriggerDefinition__eventDefinition_formats_PR_NOTHING: break; case E2SM_KPM_EventTriggerDefinition__eventDefinition_formats_PR_eventDefinition_Format1: free(eventTiggerDef->eventDefinition_formats.choice.eventDefinition_Format1); break; } } } /******************************************************************* * * @brief Extract E2SM-KPM Event trigger definition * * @details * * Function : extractEventTriggerDef * * Functionality : This function : * - Decodes E2SM-KPM Event Trigger Definition * - Validates that even trigger style is supported by E2 node * - Stores event trigger details in local DB * * @params[in] RAN Function Database structure * RIC Subscription Info to be added to RAN function * RIC Event Trigger Definition buffer received from RIC * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t extractEventTriggerDef(RanFunction *ranFuncDb, RicSubscription *ricSubscriptionInfo, \ RICeventTriggerDefinition_t *ricEventTriggerDef, E2FailureCause *failureCause) { uint8_t ret = RFAILED; uint8_t eventIdx = 0; asn_dec_rval_t rval ={0}; E2SM_KPM_EventTriggerDefinition_t eventTiggerDef, *eventTiggerDefPtr = NULLP; /* Decoding E2SM-KPM Even Trigger Definition */ eventTiggerDefPtr = &eventTiggerDef; memset(eventTiggerDefPtr, 0, sizeof(E2SM_KPM_EventTriggerDefinition_t)); rval = aper_decode(0, &asn_DEF_E2SM_KPM_EventTriggerDefinition, (void **)&eventTiggerDefPtr, ricEventTriggerDef->buf,\ ricEventTriggerDef->size, 0, 0); if(rval.code == RC_FAIL || rval.code == RC_WMORE) { DU_LOG("\nERROR --> E2AP : ASN decode failed for E2SM-KPM Event Trigger Definition"); failureCause->causeType = E2_PROTOCOL; failureCause->cause = E2_ABSTRACT_SYNTAX_ERROR_FALSELY_CONSTRUCTED_MESSAGE; return RFAILED; } printf("\n"); xer_fprint(stdout, &asn_DEF_E2SM_KPM_EventTriggerDefinition, eventTiggerDefPtr); /* Validating the received event trigger definition format */ for(eventIdx = 0; eventIdx < ranFuncDb->numOfEventTriggerStyleSupported; eventIdx++) { if((eventTiggerDefPtr->eventDefinition_formats.present != \ E2SM_KPM_EventTriggerDefinition__eventDefinition_formats_PR_NOTHING) && \ (eventTiggerDefPtr->eventDefinition_formats.present == ranFuncDb->eventTriggerStyleList[eventIdx].formatType)) { ricSubscriptionInfo->eventTriggerDefinition.formatType = ranFuncDb->eventTriggerStyleList[eventIdx].formatType; ricSubscriptionInfo->eventTriggerDefinition.choice.format1.reportingPeriod = \ eventTiggerDefPtr->eventDefinition_formats.choice.eventDefinition_Format1->reportingPeriod; ret = ROK; break; } } if(ret == RFAILED) { failureCause->causeType = E2_RIC_REQUEST; failureCause->cause = E2_EVENT_TRIGGER_NOT_SUPPORTED; } /* Free E2SM_KPM_EventTriggerDefinition_t */ freeAperDecodingOfEventTriggerDef(eventTiggerDefPtr); return ret; } /******************************************************************* * * @brief Free RIC Action Definition * * @details * * Function : freeAperDecodingOfRicActionDefinition * * Functionality: Free RIC Action Definition * * @params[in] E2SM-KPM Action definition * @return void * * ****************************************************************/ void freeAperDecodingOfRicActionDefinition(E2SM_KPM_ActionDefinition_t *actionDef) { uint8_t elementIdx = 0; E2SM_KPM_ActionDefinition_Format1_t *actionFormat1 = NULLP; MeasurementInfoItem_t *measItem = NULLP; switch(actionDef->actionDefinition_formats.present) { case E2SM_KPM_ActionDefinition__actionDefinition_formats_PR_actionDefinition_Format1: { if(actionDef->actionDefinition_formats.choice.actionDefinition_Format1) { actionFormat1 = actionDef->actionDefinition_formats.choice.actionDefinition_Format1; if(actionFormat1->measInfoList.list.array) { for(elementIdx = 0; elementIdx < actionFormat1->measInfoList.list.count; elementIdx++) { if(actionFormat1->measInfoList.list.array[elementIdx]) { measItem = actionFormat1->measInfoList.list.array[elementIdx]; switch(measItem->measType.present) { case MeasurementType_PR_NOTHING: break; case MeasurementType_PR_measName: { free(measItem->measType.choice.measName.buf); break; } case MeasurementType_PR_measID: break; } free(measItem); } } free(actionFormat1->measInfoList.list.array); } free(actionFormat1); } break; } case E2SM_KPM_ActionDefinition__actionDefinition_formats_PR_actionDefinition_Format2: case E2SM_KPM_ActionDefinition__actionDefinition_formats_PR_actionDefinition_Format3: case E2SM_KPM_ActionDefinition__actionDefinition_formats_PR_actionDefinition_Format4: case E2SM_KPM_ActionDefinition__actionDefinition_formats_PR_actionDefinition_Format5: default: break; } } /******************************************************************* * * @brief Extract Measurement Info list from action definition * * @details * * Function : extractMeasInfoList * * Functionality : This function : * - Traverses Measurement-to-be-subscribed list * - Validates that each measurement in Measurement-to-be-subscribed * list is supported in RAN-Function->Measurement-supported list. * - If all measurements in an action is supported by RAN function, * it is added to measurement-subscribed list in local DB * * @params[in] Measurement Info supported list by RAN function * Measurement Info to be subscribed as requested by RIC * Measurement Info finally subscribed * Memory failure indicator * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t extractMeasInfoList(CmLListCp *measInfoSupportedList, MeasurementInfoList_t *measInfoToBeSubscribedList, \ CmLListCp *measInfoSubscribedList, bool *memFailure) { uint8_t elementIdx = 0; MeasurementInfoForAction *measInfoSupportedDb = NULLP; MeasurementInfo *measInfoSubscribedDb = NULLP, *measInfoToDel = NULLP; CmLList *supportedMeasNode = NULLP, *measToAddNode = NULLP, *measToDelNode = NULLP;; MeasurementInfoItem_t *measItem = NULLP; /* Validate Measurement list is supported by E2 node. * * Traverse and compare the Measurement-Supported List in E2 * node with Measurement-to-be-subscribed list received from RIC. * If a match is found, add it to measurement-subscription list. */ for(elementIdx = 0; elementIdx < measInfoToBeSubscribedList->list.count; elementIdx++) { measInfoSubscribedDb = NULLP; measToAddNode = NULLP; measItem = measInfoToBeSubscribedList->list.array[elementIdx]; CM_LLIST_FIRST_NODE(measInfoSupportedList, supportedMeasNode); while(supportedMeasNode) { measInfoSupportedDb = (MeasurementInfoForAction*)supportedMeasNode->node; switch(measItem->measType.present) { case MeasurementType_PR_measName: { if(!strcmp(measInfoSupportedDb->measurementTypeName, (char *)measItem->measType.choice.measName.buf)) { DU_ALLOC(measInfoSubscribedDb, sizeof(MeasurementInfo)); } break; } case MeasurementType_PR_measID: { if(measInfoSupportedDb->measurementTypeId == measItem->measType.choice.measID) { DU_ALLOC(measInfoSubscribedDb, sizeof(MeasurementInfo)); } break; } default: { DU_LOG("\nERROR -> DUAPP: Invalid Measurement-type identifier in \ E2SM-KPM Action Definition Format"); break; } } /* End of switch, for measurement type identifier */ /* If measurement type is supported, add to measurement-subscription list */ if(measInfoSubscribedDb) { measInfoSubscribedDb->measurementTypeId = measInfoSupportedDb->measurementTypeId; memcpy(measInfoSubscribedDb->measurementTypeName, measInfoSupportedDb->measurementTypeName, \ strlen(measInfoSupportedDb->measurementTypeName)); DU_ALLOC(measToAddNode, sizeof(CmLList)); if(measToAddNode) { measToAddNode->node = (PTR) measInfoSubscribedDb; cmLListAdd2Tail(measInfoSubscribedList, measToAddNode); /* Break out of while loop if measurement info is found in measurement-supported list */ break; } else { DU_FREE(measInfoSubscribedDb, sizeof(MeasurementInfo)); measInfoSubscribedDb = NULLP; *memFailure = true; break; } } supportedMeasNode = supportedMeasNode->next; } /* End of while for traversing measurement-supported list in a report style */ /* If a measurement-to-be-subscribed is not found in measurement-supported list in this report style * Then : * Delete all entries from measurement-subscription list and * Break out of for loop to search in next report style */ if(!measInfoSubscribedDb) { deleteMeasurementInfoList(measInfoSubscribedList); break; } } /* End of for loop , traversing measurement-to-be-subscribed list */ /* If all measurement-to-be-subscribed was found in measurement-supported list and * was added to measurement-subscription list successfully, return from here */ if(measInfoToBeSubscribedList->list.count == measInfoSubscribedList->count) return ROK; return RFAILED; } /******************************************************************* * * @brief Extract E2SM-KPM Action definition * * @details * * Function : extractRicActionDef * * Functionality : This function : * - Decodes E2SM-KPM Action Definition * - Validates that action is supported by E2 node * - Stores action details in local DB * * @params[in] RAN Function Database structure * RIC subscription's Action definition to be added to * RAN function * RIC Action Definition buffer received from RIC * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t extractRicActionDef(RanFunction *ranFuncDb, ActionDefinition *actionDefDb, RICactionDefinition_t *ricActionDef,\ E2FailureCause *failureCause) { bool memFailure = false; uint8_t styleIdx = 0; asn_dec_rval_t rval ={0}; E2SM_KPM_ActionDefinition_t actionDef, *actionDefPtr = NULLP; E2SM_KPM_ActionDefinition_Format1_t *actionFormat1 = NULLP; CmLListCp *measInfoSupportedList = NULLP; CmLListCp *measInfoSubscribedList = NULLP; /* Decoding E2SM-KPM Action Definition */ actionDefPtr = &actionDef; memset(actionDefPtr, 0, sizeof(E2SM_KPM_EventTriggerDefinition_t)); rval = aper_decode(0, &asn_DEF_E2SM_KPM_ActionDefinition, (void **)&actionDefPtr, ricActionDef->buf,\ ricActionDef->size, 0, 0); if(rval.code == RC_FAIL || rval.code == RC_WMORE) { DU_LOG("\nERROR --> E2AP : ASN decode failed for E2SM-KPM Action Definition"); failureCause->causeType = E2_PROTOCOL; failureCause->cause = E2_ABSTRACT_SYNTAX_ERROR_FALSELY_CONSTRUCTED_MESSAGE; return RFAILED; } printf("\n"); xer_fprint(stdout, &asn_DEF_E2SM_KPM_ActionDefinition, actionDefPtr); /* Validate if Report style to subscribe is supported by E2 Node */ for(styleIdx= 0; styleIdx < ranFuncDb->numOfReportStyleSupported; styleIdx++) { /* Validate Report style type and report style format type is supported by E2 Node */ if((ranFuncDb->reportStyleList[styleIdx].reportStyle.styleType == actionDefPtr->ric_Style_Type) && (ranFuncDb->reportStyleList[styleIdx].reportStyle.formatType == actionDefPtr->actionDefinition_formats.present)) { /* Fetch Report stype type and format type */ actionDefDb->styleType = actionDefPtr->ric_Style_Type; actionDefDb->formatType = actionDefPtr->actionDefinition_formats.present; switch(actionDefPtr->actionDefinition_formats.present) { case E2SM_KPM_ActionDefinition__actionDefinition_formats_PR_actionDefinition_Format1: { actionFormat1 = actionDefPtr->actionDefinition_formats.choice.actionDefinition_Format1; /* Fetch granularity period */ actionDefDb->choice.format1.granularityPeriod = actionFormat1->granulPeriod; /* Validate and add the Measurement to subscription list */ measInfoSupportedList = &ranFuncDb->reportStyleList[styleIdx].measurementInfoList; measInfoSubscribedList = &actionDefDb->choice.format1.measurementInfoList; if(extractMeasInfoList(measInfoSupportedList, &actionFormat1->measInfoList, \ measInfoSubscribedList, &memFailure) == ROK) { if(!memFailure) { /* Free E2SM_KPM_ActionDefinition_t */ freeAperDecodingOfRicActionDefinition(actionDefPtr); return ROK; } } break; /* End of E2SM-KPM Action definition format 1 case */ } default : { DU_LOG("\nERROR -> DUAPP: Only E2SM-KPM Action Definition Format 1 is supported"); break; } } /* End of switch for E2SM-KPM Action definition formats */ } if(memFailure) { failureCause->causeType = E2_MISCELLANEOUS; failureCause->cause = E2_MISCELLANEOUS_CAUSE_UNSPECIFIED; break; } } /* End of for loop, traversing Report-styles-supported list in E2 node */ /* Memset action Db and Free E2SM_KPM_ActionDefinition_t */ memset(actionDefDb, 0, sizeof(ActionDefinition)); freeAperDecodingOfRicActionDefinition(actionDefPtr); if(failureCause->causeType == E2_NOTHING) { failureCause->causeType = E2_RIC_REQUEST; failureCause->cause = E2_ACTION_NOT_SUPPORTED; } return RFAILED; } /******************************************************************* * * @brief Extract RIC Action to be setup * * @details * * Function : extractRicActionToBeSetup * * Functionality : This function : * - Validates that each action-to-be-setup is supported by E2 node * - Stores event trigger details in local DB * * @params[in] RAN Function Database structure * RIC Subscription Info to be added to RAN function * RIC Action To Be Setup List received from RIC * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t extractRicActionToBeSetup(RanFunction *ranFuncDb, RicSubscription *ricSubscriptionInfo, \ RICactions_ToBeSetup_List_t *actionList, E2FailureCause *failureCause, PendingSubsRspInfo *subsRsp) { uint8_t actionIdx = 0; uint8_t ricActionId = 0; RICaction_ToBeSetup_ItemIEs_t *actionItem = NULLP; if(actionList->list.array) { for(actionIdx = 0; actionIdx < actionList->list.count; actionIdx++) { actionItem =(RICaction_ToBeSetup_ItemIEs_t *)actionList->list.array[actionIdx]; switch(actionItem->id) { case ProtocolIE_IDE2_id_RICaction_ToBeSetup_Item: { /* If Action type is REPORT and * If RIC action definition's extraction and validation passes, * Then : * This action is added to action sequence list of subscription info */ ricActionId = actionItem->value.choice.RICaction_ToBeSetup_Item.ricActionID; if(actionItem->value.choice.RICaction_ToBeSetup_Item.ricActionType == RICactionType_report) { ricSubscriptionInfo->actionSequence[ricActionId].actionId = ricActionId; ricSubscriptionInfo->actionSequence[ricActionId].type = REPORT; if(extractRicActionDef(ranFuncDb, &ricSubscriptionInfo->actionSequence[ricActionId].definition, \ actionItem->value.choice.RICaction_ToBeSetup_Item.ricActionDefinition, failureCause) == ROK) { ricSubscriptionInfo->actionSequence[ricActionId].action = CONFIG_ADD; ricSubscriptionInfo->numOfActions++; break; } } /* In case of any failure, action is rejected * Added to rejected-action-list in subscription response */ deleteActionSequence(&ricSubscriptionInfo->actionSequence[ricActionId]); subsRsp->rejectedActionList[subsRsp->numOfRejectedActions].id = ricActionId; if(failureCause->causeType == E2_NOTHING) { failureCause->causeType = E2_RIC_REQUEST; failureCause->cause = E2_ACTION_NOT_SUPPORTED; } memcpy(&subsRsp->rejectedActionList[subsRsp->numOfRejectedActions].failureCause, \ failureCause, sizeof(E2FailureCause)); subsRsp->numOfRejectedActions++; break; } default: DU_LOG("\nERROR --> E2AP : Invalid IE received in RicSetupLst:%ld",actionItem->id); break; } } } /* If there is even 1 action that can be added, return ROK */ if(ricSubscriptionInfo->numOfActions) return ROK; if(failureCause->causeType == E2_NOTHING) { failureCause->causeType = E2_RIC_REQUEST; failureCause->cause = E2_ACTION_NOT_SUPPORTED; } return RFAILED; } /****************************************************************** * * @brief Processes RIC Subscription Req sent by RIC * * @details * * Function : procRicSubscriptionRequest * * Functionality: Processes RIC Subscription Request from RIC * * @params[in] E2AP_PDU_t ASN decoded E2AP message * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t procRicSubscriptionRequest(E2AP_PDU_t *e2apMsg) { uint8_t idx = 0, actionIdx = 0; uint8_t ret = ROK; uint16_t ranFuncId = 0; RicRequestId ricReqId; CmLList *ricSubscriptionNode = NULLP; RanFunction *ranFuncDb = NULLP; RICsubscriptionRequest_t *ricSubsReq = NULLP; RICsubscriptionDetails_t *subsDetails = NULLP; RicSubscription *ricSubscriptionInfo = NULLP; E2FailureCause failureCause; DU_LOG("\nINFO --> E2AP : RIC Subscription request received"); memset(&failureCause, 0, sizeof(E2FailureCause)); memset(&ricReqId, 0, sizeof(RicRequestId)); ricSubsReq = &e2apMsg->choice.initiatingMessage->value.choice.RICsubscriptionRequest; for(idx=0; idxprotocolIEs.list.count; idx++) { if(ricSubsReq->protocolIEs.list.array[idx]) { switch(ricSubsReq->protocolIEs.list.array[idx]->id) { case ProtocolIE_IDE2_id_RICrequestID: { ricReqId.requestorId = ricSubsReq->protocolIEs.list.array[idx]->value.choice.RICrequestID.ricRequestorID; ricReqId.instanceId = ricSubsReq->protocolIEs.list.array[idx]->value.choice.RICrequestID.ricInstanceID; break; } case ProtocolIE_IDE2_id_RANfunctionID: { ranFuncId = ricSubsReq->protocolIEs.list.array[idx]->value.choice.RANfunctionID; /* Validating RAN Function id */ ranFuncDb = fetchRanFuncFromRanFuncId(ranFuncId); if(!ranFuncDb) { failureCause.causeType = E2_RIC_REQUEST; failureCause.cause = E2_RAN_FUNCTION_ID_INVALID; ret = RFAILED; break; } if(ranFuncDb->numPendingSubsRsp >= MAX_PENDING_SUBSCRIPTION_RSP) { failureCause.causeType = E2_RIC_REQUEST; failureCause.cause = E2_FUNCTION_RESOURCE_LIMIT; ret = RFAILED; break; } DU_ALLOC(ricSubscriptionInfo, sizeof(RicSubscription)); if(!ricSubscriptionInfo) { DU_LOG("\nERROR --> E2AP : Memory allocation failed for ricSubscriptionInfo"); failureCause.causeType = E2_MISCELLANEOUS; failureCause.cause = E2_MISCELLANEOUS_CAUSE_UNSPECIFIED; ret = RFAILED; break; } ricSubscriptionInfo->requestId.requestorId = ricReqId.requestorId; ricSubscriptionInfo->requestId.instanceId = ricReqId.instanceId; ricSubscriptionInfo->ranFuncId = ranFuncId; for(actionIdx = 0; actionIdx < MAX_RIC_ACTION; actionIdx++) { ricSubscriptionInfo->actionSequence[actionIdx].actionId = -1; } memset(&ranFuncDb->pendingSubsRspInfo[ranFuncDb->numPendingSubsRsp], 0, sizeof(PendingSubsRspInfo)); memcpy(&ranFuncDb->pendingSubsRspInfo[ranFuncDb->numPendingSubsRsp].requestId, &ricReqId, sizeof(RicRequestId)); ranFuncDb->pendingSubsRspInfo[ranFuncDb->numPendingSubsRsp].ranFuncId = ranFuncId; break; } case ProtocolIE_IDE2_id_RICsubscriptionDetails: { subsDetails = &ricSubsReq->protocolIEs.list.array[idx]->value.choice.RICsubscriptionDetails; /* Decode, Validate and record Event Trigger Definition */ if(extractEventTriggerDef(ranFuncDb, ricSubscriptionInfo, &subsDetails->ricEventTriggerDefinition, \ &failureCause) != ROK) { ret = RFAILED; break; } /* Decode, Validate and record RIC actions */ if(extractRicActionToBeSetup(ranFuncDb, ricSubscriptionInfo, &subsDetails->ricAction_ToBeSetup_List, \ &failureCause, &ranFuncDb->pendingSubsRspInfo[ranFuncDb->numPendingSubsRsp]) != ROK) { ret = RFAILED; break; } } break; default: DU_LOG("\nERROR --> E2AP : Invalid IE received in RIC SubsReq:%ld", ricSubsReq->protocolIEs.list.array[idx]->id); break; } if(ret == RFAILED) break; } } freeAperDecodingOfRicSubsReq(ricSubsReq); if(ret == ROK) { cmInitTimers(&(ricSubscriptionInfo->ricSubsReportTimer), 1); /* Add RAN subcription detail to RAN function */ DU_ALLOC(ricSubscriptionNode, sizeof(CmLList)); if(ricSubscriptionNode) { ricSubscriptionNode->node = (PTR) ricSubscriptionInfo; cmLListAdd2Tail(&ranFuncDb->subscriptionList, ricSubscriptionNode); } ranFuncDb->numPendingSubsRsp++; #ifdef KPI_CALCULATION /* Send statistics request to other DU entities */ BuildAndSendStatsReq(ricSubscriptionInfo); #endif } else { DU_FREE(ricSubscriptionInfo, sizeof(RicSubscription)); if(ranFuncDb) { memset(&ranFuncDb->pendingSubsRspInfo[ranFuncDb->numPendingSubsRsp], 0, sizeof(PendingSubsRspInfo)); } /* Send RIC Subcription Failure */ BuildAndSendRicSubscriptionFailure(ricReqId, ranFuncId, failureCause); } return ret; } /****************************************************************** * * @brief Free RIC Subscription Failure * * @details * * Function : FreeRicSubscriptionFailure * * Functionality: Free RIC Subscription Failure * * @params[in] E2AP PDU * @return void * * ****************************************************************/ void FreeRicSubscriptionFailure(E2AP_PDU_t *e2apMsg) { uint8_t elemIdx = 0; RICsubscriptionFailure_t *ricSubscriptionFailure = NULLP; if(e2apMsg) { if(e2apMsg->choice.unsuccessfulOutcome) { ricSubscriptionFailure = &e2apMsg->choice.unsuccessfulOutcome->value.choice.RICsubscriptionFailure; if(ricSubscriptionFailure->protocolIEs.list.array) { for(elemIdx = 0; elemIdx < ricSubscriptionFailure->protocolIEs.list.count; elemIdx++) { DU_ALLOC(ricSubscriptionFailure->protocolIEs.list.array[elemIdx], sizeof(RICsubscriptionFailure_IEs_t)); } DU_ALLOC(ricSubscriptionFailure->protocolIEs.list.array, ricSubscriptionFailure->protocolIEs.list.size); } DU_ALLOC(e2apMsg->choice.unsuccessfulOutcome, sizeof(UnsuccessfulOutcomeE2_t)); } DU_ALLOC(e2apMsg, sizeof(E2AP_PDU_t)); } } /****************************************************************** * * @brief Fill and Send RIC Subscription Failure to RIC * * @details * * Function : BuildAndSendRicSubscriptionFailure * * Functionality: Fill and Send RIC Subscription Failure to RIC * * @params[in] RIC Request ID * RAN Function ID * Cause of Failure * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t BuildAndSendRicSubscriptionFailure(RicRequestId ricReqId, uint16_t ranFuncId, E2FailureCause failureCause) { uint8_t ret = RFAILED; uint8_t elementCnt = 0, elemIdx = 0; E2AP_PDU_t *e2apMsg = NULLP; asn_enc_rval_t encRetVal; /* Encoder return value */ RICsubscriptionFailure_t *ricSubscriptionFailure = NULLP; RICsubscriptionFailure_IEs_t *ricSubsFailIe = NULLP; while(true) { DU_LOG("\nINFO --> E2AP : Building RIC Subscription Failure\n"); DU_ALLOC(e2apMsg, sizeof(E2AP_PDU_t)); if(e2apMsg == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation at [%s] : Line [%d]", __func__, __LINE__); break; } e2apMsg->present = E2AP_PDU_PR_unsuccessfulOutcome; DU_ALLOC(e2apMsg->choice.unsuccessfulOutcome, sizeof(UnsuccessfulOutcomeE2_t)); if(e2apMsg->choice.unsuccessfulOutcome == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation at [%s] : Line [%d]", __func__, __LINE__); break; } e2apMsg->choice.unsuccessfulOutcome->procedureCode = ProcedureCodeE2_id_RICsubscription; e2apMsg->choice.unsuccessfulOutcome->criticality = CriticalityE2_reject; e2apMsg->choice.unsuccessfulOutcome->value.present = UnsuccessfulOutcomeE2__value_PR_RICsubscriptionFailure; ricSubscriptionFailure = &e2apMsg->choice.unsuccessfulOutcome->value.choice.RICsubscriptionFailure; elementCnt = 3; ricSubscriptionFailure->protocolIEs.list.count = elementCnt; ricSubscriptionFailure->protocolIEs.list.size = elementCnt * sizeof(RICsubscriptionFailure_IEs_t *); DU_ALLOC(ricSubscriptionFailure->protocolIEs.list.array, ricSubscriptionFailure->protocolIEs.list.size); if(!ricSubscriptionFailure->protocolIEs.list.array) { DU_LOG("\nERROR --> E2AP : Memory allocation at [%s] : Line [%d]", __func__, __LINE__); break; } for(elemIdx = 0; elemIdx < elementCnt; elemIdx++) { DU_ALLOC(ricSubscriptionFailure->protocolIEs.list.array[elemIdx], sizeof(RICsubscriptionFailure_IEs_t)); if(!ricSubscriptionFailure->protocolIEs.list.array[elemIdx]) { DU_LOG("\nERROR --> E2AP : Memory allocation at [%s] : Line [%d] for IE at index [%d]", \ __func__, __LINE__, elemIdx); break; } } if(elemIdx < elementCnt) break; elemIdx = 0; /* RIC Request ID */ ricSubsFailIe = ricSubscriptionFailure->protocolIEs.list.array[elemIdx++]; ricSubsFailIe->id = ProtocolIE_IDE2_id_RICrequestID; ricSubsFailIe->criticality = CriticalityE2_reject; ricSubsFailIe->value.present = RICsubscriptionFailure_IEs__value_PR_RICrequestID; ricSubsFailIe->value.choice.RICrequestID.ricRequestorID = ricReqId.requestorId; ricSubsFailIe->value.choice.RICrequestID.ricInstanceID = ricReqId.instanceId; /* RAN Function ID */ ricSubsFailIe = ricSubscriptionFailure->protocolIEs.list.array[elemIdx++]; ricSubsFailIe->id = ProtocolIE_IDE2_id_RANfunctionID; ricSubsFailIe->criticality = CriticalityE2_reject; ricSubsFailIe->value.present = RICsubscriptionFailure_IEs__value_PR_RANfunctionID; ricSubsFailIe->value.choice.RANfunctionID = ranFuncId; /* Cause */ ricSubsFailIe = ricSubscriptionFailure->protocolIEs.list.array[elemIdx++]; ricSubsFailIe->id = ProtocolIE_IDE2_id_CauseE2; ricSubsFailIe->criticality = CriticalityE2_reject; ricSubsFailIe->value.present = RICsubscriptionFailure_IEs__value_PR_CauseE2; fillE2Cause(&ricSubsFailIe->value.choice.CauseE2, failureCause); /* Prints the Msg formed */ xer_fprint(stdout, &asn_DEF_E2AP_PDU, e2apMsg); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2AP_PDU, 0, e2apMsg, PrepFinalEncBuf, encBuf); if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> E2AP : Could not encode RIC Subscription Failure Message (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> E2AP : Created APER encoded buffer for RIC Subscription Failure Message \n"); #ifdef DEBUG_ASN_PRINT for(int i=0; i< encBufSize; i++) { printf("%x",encBuf[i]); } #endif } if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL, encBuf, encBufSize) != ROK) { DU_LOG("\nINFO --> E2AP : Sending RIC Subscription Failure"); } ret = ROK; break; } FreeRicSubscriptionFailure(e2apMsg); return ret; } /******************************************************************* * * @brief Free the RicIndication Message * * @details * * Function : FreeRicIndication * * Functionality: Free the RicIndication Message * * @return void * * ******************************************************************/ void FreeRicIndication(E2AP_PDU_t *e2apMsg) { uint8_t idx = 0; RICindication_t *ricIndicationMsg= NULLP; if(e2apMsg != NULLP) { if(e2apMsg->choice.initiatingMessage != NULLP) { ricIndicationMsg = &e2apMsg->choice.initiatingMessage->value.choice.RICindication; if(ricIndicationMsg!= NULLP) { if(ricIndicationMsg->protocolIEs.list.array != NULLP) { for(idx=0; idxprotocolIEs.list.count; idx++) { if(ricIndicationMsg->protocolIEs.list.array[idx] != NULLP) { switch(ricIndicationMsg->protocolIEs.list.array[idx]->id) { case ProtocolIE_IDE2_id_RICrequestID: case ProtocolIE_IDE2_id_RANfunctionID: case ProtocolIE_IDE2_id_RICactionID: case ProtocolIE_IDE2_id_RICindicationType: break; case ProtocolIE_IDE2_id_RICindicationHeader: { DU_FREE(ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationHeader.buf,\ ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationHeader.size); break; } case ProtocolIE_IDE2_id_RICindicationMessage: { DU_FREE(ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationMessage.buf,\ ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationMessage.size); break; } default: break; } DU_FREE(ricIndicationMsg->protocolIEs.list.array[idx],sizeof(RICindication_IEs_t)); } } DU_FREE(ricIndicationMsg->protocolIEs.list.array,ricIndicationMsg->protocolIEs.list.size); } } DU_FREE(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); } DU_FREE(e2apMsg, sizeof(E2AP_PDU_t)); } } /******************************************************************* * * @brief Free measurement record * * @details * * Function : freeMeasRecord * * Functionality: Free all measurement recorded for a measurement * within an action in a RIC subscription * * @param Measurement data to be freed * @return void * ******************************************************************/ void freeMeasData(MeasurementData_t *measData) { uint8_t measIdx = 0, measRecIdx = 0; MeasurementRecord_t *measRecord = NULLP; if(measData->list.array) { for(measIdx = 0; measIdx < measData->list.count; measIdx++) { if(measData->list.array[measIdx]) { measRecord = &measData->list.array[measIdx]->measRecord; if(measRecord->list.array) { for(measRecIdx = 0; measRecIdx < measRecord->list.count; measRecIdx++) { DU_FREE(measRecord->list.array[measRecIdx], sizeof(MeasurementRecordItem_t)); } DU_FREE(measRecord->list.array, measRecord->list.size); } DU_FREE(measData->list.array[measIdx], sizeof(MeasurementDataItem_t)); } } DU_FREE(measData->list.array, measData->list.size); } } /******************************************************************* * * @brief Fill measurement info list * * @details * * Function : freeMeasInfoList * * Functionality: Fills all measurement info within an action * in a RIC subscription * * @param Measurement Info list to be freed * @return void * ******************************************************************/ void freeMeasInfoList(MeasurementInfoList_t *measInfoList) { uint8_t measInfoIdx = 0; if(measInfoList->list.array) { for(measInfoIdx = 0; measInfoIdx < measInfoList->list.count; measInfoIdx++) { if(measInfoList->list.array[measInfoIdx]) { DU_FREE(measInfoList->list.array[measInfoIdx]->measType.choice.measName.buf, \ measInfoList->list.array[measInfoIdx]->measType.choice.measName.size); DU_FREE(measInfoList->list.array[measInfoIdx], measInfoList->list.size); } } DU_FREE(measInfoList->list.array, measInfoList->list.size); } } /******************************************************************* * * @brief Free E2SM-KPM Indication Message * * @details * * Function : FreeE2smKpmIndicationMessage * * Functionality: Free E2SM-KPM Indication Message * * @param E2SM-KPM Indication message to be freed * @return void * ******************************************************************/ void FreeE2smKpmIndicationMessage(E2SM_KPM_IndicationMessage_t *e2smKpmIndMsg) { E2SM_KPM_IndicationMessage_Format1_t *format1Msg = NULLP; switch(e2smKpmIndMsg->indicationMessage_formats.present) { case E2SM_KPM_IndicationMessage__indicationMessage_formats_PR_indicationMessage_Format1: { if(e2smKpmIndMsg->indicationMessage_formats.choice.indicationMessage_Format1) { format1Msg = e2smKpmIndMsg->indicationMessage_formats.choice.indicationMessage_Format1; /* Measurement Data */ freeMeasData(&format1Msg->measData); /* Measurement Info List */ if(format1Msg->measInfoList) { freeMeasInfoList(format1Msg->measInfoList); DU_FREE(format1Msg->measInfoList, sizeof(MeasurementInfoList_t)); } /* Granularity Period */ DU_FREE(format1Msg->granulPeriod, sizeof(GranularityPeriod_t)); DU_FREE(format1Msg, sizeof(E2SM_KPM_IndicationMessage_Format1_t)); } break; } case E2SM_KPM_IndicationMessage__indicationMessage_formats_PR_NOTHING: case E2SM_KPM_IndicationMessage__indicationMessage_formats_PR_indicationMessage_Format2: default: break; } } /******************************************************************* * * @brief Fill measurement record * * @details * * Function : fillMeasRecord * * Functionality: Fills all measurement value for a measurement * within an action in a RIC subscription * * @param Measurement record to be filled * Measurement database with measurement records * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t fillMeasRecord(MeasurementRecord_t *measRecord, MeasurementInfo *measInfoDb) { uint8_t measRecIdx = 0; CmLList *measValNode = NULLP; double measVal = 0; measRecord->list.count = measInfoDb->measuredValue.count; measRecord->list.size = measRecord->list.count * sizeof(MeasurementRecordItem_t *); DU_ALLOC(measRecord->list.array, measRecord->list.size); if(!measRecord->list.array) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); return RFAILED; } for(measRecIdx = 0; measRecIdx < measRecord->list.count; measRecIdx++) { DU_ALLOC(measRecord->list.array[measRecIdx], sizeof(MeasurementRecordItem_t)); if(!measRecord->list.array[measRecIdx]) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); return RFAILED; } } measRecIdx = 0; CM_LLIST_FIRST_NODE(&measInfoDb->measuredValue, measValNode); while(measValNode) { measVal = *(double *)measValNode->node; if(measVal == (int)measVal) { measRecord->list.array[measRecIdx]->present = MeasurementRecordItem_PR_integer; measRecord->list.array[measRecIdx]->choice.integer = (int)measVal; } else { measRecord->list.array[measRecIdx]->present = MeasurementRecordItem_PR_real; measRecord->list.array[measRecIdx]->choice.real = measVal; } measRecIdx++; measValNode= measValNode->next; /* Once the measurement record is added to the message, delete it from DB */ measVal = 0; } deleteMeasuredValueList(&measInfoDb->measuredValue); return ROK; } /******************************************************************* * * @brief Fills measuerement data * * @details * * Function : fillMeasData * * Functionality: Fill all measurement recorded for all measurements * in an action in a RIC subscription * * @param Measurement data to be filled * Measurement info list from an action DB * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t fillMeasData(MeasurementData_t *measData, CmLListCp *measInfoListDb) { uint8_t measIdx = 0; CmLList *measInfoNode = NULLP; MeasurementInfo *measInfoDb = NULLP; MeasurementRecord_t *measRecord = NULLP; measData->list.count = measInfoListDb->count; measData->list.size = measData->list.count * sizeof(MeasurementDataItem_t *); DU_ALLOC(measData->list.array, measData->list.size); if(!measData->list.array) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); return RFAILED; } measIdx = 0; CM_LLIST_FIRST_NODE(measInfoListDb, measInfoNode); while(measInfoNode) { measInfoDb = (MeasurementInfo *)measInfoNode->node; if(measInfoDb) { DU_ALLOC(measData->list.array[measIdx], sizeof(MeasurementDataItem_t)); if(!measData->list.array[measIdx]) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); return RFAILED; } measRecord = &measData->list.array[measIdx]->measRecord; if(fillMeasRecord(measRecord, measInfoDb) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to fill measurement record"); return RFAILED; } measIdx++; } measInfoNode = measInfoNode->next; } return ROK; } /******************************************************************* * * @brief Fill all measurement info * * @details * * Function : fillMeasInfoList * * Functionality: Fills all measurement info belonging to an action * in a RIC subscription * * @param Measurement Info list to be filled * Measurement Info list from E2AP DB * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t fillMeasInfoList(MeasurementInfoList_t *measInfoList, CmLListCp *measInfoListDb) { uint8_t measInfoIdx = 0; CmLList *measInfoNode = NULLP; MeasurementInfo *measInfoDb = NULLP; MeasurementInfoItem_t *measInfoItem = NULLP; measInfoList->list.count = measInfoListDb->count; measInfoList->list.size = measInfoList->list.count * sizeof(MeasurementInfoItem_t *); DU_ALLOC(measInfoList->list.array, measInfoList->list.size); if(!measInfoList->list.array) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); return RFAILED; } measInfoIdx = 0; CM_LLIST_FIRST_NODE(measInfoListDb, measInfoNode); while(measInfoNode) { DU_ALLOC(measInfoList->list.array[measInfoIdx], sizeof(MeasurementInfoItem_t)); if(!measInfoList->list.array[measInfoIdx]) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); return RFAILED; } measInfoItem = measInfoList->list.array[measInfoIdx]; measInfoDb = (MeasurementInfo *)measInfoNode->node; if(measInfoDb) { /* Measurement Type */ measInfoItem->measType.present = MeasurementType_PR_measName; measInfoItem->measType.choice.measName.size = strlen(measInfoDb->measurementTypeName); DU_ALLOC(measInfoItem->measType.choice.measName.buf, measInfoItem->measType.choice.measName.size); if(!measInfoItem->measType.choice.measName.buf) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); return RFAILED; } memcpy(measInfoItem->measType.choice.measName.buf, measInfoDb->measurementTypeName,\ measInfoItem->measType.choice.measName.size); measInfoIdx++; } measInfoNode = measInfoNode->next; measInfoDb = NULLP; } return ROK; } /******************************************************************* * * @brief Fill E2SM-KPM Indication Message Format 1 * * @details * * Function : fillE2smKpmIndMsgFormat1 * * Functionality: Fill E2SM-KPM Indication Message Format 1 * * @param Format 1 Message to be filled * Action Definition format 1 from E2AP DB * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t fillE2smKpmIndMsgFormat1(E2SM_KPM_IndicationMessage_Format1_t *format1Msg, ActionDefFormat1 *format1) { /* Measurement Data */ if(fillMeasData(&format1Msg->measData, &format1->measurementInfoList) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to fill measurement data"); return RFAILED; } /* Measurement Information */ DU_ALLOC(format1Msg->measInfoList, sizeof(MeasurementInfoList_t)); if(!format1Msg->measInfoList) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); return RFAILED; } if(fillMeasInfoList(format1Msg->measInfoList, &format1->measurementInfoList) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to fill measurement information list"); return RFAILED; } /* Granularity Period */ DU_ALLOC(format1Msg->granulPeriod, sizeof(GranularityPeriod_t)); if(!format1Msg->granulPeriod) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); return RFAILED; } *(format1Msg->granulPeriod) = format1->granularityPeriod; return ROK; } /******************************************************************* * * @brief Fill RIC Indication Message buffer * * @details * * Function : fillRicIndMsgBuf * * Functionality: Fill E2SM-KPM Indication Message * Encode this message and copy to RIC Indication Message buffer * * @param RIC Indication Message buffer to be filled * Source action info from E2AP DB * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t fillRicIndMsgBuf(RICindicationMessage_t *ricIndMsgBuf, ActionInfo *actionInfo) { uint8_t ret = RFAILED; bool failedInFormat = false; E2SM_KPM_IndicationMessage_t e2smKpmIndMsg; asn_enc_rval_t encRetVal; /* Encoder return value */ memset(&e2smKpmIndMsg, 0, sizeof(E2SM_KPM_IndicationMessage_t)); while(true) { /* E2SM-KPM Indication message format type */ e2smKpmIndMsg.indicationMessage_formats.present = actionInfo->definition.formatType; switch(e2smKpmIndMsg.indicationMessage_formats.present) { case E2SM_KPM_IndicationMessage__indicationMessage_formats_PR_indicationMessage_Format1: { /* E2SM-KPM Indication message format 1 */ DU_ALLOC(e2smKpmIndMsg.indicationMessage_formats.choice.indicationMessage_Format1, \ sizeof(E2SM_KPM_IndicationMessage_Format1_t)); if(!e2smKpmIndMsg.indicationMessage_formats.choice.indicationMessage_Format1) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); failedInFormat = true; break; } if(fillE2smKpmIndMsgFormat1(e2smKpmIndMsg.indicationMessage_formats.choice.indicationMessage_Format1, \ &actionInfo->definition.choice.format1) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to fill E2SM-KPM Indication message format 1"); failedInFormat = true; break; } break; } case E2SM_KPM_IndicationMessage__indicationMessage_formats_PR_NOTHING: case E2SM_KPM_IndicationMessage__indicationMessage_formats_PR_indicationMessage_Format2: default: { DU_LOG("\nERROR --> E2AP : fillRicIndMsgBuf: Only Format 1 supported"); failedInFormat = true; break; } } if(failedInFormat) break; /* Encode E2SM-KPM Indication Message */ xer_fprint(stdout, &asn_DEF_E2SM_KPM_IndicationMessage, &e2smKpmIndMsg); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2SM_KPM_IndicationMessage, 0, &e2smKpmIndMsg, PrepFinalEncBuf, encBuf); if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> E2AP : Could not encode E2SM-KPM Indication Message (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> E2AP : Created APER encoded buffer for E2SM-KPM Indication Message \n"); #ifdef DEBUG_ASN_PRINT for(int i=0; i< encBufSize; i++) { printf("%x",encBuf[i]); } #endif } /* Copy encoded string to RIC Indication Message buffer */ ricIndMsgBuf->size = encBufSize; DU_ALLOC(ricIndMsgBuf->buf, ricIndMsgBuf->size); if(!ricIndMsgBuf->buf) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); break; } memset(ricIndMsgBuf->buf, 0, ricIndMsgBuf->size); memcpy(ricIndMsgBuf->buf, encBuf, encBufSize); ret = ROK; break; } /* Free E2SM-KPM Indication Message */ FreeE2smKpmIndicationMessage(&e2smKpmIndMsg); return ret; } /******************************************************************* * * @brief Free E2SM-KPM Indication Header * * @details * * Function : FreeE2smKpmIndicationHeader * * Functionality: Free E2SM-KPM Indication Header * * @param E2SM-KPM Indication Header to be free * @return void * ******************************************************************/ void FreeE2smKpmIndicationHeader(E2SM_KPM_IndicationHeader_t *e2smKpmIndHdr) { E2SM_KPM_IndicationHeader_Format1_t *format1 = NULLP; if(e2smKpmIndHdr) { switch(e2smKpmIndHdr->indicationHeader_formats.present) { case E2SM_KPM_IndicationHeader__indicationHeader_formats_PR_indicationHeader_Format1: { if(e2smKpmIndHdr->indicationHeader_formats.choice.indicationHeader_Format1) { format1 = e2smKpmIndHdr->indicationHeader_formats.choice.indicationHeader_Format1; DU_FREE(format1->colletStartTime.buf, format1->colletStartTime.size); DU_FREE(format1, sizeof(E2SM_KPM_IndicationHeader_Format1_t)); } break; } case E2SM_KPM_IndicationHeader__indicationHeader_formats_PR_NOTHING: default: break; } } } /******************************************************************* * * @brief Fill RIC Indication Header buffer * * @details * * Function : fillRicIndHeader * * Functionality: Fill E2SM-KPM Indication Header * Encode this message and copy to RIC Indication Header buffer * * @param RIC Indication Header buffer to be filled * Source RIC subscription info from E2AP DB * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t fillRicIndHeader(RICindicationHeader_t *ricIndHdr, RicSubscription *ricSubsInfo) { uint8_t ret = RFAILED; uint8_t secBufIdx = 0, milliSecBufIdx = 0; int8_t byteIdx = 0; bool formatFailure = false; RanFunction *ranFunc = NULLP; ReportStartTime *startTime = NULLP; E2SM_KPM_IndicationHeader_t e2smKpmIndHdr; E2SM_KPM_IndicationHeader_Format1_t *format1 = NULLP; asn_enc_rval_t encRetVal; /* Encoder return value */ while(true) { ranFunc = fetchRanFuncFromRanFuncId(ricSubsInfo->ranFuncId); if(ranFunc == NULLP) { DU_LOG("\nERROR --> E2AP : RAN Function ID [%d] not found", ricSubsInfo->ranFuncId); break; } memset(&e2smKpmIndHdr, 0, sizeof(E2SM_KPM_IndicationHeader_t)); e2smKpmIndHdr.indicationHeader_formats.present = ranFunc->ricIndicationHeaderFormat; switch(e2smKpmIndHdr.indicationHeader_formats.present) { case E2SM_KPM_IndicationHeader__indicationHeader_formats_PR_indicationHeader_Format1: { DU_ALLOC(e2smKpmIndHdr.indicationHeader_formats.choice.indicationHeader_Format1, \ sizeof(E2SM_KPM_IndicationHeader_Format1_t)); if(!e2smKpmIndHdr.indicationHeader_formats.choice.indicationHeader_Format1) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); formatFailure = true; break; } format1 = e2smKpmIndHdr.indicationHeader_formats.choice.indicationHeader_Format1; /* Fetch reporting period start time from DB */ switch(ricSubsInfo->eventTriggerDefinition.formatType) { case 1: { startTime = &ricSubsInfo->eventTriggerDefinition.choice.format1.startTime; } } format1->colletStartTime.size = 8 * sizeof(uint8_t); DU_ALLOC(format1->colletStartTime.buf, format1->colletStartTime.size); if(!format1->colletStartTime.buf) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); formatFailure = true; break; } /* As per O-RAN.WG3.E2SM-KPM-R003-v03.00, section 8.3.12 and * RFC 5905, section 6 : * Time stamp has a 64-bit format where first 32-bit is seconds * and next 32-bit is fraction in picosecond-level. * This fraction has been rounded in microseconds. * * Hence, * Storing 32-bit seconds at MSB 0-3 and * 32-bit milliseconds at next 4 bytes i.e. bytes 4-7 */ secBufIdx = 0; milliSecBufIdx = 4; for(byteIdx = 3; byteIdx >= 0; byteIdx--) { format1->colletStartTime.buf[secBufIdx++] = startTime->timeInSec >> (8*byteIdx); format1->colletStartTime.buf[milliSecBufIdx++] = startTime->timeInMilliSec >> (8*byteIdx); } break; } case E2SM_KPM_IndicationHeader__indicationHeader_formats_PR_NOTHING: default: { DU_LOG("\nERROR --> E2AP : Only E2SM-KPM Indication Header Format 1 supported"); formatFailure = true; break; } } if(formatFailure) break; /* Encode E2SM-KPM Indication Header */ xer_fprint(stdout, &asn_DEF_E2SM_KPM_IndicationHeader, &e2smKpmIndHdr); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2SM_KPM_IndicationHeader, 0, &e2smKpmIndHdr, PrepFinalEncBuf, encBuf); if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> E2AP : Could not encode E2SM-KPM Indication Header (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> E2AP : Created APER encoded buffer for E2SM-KPM Indication Header \n"); #ifdef DEBUG_ASN_PRINT for(int i=0; i< encBufSize; i++) { printf("%x",encBuf[i]); } #endif } /* Copy encoded string to RIC Indication Header buffer */ ricIndHdr->size = encBufSize; DU_ALLOC(ricIndHdr->buf, ricIndHdr->size); if(!ricIndHdr->buf) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); break; } memset(ricIndHdr->buf, 0, ricIndHdr->size); memcpy(ricIndHdr->buf, encBuf, encBufSize); ret = ROK; break; } /* Free E2SM-KPM Indication Header */ FreeE2smKpmIndicationHeader(&e2smKpmIndHdr); return ret; } /******************************************************************* * * brief Fill the RIC Indication Message * * @details * * Function : fillRicIndication * * Functionality: Fills the RIC Indication Message * * @param RIC Indication Message to be filled * RIC Subscription DB * Action DB * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t fillRicIndication(RICindication_t *ricIndicationMsg, RicSubscription *ricSubscriptionInfo, ActionInfo *actionInfo) { uint8_t elementCnt = 0, idx = 0; uint8_t ret = ROK; elementCnt = 6; ricIndicationMsg->protocolIEs.list.count = elementCnt; ricIndicationMsg->protocolIEs.list.size = elementCnt * sizeof(RICindication_IEs_t *); /* Initialize the Ric Indication members */ DU_ALLOC(ricIndicationMsg->protocolIEs.list.array, ricIndicationMsg->protocolIEs.list.size); if(ricIndicationMsg->protocolIEs.list.array == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); return RFAILED; } for(idx=0; idxprotocolIEs.list.array[idx], sizeof(RICindication_IEs_t)); if(ricIndicationMsg->protocolIEs.list.array[idx] == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation in [%s] at line [%d]", __func__, __LINE__); return RFAILED; } } /* RIC Request ID */ idx = 0; ricIndicationMsg->protocolIEs.list.array[idx]->id = ProtocolIE_IDE2_id_RICrequestID; ricIndicationMsg->protocolIEs.list.array[idx]->criticality = CriticalityE2_reject; ricIndicationMsg->protocolIEs.list.array[idx]->value.present = RICindication_IEs__value_PR_RICrequestID; ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICrequestID.ricRequestorID = \ ricSubscriptionInfo->requestId.requestorId; ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICrequestID.ricInstanceID = \ ricSubscriptionInfo->requestId.instanceId; /* RAN Function ID */ idx++; ricIndicationMsg->protocolIEs.list.array[idx]->id = ProtocolIE_IDE2_id_RANfunctionID; ricIndicationMsg->protocolIEs.list.array[idx]->criticality = CriticalityE2_reject; ricIndicationMsg->protocolIEs.list.array[idx]->value.present = RICindication_IEs__value_PR_RANfunctionID; ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RANfunctionID = ricSubscriptionInfo->ranFuncId; /* RIC Action ID */ idx++; ricIndicationMsg->protocolIEs.list.array[idx]->id = ProtocolIE_IDE2_id_RICactionID; ricIndicationMsg->protocolIEs.list.array[idx]->criticality = CriticalityE2_reject; ricIndicationMsg->protocolIEs.list.array[idx]->value.present = RICindication_IEs__value_PR_RICactionID; ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICactionID = actionInfo->actionId; /* RIC Indication Type */ idx++; ricIndicationMsg->protocolIEs.list.array[idx]->id = ProtocolIE_IDE2_id_RICindicationType; ricIndicationMsg->protocolIEs.list.array[idx]->criticality = CriticalityE2_reject; ricIndicationMsg->protocolIEs.list.array[idx]->value.present = RICindication_IEs__value_PR_RICindicationType; ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationType = actionInfo->type; /* RIC Indication Header */ idx++; ricIndicationMsg->protocolIEs.list.array[idx]->id = ProtocolIE_IDE2_id_RICindicationHeader; ricIndicationMsg->protocolIEs.list.array[idx]->criticality = CriticalityE2_reject; ricIndicationMsg->protocolIEs.list.array[idx]->value.present = RICindication_IEs__value_PR_RICindicationHeader; if(fillRicIndHeader(&ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationHeader, \ ricSubscriptionInfo) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to fill RIC Indication header"); return RFAILED; } /* RIC Indication Message */ idx++; ricIndicationMsg->protocolIEs.list.array[idx]->id = ProtocolIE_IDE2_id_RICindicationMessage; ricIndicationMsg->protocolIEs.list.array[idx]->criticality = CriticalityE2_reject; ricIndicationMsg->protocolIEs.list.array[idx]->value.present = RICindication_IEs__value_PR_RICindicationMessage; if(fillRicIndMsgBuf(&ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationMessage, \ actionInfo) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to fill RIC Indication Message"); return RFAILED; } return ret; } /******************************************************************* * * @brief Builds and Send the RicIndication Message * * @details * * Function : BuildAndSendRicIndication * * Functionality:Fills the RicIndication Message * * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildAndSendRicIndication(RicSubscription *ricSubscriptionInfo, ActionInfo *actionInfo) { uint8_t ret = RFAILED; E2AP_PDU_t *e2apMsg = NULLP; RICindication_t *ricIndicationMsg = NULLP; asn_enc_rval_t encRetVal; /* Encoder return value */ while(true) { DU_LOG("\nINFO --> E2AP : Building RIC Indication Message\n"); DU_ALLOC(e2apMsg, sizeof(E2AP_PDU_t)); if(e2apMsg == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for E2AP-PDU failed"); break; } e2apMsg->present = E2AP_PDU_PR_initiatingMessage; DU_ALLOC(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); if(e2apMsg->choice.initiatingMessage == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for E2AP-PDU failed"); break; } e2apMsg->choice.initiatingMessage->procedureCode = ProcedureCodeE2_id_RICindication; e2apMsg->choice.initiatingMessage->criticality = CriticalityE2_reject; e2apMsg->choice.initiatingMessage->value.present = InitiatingMessageE2__value_PR_RICindication; ricIndicationMsg = &e2apMsg->choice.initiatingMessage->value.choice.RICindication; if(fillRicIndication(ricIndicationMsg, ricSubscriptionInfo, actionInfo) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to fill RIC Indication message"); break; } /* Prints the Msg formed */ xer_fprint(stdout, &asn_DEF_E2AP_PDU, e2apMsg); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2AP_PDU, 0, e2apMsg, PrepFinalEncBuf,\ encBuf); if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> E2AP : Could not encode RIC Indication Message (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> E2AP : Created APER encoded buffer for RIC Indication Message \n"); #ifdef DEBUG_ASN_PRINT for(int i=0; i< encBufSize; i++) { printf("%x",encBuf[i]); } #endif } if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL, encBuf, encBufSize) != ROK) { DU_LOG("\nINFO --> E2AP : Sending RIC Indication Message"); } ret = ROK; break; } FreeRicIndication(e2apMsg); return ret; } /******************************************************************* * * @brief free e2 node component configuration req and rsp * * @details * * Function : freeE2NodeComponentConfiguration * * Functionality: * - free e2 node component configuration req and rsp * * @params[in] E2nodeComponentConfiguration_t *e2nodeComponentConfiguration * @return ROK - success * RFAILED - failure * * ****************************************************************/ void freeE2NodeComponentConfiguration(E2nodeComponentConfiguration_t *e2nodeComponentConfiguration) { /* Free E2 Node Component Request Part */ DU_FREE(e2nodeComponentConfiguration->e2nodeComponentRequestPart.buf, e2nodeComponentConfiguration->e2nodeComponentRequestPart.size); /* Free E2 Node Component Response Part */ DU_FREE(e2nodeComponentConfiguration->e2nodeComponentResponsePart.buf, e2nodeComponentConfiguration->e2nodeComponentResponsePart.size); } /******************************************************************* * * @brief free e2 node component component identifier * * @details * * Function : freeE2NodeComponentIdentifier * * Functionality: * - free e2 node component component identifier * * @params[in] E2nodeComponentID_t *componentID * @return ROK - success * RFAILED - failure * * ****************************************************************/ void freeE2NodeComponentIdentifier(E2nodeComponentID_t *componentID) { if(componentID->choice.e2nodeComponentInterfaceTypeF1) { DU_FREE(componentID->choice.e2nodeComponentInterfaceTypeF1->gNB_DU_ID.buf, componentID->choice.e2nodeComponentInterfaceTypeF1->gNB_DU_ID.size); DU_FREE(componentID->choice.e2nodeComponentInterfaceTypeF1, sizeof(E2nodeComponentInterfaceF1_t)); } } /******************************************************************* * * @brief Deallocate the memory allocated for E2nodeConfigurationUpdate msg * * @details * * Function : FreeE2NodeConfigUpdate * * Functionality: * - freeing the memory allocated for E2nodeConfigurationUpdate * * @params[in] E2AP_PDU_t *e2apMsg * @return ROK - success * RFAILED - failure * * ****************************************************************/ void FreeE2NodeConfigUpdate(E2AP_PDU_t *e2apMsg) { uint8_t arrIdx =0, e2NodeUpdateListIdx=0, e2NodeRemovalListIdx=0, e2NodeAddListIdx=0; E2nodeConfigurationUpdate_t *e2NodeConfigUpdate =NULL; E2nodeComponentConfigUpdate_List_t *e2NodeUpdateList =NULL; E2nodeComponentConfigUpdate_ItemIEs_t *e2NodeUpdateItem =NULL; E2nodeComponentConfigRemoval_List_t *e2NodeRemovalList =NULL; E2nodeComponentConfigRemoval_ItemIEs_t *e2NodeRemovalItem =NULL; E2nodeComponentConfigAddition_List_t *e2NodeAddList =NULL; E2nodeComponentConfigAddition_ItemIEs_t *e2NodeAddItem =NULL; if(e2apMsg != NULLP) { if(e2apMsg->choice.initiatingMessage != NULLP) { e2NodeConfigUpdate = &e2apMsg->choice.initiatingMessage->value.choice.E2nodeConfigurationUpdate; if(e2NodeConfigUpdate->protocolIEs.list.array != NULLP) { for(arrIdx = 0; arrIdx < e2NodeConfigUpdate->protocolIEs.list.count; arrIdx++) { if(e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]) { switch(e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->id) { case ProtocolIE_IDE2_id_TransactionID: break; case ProtocolIE_IDE2_id_E2nodeComponentConfigAddition: { e2NodeAddList = &e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->value.choice.E2nodeComponentConfigAddition_List; if(e2NodeAddList->list.array) { for(e2NodeAddListIdx = 0; e2NodeAddListIdx< e2NodeAddList->list.count; e2NodeAddListIdx++) { e2NodeAddItem = (E2nodeComponentConfigAddition_ItemIEs_t *) e2NodeAddList->list.array[e2NodeAddListIdx]; freeE2NodeComponentConfiguration(&e2NodeAddItem->value.choice.E2nodeComponentConfigAddition_Item.e2nodeComponentConfiguration); freeE2NodeComponentIdentifier(&e2NodeAddItem->value.choice.E2nodeComponentConfigAddition_Item.e2nodeComponentID); DU_FREE(e2NodeAddItem, sizeof(E2nodeComponentConfigAddition_ItemIEs_t)); } DU_FREE(e2NodeAddList->list.array, e2NodeAddList->list.size); } break; } case ProtocolIE_IDE2_id_E2nodeComponentConfigUpdate: { e2NodeUpdateList = &e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->value.choice.E2nodeComponentConfigUpdate_List; if(e2NodeUpdateList->list.array) { for(e2NodeUpdateListIdx = 0; e2NodeUpdateListIdx< e2NodeUpdateList->list.count; e2NodeUpdateListIdx++) { e2NodeUpdateItem = (E2nodeComponentConfigUpdate_ItemIEs_t *) e2NodeUpdateList->list.array[e2NodeUpdateListIdx]; freeE2NodeComponentConfiguration(&e2NodeUpdateItem->value.choice.E2nodeComponentConfigUpdate_Item.e2nodeComponentConfiguration); freeE2NodeComponentIdentifier(&e2NodeUpdateItem->value.choice.E2nodeComponentConfigUpdate_Item.e2nodeComponentID); DU_FREE(e2NodeUpdateItem, sizeof(E2nodeComponentConfigUpdate_ItemIEs_t)); } DU_FREE(e2NodeUpdateList->list.array, e2NodeUpdateList->list.size); } break; } case ProtocolIE_IDE2_id_E2nodeComponentConfigRemoval: { e2NodeRemovalList = &e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->value.choice.E2nodeComponentConfigRemoval_List; if(e2NodeRemovalList->list.array) { for(e2NodeRemovalListIdx = 0; e2NodeRemovalListIdx< e2NodeRemovalList->list.count; e2NodeRemovalListIdx++) { e2NodeRemovalItem = (E2nodeComponentConfigRemoval_ItemIEs_t *) e2NodeRemovalList->list.array[e2NodeRemovalListIdx]; freeE2NodeComponentIdentifier(&e2NodeRemovalItem->value.choice.E2nodeComponentConfigRemoval_Item.e2nodeComponentID); DU_FREE(e2NodeRemovalItem, sizeof(E2nodeComponentConfigRemoval_ItemIEs_t)); } DU_FREE(e2NodeRemovalList->list.array, e2NodeRemovalList->list.size); } break; } default: break; } DU_FREE(e2NodeConfigUpdate->protocolIEs.list.array[arrIdx], sizeof(E2nodeConfigurationUpdate_IEs_t)); } } DU_FREE(e2NodeConfigUpdate->protocolIEs.list.array, e2NodeConfigUpdate->protocolIEs.list.size); } DU_FREE(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); } DU_FREE(e2apMsg, sizeof(E2AP_PDU_t)); } } /******************************************************************* * * @brief Buld and send the E2 node config update msg * * @details * * Function : BuildAndSendE2NodeConfigUpdate * * Functionality: * - Buld and send the E2 node config update msg * * @params[in] * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t BuildAndSendE2NodeConfigUpdate(E2NodeConfigList *e2NodeList) { uint8_t ret = RFAILED; uint8_t arrIdx = 0,elementCnt = 0, transId=0; E2AP_PDU_t *e2apMsg = NULLP; asn_enc_rval_t encRetVal; /* Encoder return value */ E2nodeConfigurationUpdate_t *e2NodeConfigUpdate = NULLP; DU_LOG("\nINFO --> E2AP : Building E2 Node config update\n"); do { DU_ALLOC(e2apMsg, sizeof(E2AP_PDU_t)); if(e2apMsg == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for E2AP-PDU failed"); break; } e2apMsg->present = E2AP_PDU_PR_initiatingMessage; DU_ALLOC(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); if(e2apMsg->choice.initiatingMessage == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for E2AP-PDU failed"); break; } e2apMsg->choice.initiatingMessage->criticality = CriticalityE2_reject; e2apMsg->choice.initiatingMessage->procedureCode = ProcedureCodeE2_id_E2nodeConfigurationUpdate; e2apMsg->choice.initiatingMessage->value.present = \ InitiatingMessageE2__value_PR_E2nodeConfigurationUpdate; e2NodeConfigUpdate = &e2apMsg->choice.initiatingMessage->value.choice.E2nodeConfigurationUpdate; elementCnt =1; if(e2NodeList->addE2NodeCount) elementCnt++; if(e2NodeList->updateE2NodeCount) elementCnt++; if(e2NodeList->removeE2NodeCount) elementCnt++; e2NodeConfigUpdate->protocolIEs.list.count = elementCnt; e2NodeConfigUpdate->protocolIEs.list.size = elementCnt * sizeof(E2nodeConfigurationUpdate_IEs_t*); DU_ALLOC(e2NodeConfigUpdate->protocolIEs.list.array, e2NodeConfigUpdate->protocolIEs.list.size); if(e2NodeConfigUpdate->protocolIEs.list.array == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for e2NodeConfigUpdate failed"); break; } for(arrIdx =0; arrIdxprotocolIEs.list.array[arrIdx], sizeof(E2nodeConfigurationUpdate_IEs_t)); if(e2NodeConfigUpdate->protocolIEs.list.array[arrIdx] == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for e2NodeConfigUpdate failed"); break; } } if(arrIdxprotocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_TransactionID; e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->value.present = E2nodeConfigurationUpdate_IEs__value_PR_TransactionID; transId = assignTransactionId(); e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->value.choice.TransactionID = transId; if(e2NodeList->addE2NodeCount) { arrIdx++; e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_E2nodeComponentConfigAddition; e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->value.present = E2nodeConfigurationUpdate_IEs__value_PR_E2nodeComponentConfigAddition_List; if(BuildE2NodeConfigAddList(&(e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->value.choice.E2nodeComponentConfigAddition_List),\ ProcedureCodeE2_id_E2nodeConfigurationUpdate, e2NodeList->addE2NodeCount, e2NodeList->addE2Node)!=ROK) { DU_LOG("\nERROR --> E2AP : Failed to create E2 Node config list"); break; } } if(e2NodeList->updateE2NodeCount) { arrIdx++; e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_E2nodeComponentConfigUpdate; e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->value.present = E2nodeConfigurationUpdate_IEs__value_PR_E2nodeComponentConfigUpdate_List; if(BuildE2NodeConfigUpdateList(&e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->value.choice.E2nodeComponentConfigUpdate_List,\ e2NodeList->updateE2NodeCount, e2NodeList->updateE2Node) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to update the E2 node configuration"); break; } } if(e2NodeList->removeE2NodeCount) { arrIdx++; e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_E2nodeComponentConfigRemoval; e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->value.present = E2nodeConfigurationUpdate_IEs__value_PR_E2nodeComponentConfigRemoval_List; if(BuildE2NodeConfigRemoveList(&e2NodeConfigUpdate->protocolIEs.list.array[arrIdx]->value.choice.E2nodeComponentConfigRemoval_List,\ e2NodeList->removeE2NodeCount, e2NodeList->removeE2Node) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to remove the E2 node configuration"); break; } } /* Prints the Msg formed */ xer_fprint(stdout, &asn_DEF_E2AP_PDU, e2apMsg); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2AP_PDU, 0, e2apMsg, PrepFinalEncBuf, encBuf); if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> E2AP : Could not encode E2nodeConfigurationUpdate structure (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> E2AP : Created APER encoded buffer for E2nodeConfigurationUpdate\n"); #ifdef DEBUG_ASN_PRINT for(int i=0; i< encBufSize; i++) { printf("%x",encBuf[i]); } #endif } if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL, encBuf, encBufSize)) { DU_LOG("\nERROR --> E2AP : Sending E2 node config update failed"); break; } duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].transactionId = transId; duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].procedureCode = e2apMsg->choice.initiatingMessage->procedureCode; memcpy(&duCb.e2apDb.e2TimersInfo.e2Timers.e2NodeConfigUpdate.configList, e2NodeList, sizeof(E2NodeConfigList)); ret = ROK; break; }while(true); FreeE2NodeConfigUpdate(e2apMsg); return ret; } /******************************************************************* * * @brief Deallocate the memory allocated for E2ResetRequest msg * * @details * * Function : FreeE2ResetRequest * * Functionality: * - freeing the memory allocated for E2ResetRequest * * @params[in] E2AP_PDU_t *e2apMsg * @return ROK - success * RFAILED - failure * * ****************************************************************/ void FreeE2ResetRequest(E2AP_PDU_t *e2apMsg) { uint8_t ieIdx =0; ResetRequestE2_t *resetReq = NULLP; if(e2apMsg != NULLP) { if(e2apMsg->choice.initiatingMessage != NULLP) { resetReq = &e2apMsg->choice.initiatingMessage->value.choice.ResetRequestE2; if(resetReq->protocolIEs.list.array) { for(ieIdx = 0; ieIdx < resetReq->protocolIEs.list.count; ieIdx++) { DU_FREE(resetReq->protocolIEs.list.array[ieIdx], sizeof(ResetRequestIEs_t)); } DU_FREE(resetReq->protocolIEs.list.array, resetReq->protocolIEs.list.size); } DU_FREE(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); } DU_FREE(e2apMsg, sizeof(E2AP_PDU_t)); } } /******************************************************************* * * @brief Build and send the E2 reset request msg * * @details * * Function : BuildAndSendE2ResetRequest * * Functionality: * - Buld and send the E2 reset request msg to RIC * * @params[in] * Reset cause * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t BuildAndSendE2ResetRequest(E2FailureCause resetCause) { uint8_t ieIdx = 0, elementCnt = 0, transId = 0; uint8_t ret = RFAILED; E2AP_PDU_t *e2apMsg = NULLP; ResetRequestE2_t *resetReq = NULLP; asn_enc_rval_t encRetVal; /* Encoder return value */ DU_LOG("\nINFO --> E2AP : Building E2 Reset Request\n"); do { DU_ALLOC(e2apMsg, sizeof(E2AP_PDU_t)); if(e2apMsg == NULLP) { DU_LOG("\nERROR --> E2AP : BuildAndSendE2ResetRequest(): Memory allocation for E2AP-PDU failed"); break; } e2apMsg->present = E2AP_PDU_PR_initiatingMessage; DU_ALLOC(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); if(e2apMsg->choice.initiatingMessage == NULLP) { DU_LOG("\nERROR --> E2AP : BuildAndSendE2ResetRequest(): Memory allocation for initiatingMessage"); break; } e2apMsg->choice.initiatingMessage->procedureCode = ProcedureCodeE2_id_Reset; e2apMsg->choice.initiatingMessage->criticality = CriticalityE2_reject; e2apMsg->choice.initiatingMessage->value.present = InitiatingMessageE2__value_PR_ResetRequestE2; resetReq = &e2apMsg->choice.initiatingMessage->value.choice.ResetRequestE2; elementCnt = 2; resetReq->protocolIEs.list.count = elementCnt; resetReq->protocolIEs.list.size = elementCnt * sizeof(ResetRequestIEs_t *); DU_ALLOC(resetReq->protocolIEs.list.array, resetReq->protocolIEs.list.size); if(!resetReq->protocolIEs.list.array) { DU_LOG("\nERROR --> E2AP : BuildAndSendE2ResetRequest(): Memory allocation failed for \ Reset Request IE array"); break; } for(ieIdx = 0; ieIdx < elementCnt; ieIdx++) { DU_ALLOC(resetReq->protocolIEs.list.array[ieIdx], sizeof(ResetRequestIEs_t)); if(!resetReq->protocolIEs.list.array[ieIdx]) { DU_LOG("\nERROR --> E2AP : BuildAndSendE2ResetRequest(): Memory allocation failed for \ Reset Request IE array element"); break; } } /* In case of failure */ if(ieIdx < elementCnt) break; ieIdx = 0; resetReq->protocolIEs.list.array[ieIdx]->id = ProtocolIE_IDE2_id_TransactionID; resetReq->protocolIEs.list.array[ieIdx]->criticality = CriticalityE2_reject; resetReq->protocolIEs.list.array[ieIdx]->value.present = ResetRequestIEs__value_PR_TransactionID; transId = assignTransactionId(); resetReq->protocolIEs.list.array[ieIdx]->value.choice.TransactionID = transId; ieIdx++; resetReq->protocolIEs.list.array[ieIdx]->id = ProtocolIE_IDE2_id_CauseE2; resetReq->protocolIEs.list.array[ieIdx]->criticality = CriticalityE2_ignore; resetReq->protocolIEs.list.array[ieIdx]->value.present = ResetRequestIEs__value_PR_CauseE2; fillE2Cause(&resetReq->protocolIEs.list.array[ieIdx]->value.choice.CauseE2, resetCause); /* Prints the Msg formed */ xer_fprint(stdout, &asn_DEF_E2AP_PDU, e2apMsg); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2AP_PDU, 0, e2apMsg, PrepFinalEncBuf,\ encBuf); if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> E2AP : Could not encode reset request structure (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> E2AP : Created APER encoded buffer for reset request\n"); #ifdef DEBUG_ASN_PRINT for(int i=0; i< encBufSize; i++) { printf("%x",encBuf[i]); } #endif } if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL, encBuf, encBufSize) != ROK) { DU_LOG("\nERROR --> E2AP : Sending E2 Setup request failed"); break; } /* In case the message is sent successfully, store the transaction info to * be used when response is received */ duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].transactionId = transId; duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].procedureCode = e2apMsg->choice.initiatingMessage->procedureCode; ret = ROK; break; }while(true); /* Free all memory */ FreeE2ResetRequest(e2apMsg); return ret; } /******************************************************************* * * @brief Deallocate the memory allocated for Reset Response msg * * @details * * Function : freeAperDecodingOfE2ResetRsp * * Functionality: * - freeing the memory allocated for Reset response * * @params[in] ResetResponseE2_t *resetResponse * @return void * * ****************************************************************/ void freeAperDecodingOfE2ResetRsp(ResetResponseE2_t *resetResponse) { uint8_t ieIdx; if(resetResponse) { if(resetResponse->protocolIEs.list.array) { for(ieIdx=0; ieIdx < resetResponse->protocolIEs.list.count; ieIdx++) { if(resetResponse->protocolIEs.list.array[ieIdx]) { switch(resetResponse->protocolIEs.list.array[ieIdx]->id) { case ProtocolIE_IDE2_id_TransactionID: break; case ProtocolIE_IDE2_id_CriticalityDiagnosticsE2: break; } free(resetResponse->protocolIEs.list.array[ieIdx]); } } free(resetResponse->protocolIEs.list.array); } } } /****************************************************************** * * @brief Processes E2 Reset Response sent by RIC * * @details * * Function : procResetResponse * * Functionality: Processes E2 Reset Response sent by RIC * * @params[in] E2AP_PDU_t ASN decoded E2AP message * @return void * * ****************************************************************/ void procResetResponse(E2AP_PDU_t *e2apMsg) { bool invalidTransId=false; uint8_t ieIdx =0, transId =0; uint16_t ranFuncIdx=0; ResetResponseE2_t *resetResponse =NULLP; DU_LOG("\nINFO --> E2AP : E2 Reset Response received"); resetResponse = &e2apMsg->choice.successfulOutcome->value.choice.ResetResponseE2;; for(ieIdx=0; ieIdx < resetResponse->protocolIEs.list.count; ieIdx++) { switch(resetResponse->protocolIEs.list.array[ieIdx]->id) { case ProtocolIE_IDE2_id_TransactionID: { transId = resetResponse->protocolIEs.list.array[ieIdx]->value.choice.TransactionID; if((duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].transactionId == transId) && \ (duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].procedureCode == e2apMsg->choice.successfulOutcome->procedureCode)) { memset(&duCb.e2apDb.e2TransInfo.e2InitTransaction[transId], 0, sizeof(E2TransInfo)); } else { DU_LOG("\nERROR --> E2AP : Invalid transaction id [%d]", transId); invalidTransId = true; } break; } case ProtocolIE_IDE2_id_CriticalityDiagnosticsE2: { for(ranFuncIdx=0; ranFuncIdx0) { deleteRicSubscriptionList(&(duCb.e2apDb.ranFunction[ranFuncIdx].subscriptionList)); memset(&(duCb.e2apDb.ranFunction[ranFuncIdx].pendingSubsRspInfo), 0, MAX_PENDING_SUBSCRIPTION_RSP*sizeof(PendingSubsRspInfo)); } } break; } default: { DU_LOG("\nERROR --> E2AP : Invalid IE received in E2 Reset Response : %ld", resetResponse->protocolIEs.list.array[ieIdx]->id); break; } } if(invalidTransId == true) { break; } } freeAperDecodingOfE2ResetRsp(resetResponse); } /****************************************************************** * * @brief Deallocation of memory allocated by aper decoder for e2 setup Failure * * @details * * Function : freeAperDecodingOfE2SetupFailure * * Functionality: Deallocation of memory allocated by aper decoder for e2 * setup Failure * * @params[in] E2setupFailure_t *e2SetupFailure; * @return void * * ****************************************************************/ void freeAperDecodingOfE2SetupFailure(E2setupFailure_t *e2SetupFailure) { uint8_t arrIdx; if(e2SetupFailure) { if(e2SetupFailure->protocolIEs.list.array) { for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { if(e2SetupFailure->protocolIEs.list.array[arrIdx]) { free(e2SetupFailure->protocolIEs.list.array[arrIdx]); } } free(e2SetupFailure->protocolIEs.list.array); } } } /****************************************************************** * * @brief Processes E2 Setup Failure sent by RIC * * @details * * Function : procE2SetupFailure * * Functionality: Processes E2 Setup failure sent by RIC * * @params[in] E2AP_PDU_t ASN decoded E2AP message * @return ROK - success * RFAILED - failure * * ****************************************************************/ void procE2SetupFailure(E2AP_PDU_t *e2apMsg) { uint8_t arrIdx =0, transId =0, timerValue=0; E2setupFailure_t *e2SetupFailure; DU_LOG("\nINFO --> E2AP : E2 Setup failure received"); e2SetupFailure = &e2apMsg->choice.unsuccessfulOutcome->value.choice.E2setupFailure; for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { switch(e2SetupFailure->protocolIEs.list.array[arrIdx]->id) { case ProtocolIE_IDE2_id_TransactionID: { transId = e2SetupFailure->protocolIEs.list.array[arrIdx]->value.choice.TransactionID; if((duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].transactionId == transId) &&\ (duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].procedureCode == e2apMsg->choice.unsuccessfulOutcome->procedureCode)) { memset(&duCb.e2apDb.e2TransInfo.e2InitTransaction[transId], 0, sizeof(E2TransInfo)); } else { DU_LOG("\nERROR --> E2AP : Invalid transaction id [%d]", transId); return ; } break; } case ProtocolIE_IDE2_id_TimeToWaitE2: { timerValue = convertE2WaitTimerEnumToValue(e2SetupFailure->protocolIEs.list.array[arrIdx]->value.choice.TimeToWaitE2); if((duChkTmr((PTR)&(duCb.e2apDb.e2TimersInfo.e2Timers.e2SetupTimer), EVENT_E2_SETUP_TMR)) == FALSE) { duStartTmr((PTR)&(duCb.e2apDb.e2TimersInfo.e2Timers.e2SetupTimer), EVENT_E2_SETUP_TMR, timerValue); } else { DU_LOG("\nERROR --> E2AP : EVENT_E2_SETUP_TMR timer is already running"); return; } break; } } } freeAperDecodingOfE2SetupFailure(e2SetupFailure); } /****************************************************************** * * @brief Deallocation of memory allocated by aper decoder for RIC service Query * * @details * * Function : freeAperDecodingOfRicServiceQuery * * Functionality: Deallocation of memory allocated by aper decoder for RIC * service Query * * @params[in] RICserviceQuery_t *ricServiceQuery; * @return void * * ****************************************************************/ void freeAperDecodingOfRicServiceQuery(RICserviceQuery_t *ricServiceQuery) { uint8_t arrIdx,ranFuncIdx; RANfunctionsID_List_t *ranFuncAddedList; if(ricServiceQuery) { if(ricServiceQuery->protocolIEs.list.array) { for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { if(ricServiceQuery->protocolIEs.list.array[arrIdx]) { switch(ricServiceQuery->protocolIEs.list.array[arrIdx]->id) { case ProtocolIE_IDE2_id_RANfunctionsAccepted: { ranFuncAddedList= &ricServiceQuery->protocolIEs.list.array[arrIdx]->value.choice.RANfunctionsID_List; if(ranFuncAddedList->list.array) { for(ranFuncIdx=0;ranFuncIdxlist.count; ranFuncIdx++) { free(ranFuncAddedList->list.array[ranFuncIdx]); } free(ranFuncAddedList->list.array);; } break; } default: break; } free(ricServiceQuery->protocolIEs.list.array[arrIdx]); } } free(ricServiceQuery->protocolIEs.list.array); } } } /******************************************************************* * * @brief Build RanFunction Delete List * * @details * * Function : BuildRanFunctionDeleteList * * Functionality: Build RanFunction Delete List * * @params[in] * RANfunctionsID List * Count of the RAN function * Received RAN function list * * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildRanFunctionDeleteList(RANfunctionsID_List_t *deleteList, uint8_t count, RanFuncInfo *recvdRanFunc) { uint8_t ranFuncIdx=0; RANfunctionID_ItemIEs_t *delRanFuncItem; if(count) { deleteList->list.count = count; deleteList->list.size = deleteList->list.count * sizeof(RANfunctionID_ItemIEs_t*); DU_ALLOC(deleteList->list.array, deleteList->list.size); if(deleteList->list.array == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in %s at %d",__func__, __LINE__); return RFAILED; } for(ranFuncIdx = 0; ranFuncIdx< deleteList->list.count; ranFuncIdx++) { DU_ALLOC(deleteList->list.array[ranFuncIdx], sizeof(RANfunctionID_ItemIEs_t)); if(deleteList->list.array[ranFuncIdx] == NULLP) { DU_LOG("\nERROR --> E2AP: Memory allocation failed in %s at %d",__func__, __LINE__); return RFAILED; } delRanFuncItem= (RANfunctionID_ItemIEs_t *) deleteList->list.array[ranFuncIdx]; delRanFuncItem->id = ProtocolIE_IDE2_id_RANfunctionID_Item; delRanFuncItem->criticality = CriticalityE2_ignore; delRanFuncItem->value.choice.RANfunctionID_Item.ranFunctionID = recvdRanFunc[ranFuncIdx].id; delRanFuncItem->value.choice.RANfunctionID_Item.ranFunctionRevision = recvdRanFunc[ranFuncIdx].revisionCounter; } } return ROK; } /******************************************************************* * * @brief De Allocate Ric Service Update message * * @details * * Function : FreeRicServiceUpdate * * Functionality: De-Allocating Ric Service Update message * * @params[in] E2AP_PDU_t *e2apMsg * @return void * * ****************************************************************/ void FreeRicServiceUpdate(E2AP_PDU_t *e2apMsg) { uint8_t arrIdx = 0; uint8_t ranFuncAddListIdx=0, ranFuncDelIdx=0; RICserviceUpdate_t *ricServiceUpdate; RANfunctions_List_t *ranFunctionsList; RANfunction_ItemIEs_t *ranFuncItemIe; RANfunction_Item_t *ranFunItem; RANfunctionsID_List_t *deleteList; /* De-allocating Memory */ if(e2apMsg != NULLP) { if(e2apMsg->choice.initiatingMessage != NULLP) { ricServiceUpdate = &e2apMsg->choice.initiatingMessage->value.choice.RICserviceUpdate; if(ricServiceUpdate->protocolIEs.list.array != NULLP) { for(arrIdx = 0; arrIdx < ricServiceUpdate->protocolIEs.list.count; arrIdx++) { if(ricServiceUpdate->protocolIEs.list.array[arrIdx] != NULLP) { switch(ricServiceUpdate->protocolIEs.list.array[arrIdx]->id) { case ProtocolIE_IDE2_id_TransactionID: break; case ProtocolIE_IDE2_id_RANfunctionsAdded: case ProtocolIE_IDE2_id_RANfunctionsModified: { ranFunctionsList = &(ricServiceUpdate->protocolIEs.list.array[arrIdx]->value.choice.RANfunctions_List); if(ranFunctionsList->list.array) { for(ranFuncAddListIdx= 0; ranFuncAddListIdx< ranFunctionsList->list.count; ranFuncAddListIdx++) { if(ranFunctionsList->list.array[ranFuncAddListIdx]) { ranFuncItemIe = (RANfunction_ItemIEs_t *) ranFunctionsList->list.array[ranFuncAddListIdx]; ranFunItem = &ranFuncItemIe->value.choice.RANfunction_Item; DU_FREE(ranFunItem->ranFunctionOID.buf, ranFunItem->ranFunctionOID.size); DU_FREE(ranFunItem->ranFunctionDefinition.buf, ranFunItem->ranFunctionDefinition.size); DU_FREE(ranFunctionsList->list.array[ranFuncAddListIdx], sizeof(RANfunction_ItemIEs_t)); } } DU_FREE(ranFunctionsList->list.array, ranFunctionsList->list.size); } break; } case ProtocolIE_IDE2_id_RANfunctionsDeleted: { deleteList= &ricServiceUpdate->protocolIEs.list.array[arrIdx]->value.choice.RANfunctionsID_List; if(deleteList->list.array) { for(ranFuncDelIdx = 0; ranFuncDelIdx< deleteList->list.count; ranFuncDelIdx++) { DU_FREE(deleteList->list.array[ranFuncDelIdx], sizeof(RANfunctionID_ItemIEs_t)); } DU_FREE(deleteList->list.array, deleteList->list.size); } break; } default: DU_LOG("\nERROR --> E2AP: Invalid event at ricServiceUpdate %ld ",\ (ricServiceUpdate->protocolIEs.list.array[arrIdx]->id)); break; } DU_FREE(ricServiceUpdate->protocolIEs.list.array[arrIdx], sizeof(RICserviceUpdate_IEs_t)); } } DU_FREE(ricServiceUpdate->protocolIEs.list.array, ricServiceUpdate->protocolIEs.list.size); } DU_FREE(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); } DU_FREE(e2apMsg, sizeof(E2AP_PDU_t)); } } /******************************************************************* * * @brief Builds and Send the RicServiceUpdateuest * * @details * * Function : BuildAndSendRicServiceUpdate * * Functionality:Fills the RicServiceUpdateuest * * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildAndSendRicServiceUpdate(RicServiceUpdate serviceUpdate) { uint8_t arrIdx = 0, elementCnt=0; uint8_t transId = 0, ret = RFAILED; bool memAllocFailed =false; E2AP_PDU_t *e2apMsg = NULLP; RICserviceUpdate_t *ricServiceUpdate = NULLP; asn_enc_rval_t encRetVal; /* Encoder return value */ DU_LOG("\nINFO --> E2AP : Building Ric Service Update\n"); do { DU_ALLOC(e2apMsg, sizeof(E2AP_PDU_t)); if(e2apMsg == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for E2AP-PDU failed"); break; } e2apMsg->present = E2AP_PDU_PR_initiatingMessage; DU_ALLOC(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); if(e2apMsg->choice.initiatingMessage == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation for E2AP-PDU failed"); break; } e2apMsg->choice.initiatingMessage->criticality = CriticalityE2_reject; e2apMsg->choice.initiatingMessage->procedureCode = ProcedureCodeE2_id_RICserviceUpdate; e2apMsg->choice.initiatingMessage->value.present = InitiatingMessageE2__value_PR_RICserviceUpdate; ricServiceUpdate = &e2apMsg->choice.initiatingMessage->value.choice.RICserviceUpdate; /* For TransId IE, set elementCnt to 1. If there is any item in the RAN function add list, RAN function modification list, or RAN function delete list, increment the elementCnt.*/ elementCnt =1; if(serviceUpdate.recvRanFuncList.numOfRanFunToBeAdded) elementCnt++; if(serviceUpdate.recvRanFuncList.numOfRanFunToBeModified) elementCnt++; if(serviceUpdate.recvRanFuncList.numOfRanFunToBeDeleted) elementCnt++; ricServiceUpdate->protocolIEs.list.count = elementCnt; ricServiceUpdate->protocolIEs.list.size = elementCnt * sizeof(RICserviceUpdate_IEs_t*); /* Initialize the E2Setup members */ DU_ALLOC(ricServiceUpdate->protocolIEs.list.array, ricServiceUpdate->protocolIEs.list.size); if(ricServiceUpdate->protocolIEs.list.array == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation failed for array elements"); break; } for(arrIdx = 0; arrIdx < elementCnt; (arrIdx)++) { DU_ALLOC(ricServiceUpdate->protocolIEs.list.array[arrIdx], sizeof(RICserviceUpdate_IEs_t)); if(ricServiceUpdate->protocolIEs.list.array[arrIdx] == NULLP) { memAllocFailed = true; DU_LOG("\nERROR --> E2AP : Memory allocation failed for arrayIdx [%d]", arrIdx); break; } } if(memAllocFailed == true) break; arrIdx = 0; /* TransactionID */ ricServiceUpdate->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_TransactionID; ricServiceUpdate->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; ricServiceUpdate->protocolIEs.list.array[arrIdx]->value.present = E2setupRequestIEs__value_PR_TransactionID; if(serviceUpdate.dir == E2_NODE_INITIATED) transId = assignTransactionId(); else transId = serviceUpdate.transId; ricServiceUpdate->protocolIEs.list.array[arrIdx]->value.choice.TransactionID = transId; if(serviceUpdate.recvRanFuncList.numOfRanFunToBeAdded) { arrIdx++; ricServiceUpdate->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_RANfunctionsAdded; ricServiceUpdate->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; ricServiceUpdate->protocolIEs.list.array[arrIdx]->value.present = RICserviceUpdate_IEs__value_PR_RANfunctions_List; if(BuildRanFunctionAddList(&ricServiceUpdate->protocolIEs.list.array[arrIdx]->value.choice.RANfunctions_List,\ e2apMsg->choice.initiatingMessage->procedureCode, serviceUpdate.recvRanFuncList.numOfRanFunToBeAdded, serviceUpdate.recvRanFuncList.ranFunToBeAdded) !=ROK) { break; } } if(serviceUpdate.recvRanFuncList.numOfRanFunToBeModified) { arrIdx++; ricServiceUpdate->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_RANfunctionsModified; ricServiceUpdate->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; ricServiceUpdate->protocolIEs.list.array[arrIdx]->value.present = RICserviceUpdate_IEs__value_PR_RANfunctions_List; if(BuildRanFunctionAddList(&ricServiceUpdate->protocolIEs.list.array[arrIdx]->value.choice.RANfunctions_List, e2apMsg->choice.initiatingMessage->procedureCode, serviceUpdate.recvRanFuncList.numOfRanFunToBeModified, serviceUpdate.recvRanFuncList.ranFunToBeModified) !=ROK) { break; } } if(serviceUpdate.recvRanFuncList.numOfRanFunToBeDeleted) { arrIdx++; ricServiceUpdate->protocolIEs.list.array[arrIdx]->id = ProtocolIE_IDE2_id_RANfunctionsDeleted; ricServiceUpdate->protocolIEs.list.array[arrIdx]->criticality = CriticalityE2_reject; ricServiceUpdate->protocolIEs.list.array[arrIdx]->value.present = RICserviceUpdate_IEs__value_PR_RANfunctionsID_List; if(BuildRanFunctionDeleteList(&ricServiceUpdate->protocolIEs.list.array[arrIdx]->value.choice.RANfunctionsID_List,\ serviceUpdate.recvRanFuncList.numOfRanFunToBeDeleted, serviceUpdate.recvRanFuncList.ranFunToBeDeleted) != ROK) { break; } } /* Prints the Msg formed */ xer_fprint(stdout, &asn_DEF_E2AP_PDU, e2apMsg); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2AP_PDU, 0, e2apMsg, PrepFinalEncBuf, encBuf); if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> E2AP : Could not encode RicServiceUpdateuest structure (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> E2AP : Created APER encoded buffer for RicServiceUpdateuest\n"); #ifdef DEBUG_ASN_PRINT for(int i=0; i< encBufSize; i++) { printf("%x",encBuf[i]); } #endif } if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL, encBuf, encBufSize) != ROK) { DU_LOG("\nERROR --> E2AP : Sending E2 Setup request failed"); break; } ret = ROK; break; }while(true); if(ret == ROK) { if(serviceUpdate.dir == E2_NODE_INITIATED) { duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].transactionId = transId; duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].procedureCode = e2apMsg->choice.initiatingMessage->procedureCode; } else { duCb.e2apDb.e2TransInfo.ricInitTransaction[transId].transactionId = transId; duCb.e2apDb.e2TransInfo.ricInitTransaction[transId].procedureCode = e2apMsg->choice.initiatingMessage->procedureCode; } duCb.e2apDb.e2TimersInfo.e2Timers.ricServiceUpdateTimer.ricService.dir = serviceUpdate.dir; duCb.e2apDb.e2TimersInfo.e2Timers.ricServiceUpdateTimer.ricService.transId =transId; memcpy(&duCb.e2apDb.e2TimersInfo.e2Timers.ricServiceUpdateTimer.ricService.recvRanFuncList, &serviceUpdate.recvRanFuncList, sizeof(E2TmpRanFunList)); } FreeRicServiceUpdate(e2apMsg); return ret; } /****************************************************************** * * @brief Processes RIC service Query sent by RIC * * @details * * Function : procRicServiceQuery * * Functionality: Processes RIC service Query sent by RIC * * @params[in] E2AP_PDU_t ASN decoded E2AP message * @return ROK - success * RFAILED - failure * * ****************************************************************/ void procRicServiceQuery(E2AP_PDU_t *e2apMsg) { ConfigType action; uint16_t arrIdx =0, ranFuncIdx=0,tmpIdx=0; uint16_t id,revisionCcounter; bool tmpArray[MAX_RAN_FUNCTION] = {false}; RICserviceQuery_t *ricServiceQuery=NULL; RicServiceUpdate ricUpdate; RANfunctionID_ItemIEs_t *ranFuncAddedItemIe; RANfunctionsID_List_t *ranFuncAddedList; DU_LOG("\nINFO --> E2AP : RIC Service Query received"); memset(&ricUpdate, 0, sizeof(RicServiceUpdate)); ricUpdate.dir = RIC_INITIATED; ricServiceQuery = &e2apMsg->choice.initiatingMessage->value.choice.RICserviceQuery; for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { switch(ricServiceQuery->protocolIEs.list.array[arrIdx]->id) { /* TODO completing in next patch/gerrit */ case ProtocolIE_IDE2_id_TransactionID: { ricUpdate.transId = ricServiceQuery->protocolIEs.list.array[arrIdx]->value.choice.TransactionID; break; } case ProtocolIE_IDE2_id_RANfunctionsAccepted: { ranFuncAddedList= &ricServiceQuery->protocolIEs.list.array[arrIdx]->value.choice.RANfunctionsID_List; if(ranFuncAddedList->list.array) { for(ranFuncIdx=0;ranFuncIdxlist.count; ranFuncIdx++) { if(ranFuncAddedList->list.array[ranFuncIdx]) { /* Using the RAN function Id, identify the RAN function to be modified or deleted. */ ranFuncAddedItemIe = (RANfunctionID_ItemIEs_t*)ranFuncAddedList->list.array[ranFuncIdx]; id = ranFuncAddedItemIe->value.choice.RANfunctionID_Item.ranFunctionID; revisionCcounter = ranFuncAddedItemIe->value.choice.RANfunctionID_Item.ranFunctionRevision; if((id != duCb.e2apDb.ranFunction[id-1].id)) { action = CONFIG_DEL; } else if((id == duCb.e2apDb.ranFunction[id-1].id)&&(revisionCcounter!=duCb.e2apDb.ranFunction[id-1].revisionCounter)) { action = CONFIG_MOD; } if(action == CONFIG_DEL) { ricUpdate.recvRanFuncList.ranFunToBeDeleted[ricUpdate.recvRanFuncList.numOfRanFunToBeDeleted].id = id; ricUpdate.recvRanFuncList.ranFunToBeDeleted[ricUpdate.recvRanFuncList.numOfRanFunToBeDeleted].revisionCounter = revisionCcounter; ricUpdate.recvRanFuncList.numOfRanFunToBeDeleted++; } else if(action == CONFIG_MOD) { ricUpdate.recvRanFuncList.ranFunToBeModified[ricUpdate.recvRanFuncList.numOfRanFunToBeModified].id = id; ricUpdate.recvRanFuncList.ranFunToBeModified[ricUpdate.recvRanFuncList.numOfRanFunToBeModified].revisionCounter = revisionCcounter; ricUpdate.recvRanFuncList.numOfRanFunToBeModified++; } /* If any ID is set to true, it means that the ID has been used in either modification or deletion list. * Else we will add the IDs into the added list */ tmpArray[id-1] = true; } } } break; } } } /* Traversing the whole RAN function list in ducb to check if any new Ran function ids have been added. */ for(arrIdx =0; arrIdx0)&&(!tmpArray[arrIdx])) { ricUpdate.recvRanFuncList.ranFunToBeAdded[tmpIdx].id = duCb.e2apDb.ranFunction[arrIdx].id; ricUpdate.recvRanFuncList.ranFunToBeAdded[tmpIdx].revisionCounter = duCb.e2apDb.ranFunction[arrIdx].revisionCounter; ricUpdate.recvRanFuncList.numOfRanFunToBeAdded++; } } if(BuildAndSendRicServiceUpdate(ricUpdate)!= ROK) { DU_LOG("\nERROR --> E2AP : Failed to build and send ric service update message"); } freeAperDecodingOfRicServiceQuery(ricServiceQuery); } /****************************************************************** * * @brief Deallocation of memory allocated by aper decoder for * RIC service update ack * * @details * * Function : freeAperDecodingOfRicServiceUpdateAck * * Functionality: Deallocation of memory allocated by aper decoder * for RIC service update ack * * @params[in] RICserviceUpdateAck_t *ricServiceAck; * @return void * * ****************************************************************/ void freeAperDecodingOfRicServiceUpdateAck(RICserviceUpdateAcknowledge_t *ricServiceAck) { uint8_t arrIdx=0,ranFuncIdx=0; RANfunctionsID_List_t *ranFuncAddedList=NULL; if(ricServiceAck) { if(ricServiceAck->protocolIEs.list.array) { for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { if(ricServiceAck->protocolIEs.list.array[arrIdx]) { switch(ricServiceAck->protocolIEs.list.array[arrIdx]->id) { case ProtocolIE_IDE2_id_RANfunctionsAccepted: { ranFuncAddedList= &ricServiceAck->protocolIEs.list.array[arrIdx]->value.choice.RANfunctionsID_List; if(ranFuncAddedList->list.array) { for(ranFuncIdx=0;ranFuncIdxlist.count; ranFuncIdx++) { free(ranFuncAddedList->list.array[ranFuncIdx]); } free(ranFuncAddedList->list.array); } break; } default: break; } free(ricServiceAck->protocolIEs.list.array[arrIdx]); } } free(ricServiceAck->protocolIEs.list.array); } } } /****************************************************************** * * @brief Processes RIC service update ack sent by RIC * * @details * * Function : procRicServiceUpdateAck * * Functionality: Processes RIC service update ack sent by RIC * * @params[in] E2AP_PDU_t ASN decoded E2AP message * @return ROK - success * RFAILED - failure * * ****************************************************************/ void procRicServiceUpdateAck(E2AP_PDU_t *e2apMsg) { uint8_t arrIdx =0, transId =0; uint16_t id =0, tmpIdx=0, ranFuncIdx=0; RicServiceUpdate serviceUpdate; RANfunctionsIDcause_List_t *rejectedList=NULL; RICserviceUpdateAcknowledge_t *ricServiceAck=NULL; RANfunctionIDcause_ItemIEs_t *ranFuncRejectedItemIe=NULL; DU_LOG("\nINFO --> E2AP : RIC service update ack received"); memset(&serviceUpdate, 0, sizeof(RicServiceUpdate)); ricServiceAck = &e2apMsg->choice.successfulOutcome->value.choice.RICserviceUpdateAcknowledge; for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { switch(ricServiceAck->protocolIEs.list.array[arrIdx]->id) { case ProtocolIE_IDE2_id_TransactionID: { transId = ricServiceAck->protocolIEs.list.array[arrIdx]->value.choice.TransactionID; if((duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].transactionId == transId) &&\ (duCb.e2apDb.e2TransInfo.e2InitTransaction[transId].procedureCode == e2apMsg->choice.unsuccessfulOutcome->procedureCode)) { memset(&duCb.e2apDb.e2TransInfo.e2InitTransaction[transId], 0, sizeof(E2TransInfo)); } else if((duCb.e2apDb.e2TransInfo.ricInitTransaction[transId].transactionId == transId) &&\ (duCb.e2apDb.e2TransInfo.ricInitTransaction[transId].procedureCode == e2apMsg->choice.unsuccessfulOutcome->procedureCode)) { memset(&duCb.e2apDb.e2TransInfo.ricInitTransaction[transId], 0, sizeof(E2TransInfo)); } else { DU_LOG("\nERROR --> E2AP : Invalid transaction id [%d]", transId); return ; } break; } case ProtocolIE_IDE2_id_RANfunctionsAccepted: break; case ProtocolIE_IDE2_id_RANfunctionsRejected: { rejectedList= &ricServiceAck->protocolIEs.list.array[arrIdx]->value.choice.RANfunctionsIDcause_List; if(rejectedList->list.array) { for(ranFuncIdx=0;ranFuncIdxlist.count; ranFuncIdx++) { ranFuncRejectedItemIe = (RANfunctionIDcause_ItemIEs_t*)rejectedList->list.array[ranFuncIdx]; id = ranFuncRejectedItemIe->value.choice.RANfunctionIDcause_Item.ranFunctionID; tmpIdx= serviceUpdate.recvRanFuncList.numOfRanFunToBeAdded; serviceUpdate.recvRanFuncList.ranFunToBeAdded[tmpIdx].id = duCb.e2apDb.ranFunction[id-1].id; serviceUpdate.recvRanFuncList.ranFunToBeAdded[tmpIdx].revisionCounter = duCb.e2apDb.ranFunction[id-1].revisionCounter; serviceUpdate.recvRanFuncList.numOfRanFunToBeAdded++; } } break; } } } if(serviceUpdate.recvRanFuncList.numOfRanFunToBeAdded) { serviceUpdate.dir = E2_NODE_INITIATED; BuildAndSendRicServiceUpdate(serviceUpdate); } freeAperDecodingOfRicServiceUpdateAck(ricServiceAck); } /****************************************************************** * * @brief Deallocation of memory allocated by aper decoder for * RIC service update failure * * @details * * Function : freeAperDecodingOfRicServiceUpdateFailure * * Functionality: Deallocation of memory allocated by aper decoder * for RIC service update failure * * @params[in] RICserviceUpdateFailure_t *ricServiceFailure; * @return void * * ****************************************************************/ void freeAperDecodingOfRicServiceUpdateFailure(RICserviceUpdateFailure_t *ricServiceFailure) { uint8_t arrIdx=0; if(ricServiceFailure) { if(ricServiceFailure->protocolIEs.list.array) { for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { if(ricServiceFailure->protocolIEs.list.array[arrIdx]) { free(ricServiceFailure->protocolIEs.list.array[arrIdx]); } } free(ricServiceFailure->protocolIEs.list.array); } } } /****************************************************************** * * @brief Processes RIC service update failure sent by RIC * * @details * * Function : procRicServiceUpdateFailure * * Functionality: Processes RIC service update failure sent by RIC * * @params[in] E2AP_PDU_t ASN decoded E2AP message * @return ROK - success * RFAILED - failure * * ****************************************************************/ void procRicServiceUpdateFailure(E2AP_PDU_t *e2apMsg) { uint8_t arrIdx =0, timerValue=0; RICserviceUpdateFailure_t *ricServiceFailure=NULL; DU_LOG("\nINFO --> E2AP : RIC service update failure received"); ricServiceFailure = &e2apMsg->choice.unsuccessfulOutcome->value.choice.RICserviceUpdateFailure; for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { switch(ricServiceFailure->protocolIEs.list.array[arrIdx]->id) { case ProtocolIE_IDE2_id_TransactionID: { break; } case ProtocolIE_IDE2_id_TimeToWaitE2: { timerValue = convertE2WaitTimerEnumToValue(ricServiceFailure->protocolIEs.list.array[arrIdx]->value.choice.TimeToWaitE2); if((duChkTmr((PTR)&(duCb.e2apDb.e2TimersInfo.e2Timers.ricServiceUpdateTimer), EVENT_RIC_SERVICE_UPDATE_TMR)) == FALSE) { duStartTmr((PTR)&(duCb.e2apDb.e2TimersInfo.e2Timers.ricServiceUpdateTimer), EVENT_RIC_SERVICE_UPDATE_TMR, timerValue); } else { DU_LOG("\nERROR --> E2AP : EVENT_RIC_SERVICE_UPDATE_TMR timer is already running"); return; } break; } case ProtocolIE_IDE2_id_CauseE2: { break; } } } freeAperDecodingOfRicServiceUpdateFailure(ricServiceFailure); } /****************************************************************** * * @brief DU Send E2 Node Configuration Update * * @details * * Function : duSendE2NodeConfigurationUpdate * * Functionality: DU Send E2 Node Configuration Update * * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t duSendE2NodeConfigurationUpdate() { E2NodeConfigList e2NodeList; CmLList *node =NULL; E2NodeComponent *e2NodeComponentInfo=NULL; memset(&e2NodeList, 0, sizeof(E2NodeConfigList)); CM_LLIST_FIRST_NODE(&duCb.e2apDb.e2NodeComponentList, node); while(node) { e2NodeComponentInfo = (E2NodeComponent*)node->node; if(e2NodeComponentInfo->componentRequestPart && e2NodeComponentInfo->componentResponsePart) { switch(e2NodeComponentInfo->componentActionType) { case E2_NODE_COMPONENT_ADD: { e2NodeList.addE2Node[e2NodeList.addE2NodeCount].interface = e2NodeComponentInfo->interfaceType; e2NodeList.addE2Node[e2NodeList.addE2NodeCount].actionType = e2NodeComponentInfo->componentActionType; e2NodeList.removeE2NodeCount++; break; } case E2_NODE_COMPONENT_UPDATE: { e2NodeList.updateE2Node[e2NodeList.updateE2NodeCount].interface = e2NodeComponentInfo->interfaceType; e2NodeList.updateE2Node[e2NodeList.updateE2NodeCount].actionType = e2NodeComponentInfo->componentActionType; e2NodeList.updateE2NodeCount++; break; } case E2_NODE_COMPONENT_DEL: { e2NodeList.removeE2Node[e2NodeList.removeE2NodeCount].interface = e2NodeComponentInfo->interfaceType; e2NodeList.removeE2Node[e2NodeList.removeE2NodeCount].actionType = e2NodeComponentInfo->componentActionType; e2NodeList.removeE2NodeCount++; break; } } } node = node->next; } if(BuildAndSendE2NodeConfigUpdate(&e2NodeList) !=ROK) { DU_LOG("\nERROR --> E2AP : Failed to build and send e2 node config update message to RIC_stub"); return RFAILED; } return ROK; } /******************************************************************* * * @brief Free RIC Subscription Modification Required * * @details * * Function : FreeRicSubsModRequired * * Functionality: Freqq RIC Subscription Modification required * * @param E2AP Message PDU to be freed * @return void * ******************************************************************/ void FreeRicSubsModRequired(E2AP_PDU_t *e2apMsg) { uint8_t ieIdx = 0, arrIdx = 0; RICsubscriptionModificationRequired_t *ricSubsModReqd = NULLP; RICsubscriptionModificationRequired_IEs_t *ricSubsModReqdIe = NULLP; RICactions_RequiredToBeModified_List_t *actionToBeModList = NULLP; RICactions_RequiredToBeRemoved_List_t *actionToBeRmvList = NULLP; if(e2apMsg) { if(e2apMsg->choice.initiatingMessage) { ricSubsModReqd = &e2apMsg->choice.initiatingMessage->value.choice.RICsubscriptionModificationRequired; if(ricSubsModReqd->protocolIEs.list.array) { for(ieIdx = 0; ieIdx < ricSubsModReqd->protocolIEs.list.count; ieIdx++) { if(ricSubsModReqd->protocolIEs.list.array[ieIdx]) { ricSubsModReqdIe = ricSubsModReqd->protocolIEs.list.array[ieIdx]; switch(ricSubsModReqdIe->id) { case ProtocolIE_IDE2_id_RICactionsRequiredToBeModified_List: { actionToBeModList = &ricSubsModReqdIe->value.choice.RICactions_RequiredToBeModified_List; if(actionToBeModList->list.array) { for(arrIdx = 0; arrIdx < actionToBeModList->list.count; arrIdx++) { DU_FREE(actionToBeModList->list.array[arrIdx], \ sizeof(RICaction_RequiredToBeModified_ItemIEs_t)); } DU_FREE(actionToBeModList->list.array, actionToBeModList->list.size); } break; } case ProtocolIE_IDE2_id_RICactionsRequiredToBeRemoved_List: { actionToBeRmvList = &ricSubsModReqdIe->value.choice.RICactions_RequiredToBeRemoved_List; if(actionToBeRmvList->list.array) { for(arrIdx = 0; arrIdx < actionToBeRmvList->list.count; arrIdx++) { DU_FREE(actionToBeRmvList->list.array[arrIdx], \ sizeof(RICaction_RequiredToBeRemoved_ItemIEs_t)); } DU_FREE(actionToBeRmvList->list.array, actionToBeRmvList->list.size); } break; } default: break; } DU_FREE(ricSubsModReqd->protocolIEs.list.array[ieIdx], \ sizeof(RICsubscriptionModificationRequired_IEs_t)); } } DU_FREE(ricSubsModReqd->protocolIEs.list.array, ricSubsModReqd->protocolIEs.list.size); } DU_FREE(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); } DU_FREE(e2apMsg, sizeof(E2AP_PDU_t)); } } /* A RIC Subscription includes RIC subsequent action only for RIC Insert service. * However, E2SM-KPM supports only RIC Report service. * Hence there is no subsequent action in RIC subscription that may require modification. * So commenting the action-modification IEs for the time being */ #if 0 /******************************************************************* * * @brief Fill Action required to be modified list * * @details * * Function : FillActionReqdToBeModList * * Functionality: Fill Action required to be modified list * * @param RIC Actions Required To Be Modified List to be filled * Number of actions to be modified * RIC Subscription DB * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t FillActionReqdToBeModList(RICactions_RequiredToBeModified_List_t *actionToBeModList, uint8_t numActionsMod, \ RicSubscription *ricSubscription) { uint8_t arrIdx = 0, actionIdx = 0; RICaction_RequiredToBeModified_ItemIEs_t *actionToBeMod = NULL; actionToBeModList->list.count = numActionsMod; actionToBeModList->list.size = numActionsMod * sizeof(RICaction_RequiredToBeModified_ItemIEs_t *); DU_ALLOC(actionToBeModList->list.array, actionToBeModList->list.size); if(!actionToBeModList->list.array) { DU_LOG("\nERROR --> E2AP : Memory allocation failed in %s at line %d", __func__, __LINE__); return RFAILED; } arrIdx = 0; for(actionIdx = 0; actionIdx < MAX_RIC_ACTION; actionIdx++) { if(ricSubscription->actionSequence[actionIdx].action == CONFIG_MOD) { DU_ALLOC(actionToBeModList->list.array[arrIdx], sizeof(RICaction_RequiredToBeModified_ItemIEs_t)); if(!actionToBeModList->list.array[arrIdx]) { DU_LOG("\nERROR --> E2AP : Memory allocation failed in %s at line %d", __func__, __LINE__); return RFAILED; } actionToBeMod = (RICaction_RequiredToBeModified_ItemIEs_t *)actionToBeModList->list.array[arrIdx]; actionToBeMod->id = ProtocolIE_IDE2_id_RICaction_RequiredToBeModified_Item; actionToBeMod->criticality = CriticalityE2_reject; actionToBeMod->value.present = \ RICaction_RequiredToBeModified_ItemIEs__value_PR_RICaction_RequiredToBeModified_Item; actionToBeMod->value.choice.RICaction_RequiredToBeModified_Item.ricActionID = \ ricSubscription->actionSequence[actionIdx].actionId; actionToBeMod->value.choice.RICaction_RequiredToBeModified_Item.ricTimeToWait = RICtimeToWait_w5ms; arrIdx++; } } return ROK; } #endif /******************************************************************* * * @brief Fill Action required to be removed list * * @details * * Function : FillActionReqdToBeRmvList * * Functionality: Fill Action required to be removed list * * @param RIC Actions Required To Be Removed List to be filled * Number of actions to be removed * RIC Subscription DB * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t FillActionReqdToBeRmvList(RICactions_RequiredToBeRemoved_List_t *actionToBeRmvList, uint8_t numActionsRmv, \ RicSubscription *ricSubscription) { uint8_t arrIdx = 0, actionIdx = 0; RICaction_RequiredToBeRemoved_ItemIEs_t *actionToBeRmv = NULL; actionToBeRmvList->list.count = numActionsRmv; actionToBeRmvList->list.size = numActionsRmv * sizeof(RICaction_RequiredToBeRemoved_ItemIEs_t *); DU_ALLOC(actionToBeRmvList->list.array, actionToBeRmvList->list.size); if(!actionToBeRmvList->list.array) { DU_LOG("\nERROR --> E2AP : %s: Memory allocation failed at line %d", __func__, __LINE__); return RFAILED; } arrIdx = 0; for(actionIdx = 0; actionIdx < MAX_RIC_ACTION; actionIdx++) { if(ricSubscription->actionSequence[actionIdx].action == CONFIG_DEL) { DU_ALLOC(actionToBeRmvList->list.array[arrIdx], sizeof(RICaction_RequiredToBeRemoved_ItemIEs_t)); if(!actionToBeRmvList->list.array[arrIdx]) { DU_LOG("\nERROR --> E2AP : %s: Memory allocation failed at line %d", __func__, __LINE__); return RFAILED; } actionToBeRmv = (RICaction_RequiredToBeRemoved_ItemIEs_t *)actionToBeRmvList->list.array[arrIdx]; actionToBeRmv->id = ProtocolIE_IDE2_id_RICaction_RequiredToBeRemoved_Item; actionToBeRmv->criticality = CriticalityE2_reject; actionToBeRmv->value.present = \ RICaction_RequiredToBeRemoved_ItemIEs__value_PR_RICaction_RequiredToBeRemoved_Item; actionToBeRmv->value.choice.RICaction_RequiredToBeRemoved_Item.ricActionID = \ ricSubscription->actionSequence[actionIdx].actionId; fillE2Cause(&actionToBeRmv->value.choice.RICaction_RequiredToBeRemoved_Item.cause, \ ricSubscription->actionSequence[actionIdx].failureCause); arrIdx++; } } return ROK; } /******************************************************************* * * @brief Fill RIC Subscription Modification Required IEs * * @details * * Function : FillRicSubsModRequired * * Functionality: Fill RIC Subscription Modification Required IEs * * @param RIC Subscription Modification Required IEs to be filled * RIC Subscription DB * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t FillRicSubsModRequired(RICsubscriptionModificationRequired_t *ricSubsModReqd, RicSubscription *ricSubscription) { uint8_t ieIdx = 0, elementCnt=0, actionIdx = 0; uint8_t numActionsMod = 0, numActionsRmv = 0; RICsubscriptionModificationRequired_IEs_t *ricSubsModReqdIe = NULLP; RICactions_RequiredToBeRemoved_List_t *actionToBeRmvList = NULLP; /* Unused in case of E2SM-KPM */ #if 0 RICactions_RequiredToBeModified_List_t *actionToBeModList = NULLP; #endif /* Count number of Actions to be modified or deleted */ for(actionIdx = 0; actionIdx < MAX_RIC_ACTION; actionIdx++) { if(ricSubscription->actionSequence[actionIdx].action == CONFIG_MOD) numActionsMod++; else if(ricSubscription->actionSequence[actionIdx].action == CONFIG_DEL) numActionsRmv++; } /* Count number of IEs to be added to messages */ elementCnt = 2; if(numActionsMod) elementCnt++; if(numActionsRmv) elementCnt++; ricSubsModReqd->protocolIEs.list.count = elementCnt; ricSubsModReqd->protocolIEs.list.size = elementCnt * sizeof(RICsubscriptionModificationRequired_IEs_t *); DU_ALLOC(ricSubsModReqd->protocolIEs.list.array, ricSubsModReqd->protocolIEs.list.size); if(!ricSubsModReqd->protocolIEs.list.array) { DU_LOG("\nERROR --> E2AP : %s: Memory allocation failed at line %d", __func__, __LINE__); return RFAILED; } for(ieIdx = 0; ieIdx < elementCnt; ieIdx++) { DU_ALLOC(ricSubsModReqd->protocolIEs.list.array[ieIdx], sizeof(RICsubscriptionModificationRequired_IEs_t)); if(!ricSubsModReqd->protocolIEs.list.array[ieIdx]) { DU_LOG("\nERROR --> E2AP : %s: Memory allocation failed at line %d", __func__, __LINE__); return RFAILED; } } /* RIC Request ID */ ieIdx = 0; ricSubsModReqdIe = ricSubsModReqd->protocolIEs.list.array[ieIdx]; ricSubsModReqdIe->id = ProtocolIE_IDE2_id_RICrequestID; ricSubsModReqdIe->criticality = CriticalityE2_reject; ricSubsModReqdIe->value.present = RICsubscriptionModificationRequired_IEs__value_PR_RICrequestID; ricSubsModReqdIe->value.choice.RICrequestID.ricRequestorID = ricSubscription->requestId.requestorId; ricSubsModReqdIe->value.choice.RICrequestID.ricInstanceID = ricSubscription->requestId.instanceId; /* RAN Function ID */ ieIdx++; ricSubsModReqdIe = ricSubsModReqd->protocolIEs.list.array[ieIdx]; ricSubsModReqdIe->id = ProtocolIE_IDE2_id_RANfunctionID; ricSubsModReqdIe->criticality = CriticalityE2_reject; ricSubsModReqdIe->value.present = RICsubscriptionModificationRequired_IEs__value_PR_RANfunctionID; ricSubsModReqdIe->value.choice.RANfunctionID = ricSubscription->ranFuncId; /* A RIC Subscription includes RIC subsequent action only for RIC Insert service. * However, E2SM-KPM supports only RIC Report service. * Hence there is no subsequent action in RIC subscription that may require modification. * So commenting the action-modification IEs for the time being */ #if 0 /* RIC Actions Required to be Modified */ if(numActionsMod) { ieIdx++; ricSubsModReqdIe = ricSubsModReqd->protocolIEs.list.array[ieIdx]; ricSubsModReqdIe->id = ProtocolIE_IDE2_id_RICactionsRequiredToBeModified_List; ricSubsModReqdIe->criticality = CriticalityE2_reject; ricSubsModReqdIe->value.present = \ RICsubscriptionModificationRequired_IEs__value_PR_RICactions_RequiredToBeModified_List; actionToBeModList = &ricSubsModReqdIe->value.choice.RICactions_RequiredToBeModified_List; if(FillActionReqdToBeModList(actionToBeModList, numActionsMod, ricSubscription) != ROK) { DU_LOG("\nERROR --> E2AP : %s: Failed to fill actions required to be modified list", __func__); return RFAILED; } } #endif /* RIC Actions Required to be removed */ if(numActionsRmv) { ieIdx++; ricSubsModReqdIe = ricSubsModReqd->protocolIEs.list.array[ieIdx]; ricSubsModReqdIe->id = ProtocolIE_IDE2_id_RICactionsRequiredToBeRemoved_List; ricSubsModReqdIe->criticality = CriticalityE2_reject; ricSubsModReqdIe->value.present = \ RICsubscriptionModificationRequired_IEs__value_PR_RICactions_RequiredToBeRemoved_List; actionToBeRmvList = &ricSubsModReqdIe->value.choice.RICactions_RequiredToBeRemoved_List; if(FillActionReqdToBeRmvList(actionToBeRmvList, numActionsRmv, ricSubscription) != ROK) { DU_LOG("\nERROR --> E2AP : %s: Failed to fill actions required to be removed list", __func__); return RFAILED; } } return ROK; } /******************************************************************* * * @brief Builds and Send RIC Subscription Modification Required * message * * @details * * Function : BuildAndSendRicSubsModRequired * * Functionality: Builds and Send RIC Subscription Modification * Required message * * @param RIC Subscription DB * @return ROK - success * RFAILED - failure * ******************************************************************/ uint8_t BuildAndSendRicSubsModRequired(RicSubscription *ricSubscription) { uint8_t ret = RFAILED; E2AP_PDU_t *e2apMsg = NULLP; RICsubscriptionModificationRequired_t *ricSubsModReqd = NULLP; asn_enc_rval_t encRetVal; /* Encoder return value */ DU_LOG("\nINFO --> E2AP : Building RIC Subscription Modification Required \n"); while(true) { DU_ALLOC(e2apMsg, sizeof(E2AP_PDU_t)); if(e2apMsg == NULLP) { DU_LOG("\nERROR --> E2AP : %s: Memory allocation failed at line %d", __func__, __LINE__); break; } e2apMsg->present = E2AP_PDU_PR_initiatingMessage; DU_ALLOC(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t)); if(e2apMsg->choice.initiatingMessage == NULLP) { DU_LOG("\nERROR --> E2AP : %s: Memory allocation failed at line %d", __func__, __LINE__); break; } e2apMsg->choice.initiatingMessage->criticality = CriticalityE2_reject; e2apMsg->choice.initiatingMessage->procedureCode = ProcedureCodeE2_id_RICsubscriptionModificationRequired; e2apMsg->choice.initiatingMessage->value.present = InitiatingMessageE2__value_PR_RICsubscriptionModificationRequired; ricSubsModReqd = &e2apMsg->choice.initiatingMessage->value.choice.RICsubscriptionModificationRequired; if(FillRicSubsModRequired(ricSubsModReqd, ricSubscription) != ROK) { DU_LOG("\nERROR --> E2AP : %s: Failed to fill RIC Subscription Modification Required IEs", __func__); break; } /* Encode */ xer_fprint(stdout, &asn_DEF_E2AP_PDU, e2apMsg); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2AP_PDU, 0, e2apMsg, PrepFinalEncBuf, encBuf); if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> E2AP : Could not encode RIC Subscription Modifiction Required structure (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> E2AP : Created APER encoded buffer for RIC Subscription Modification Required \n"); #ifdef DEBUG_ASN_PRINT for(int i=0; i< encBufSize; i++) { printf("%x",encBuf[i]); } #endif } if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL, encBuf, encBufSize) != ROK) { DU_LOG("\nERROR --> E2AP : Sending RIC Subscription Modification Required failed"); } ret = ROK; break; } /* Free RIC Subscription modification required */ FreeRicSubsModRequired(e2apMsg); return ret; } /******************************************************************* * * @brief Free APER decoding of RIC Subscription Modification Confirm * * @details * * Function : freeAperDecodingOfRicSubsModConfirm * * Functionality: Free APER decoding of RIC Subscription * Modification Confirm * * @param E2AP Message PDU * @return void * ******************************************************************/ void freeAperDecodingOfRicSubsModConfirm(E2AP_PDU_t *e2apMsg) { uint8_t ieIdx = 0, arrIdx=0; RICsubscriptionModificationConfirm_t *ricSubsModCfm = NULLP; RICsubscriptionModificationConfirm_IEs_t *ricSubsModCfmIe = NULLP; RICactions_ConfirmedForModification_List_t *modCfmList = NULLP; RICactions_RefusedToBeModified_List_t *modRefusedList = NULLP; RICactions_ConfirmedForRemoval_List_t *rmvCfmList = NULLP; RICactions_RefusedToBeRemoved_List_t *rmvFailList = NULLP; if(e2apMsg && e2apMsg->choice.successfulOutcome) { ricSubsModCfm = &e2apMsg->choice.successfulOutcome->value.choice.RICsubscriptionModificationConfirm; if(ricSubsModCfm->protocolIEs.list.array) { for(ieIdx = 0; ieIdx < ricSubsModCfm->protocolIEs.list.count; ieIdx++) { if(ricSubsModCfm->protocolIEs.list.array[ieIdx]) { ricSubsModCfmIe = ricSubsModCfm->protocolIEs.list.array[ieIdx]; switch(ricSubsModCfmIe->id) { case ProtocolIE_IDE2_id_RICactionsConfirmedForModification_List: { modCfmList = &ricSubsModCfmIe->value.choice.RICactions_ConfirmedForModification_List; if(modCfmList->list.array) { for(arrIdx = 0; arrIdx < modCfmList->list.count; arrIdx++) { if(modCfmList->list.array[arrIdx]) free(modCfmList->list.array[arrIdx]); } free(modCfmList->list.array); } break; } case ProtocolIE_IDE2_id_RICactionsRefusedToBeModified_List: { modRefusedList = &ricSubsModCfmIe->value.choice.RICactions_RefusedToBeModified_List; if(modRefusedList->list.array) { for(arrIdx = 0; arrIdx < modRefusedList->list.count; arrIdx++) { if(modRefusedList->list.array[arrIdx]) free(modRefusedList->list.array[arrIdx]); } free(modRefusedList->list.array); } break; } case ProtocolIE_IDE2_id_RICactionsConfirmedForRemoval_List: { rmvCfmList = &ricSubsModCfmIe->value.choice.RICactions_ConfirmedForRemoval_List; if(rmvCfmList->list.array) { for(arrIdx = 0; arrIdx < rmvCfmList->list.count; arrIdx++) { if(rmvCfmList->list.array[arrIdx]) free(rmvCfmList->list.array[arrIdx]); } free(rmvCfmList->list.array); } break; } case ProtocolIE_IDE2_id_RICactionsRefusedToBeRemoved_List: { rmvFailList = &ricSubsModCfmIe->value.choice.RICactions_RefusedToBeRemoved_List; if(rmvFailList->list.array) { for(arrIdx = 0; arrIdx < rmvFailList->list.count; arrIdx++) { if(rmvFailList->list.array[arrIdx]) free(rmvFailList->list.array[arrIdx]); } free(rmvFailList->list.array); } break; } default: break; } free(ricSubsModCfmIe); } } free(ricSubsModCfm->protocolIEs.list.array); } } } /******************************************************************* * * @brief Process RIC Subscription Modification Confirm Message * * @details * * Function : procRicSubscriptionModificationConfirm * * Functionality: Process RIC Subscription Modification Confirm * Message received from RIC. * * @param E2AP Message PDU * @return void * ******************************************************************/ void procRicSubscriptionModificationConfirm(E2AP_PDU_t *e2apMsg) { uint8_t actionId = 0, ieIdx = 0, arrIdx = 0; uint16_t ranFuncId = 0; bool procFailure = false; RicRequestId ricReqId; RanFunction *ranFuncDb = NULLP; CmLList *ricSubsNode = NULLP; RicSubscription *ricSubsDb = NULLP; ActionInfo *actionDb = NULLP; RICsubscriptionModificationConfirm_t *ricSubsModCfm = NULLP; RICsubscriptionModificationConfirm_IEs_t *ricSubsModCfmIe = NULLP; /* Not used in case of E2SM-KPM */ #if 0 RICactions_ConfirmedForModification_List_t *modCfmList = NULLP; RICaction_ConfirmedForModification_ItemIEs_t *modCfmListItem = NULLP; RICactions_RefusedToBeModified_List_t *modRefusedList = NULLP; RICaction_RefusedToBeModified_ItemIEs_t *modRefusedListItem = NULLP; #endif RICactions_ConfirmedForRemoval_List_t *rmvCfmList = NULLP; RICaction_ConfirmedForRemoval_ItemIEs_t *rmvCfmListItem = NULLP; RICactions_RefusedToBeRemoved_List_t *rmvFailList = NULLP; RICaction_RefusedToBeRemoved_ItemIEs_t *rmvFailListItem = NULLP; DU_LOG("\nINFO --> E2AP : %s: Received RIC Subscription Modification Confirm", __func__); do{ if(!e2apMsg) { DU_LOG("\nERROR --> E2AP : %s: E2AP Message is NULL", __func__); break; } if(!e2apMsg->choice.successfulOutcome) { DU_LOG("\nERROR --> E2AP : %s: Successful Outcome in E2AP message is NULL", __func__); break; } ricSubsModCfm = &e2apMsg->choice.successfulOutcome->value.choice.RICsubscriptionModificationConfirm; if(!ricSubsModCfm->protocolIEs.list.array) { DU_LOG("\nERROR --> E2AP : %s: Array conatining E2AP message IEs is null", __func__); break; } for(ieIdx = 0; ieIdx < ricSubsModCfm->protocolIEs.list.count; ieIdx++) { if(!ricSubsModCfm->protocolIEs.list.array[ieIdx]) { DU_LOG("\nERROR --> E2AP : %s: IE at index [%d] in E2AP message IEs list is null", __func__, ieIdx); break; } ricSubsModCfmIe = ricSubsModCfm->protocolIEs.list.array[ieIdx]; switch(ricSubsModCfmIe->id) { case ProtocolIE_IDE2_id_RICrequestID: { memset(&ricReqId, 0, sizeof(RicRequestId)); ricReqId.requestorId = ricSubsModCfmIe->value.choice.RICrequestID.ricRequestorID; ricReqId.instanceId = ricSubsModCfmIe->value.choice.RICrequestID.ricInstanceID; break; } case ProtocolIE_IDE2_id_RANfunctionID: { ranFuncId = ricSubsModCfmIe->value.choice.RANfunctionID; ranFuncDb = fetchRanFuncFromRanFuncId(ranFuncId); if(!ranFuncDb) { DU_LOG("\nERROR --> E2AP : %s: RAN Function ID [%d] not found", __func__, ranFuncId); procFailure = true; break; } ricSubsDb = fetchSubsInfoFromRicReqId(ricReqId, ranFuncDb, &ricSubsNode); if(!ricSubsDb) { DU_LOG("\nERROR --> E2AP : %s: RIC Subscription not found for Requestor_ID [%d] Instance_ID [%d]",\ __func__, ricReqId.requestorId, ricReqId.instanceId); procFailure = true; break; } break; } /* A RIC Subscription includes RIC subsequent action only for RIC Insert service. * However, E2SM-KPM supports only RIC Report service. * Hence there is no subsequent action in RIC subscription that may require modification. * So commenting the action-modification IEs for the time being */ #if 0 case ProtocolIE_IDE2_id_RICactionsConfirmedForModification_List: { modCfmList = &ricSubsModCfmIe->value.choice.RICactions_ConfirmedForModification_List; for(arrIdx = 0; arrIdx < modCfmList->list.count; arrIdx++) { modCfmListItem = (RICaction_ConfirmedForModification_ItemIEs_t *)modCfmList->list.array[arrIdx]; actionId = modCfmListItem->value.choice.RICaction_ConfirmedForModification_Item.ricActionID; actionDb = fetchActionInfoFromActionId(actionId, ricSubsDb); if(!actionDb) { DU_LOG("\nERROR --> E2AP : %s: Action ID [%d] not found", __func__, actionId); } else { actionDb->action = CONFIG_UNKNOWN; /* Further handling can be added here in future once the * use case of this procedure is identified */ } actionDb = NULLP; } break; } case ProtocolIE_IDE2_id_RICactionsRefusedToBeModified_List: { modRefusedList = &ricSubsModCfmIe->value.choice.RICactions_RefusedToBeModified_List; for(arrIdx = 0; arrIdx < modRefusedList->list.count; arrIdx++) { modRefusedListItem = (RICaction_RefusedToBeModified_ItemIEs_t *)modRefusedList->list.array[arrIdx]; actionId = modRefusedListItem->value.choice.RICaction_RefusedToBeModified_Item.ricActionID; actionDb = fetchActionInfoFromActionId(actionId, ricSubsDb); if(!actionDb) { DU_LOG("\nERROR --> E2AP : %s: Action ID [%d] not found", __func__, actionId); } else { /* Spec doesnt mention if in case of failure, DU should retry for modify action * Hence, chaging the action from CONFIG_MOD to CONFIG_UNKNOWN */ actionDb->action = CONFIG_UNKNOWN; } actionDb = NULLP; } break; } #endif case ProtocolIE_IDE2_id_RICactionsConfirmedForRemoval_List: { rmvCfmList = &ricSubsModCfmIe->value.choice.RICactions_ConfirmedForRemoval_List; for(arrIdx = 0; arrIdx < rmvCfmList->list.count; arrIdx++) { rmvCfmListItem = (RICaction_ConfirmedForRemoval_ItemIEs_t *)rmvCfmList->list.array[arrIdx]; actionId = rmvCfmListItem->value.choice.RICaction_ConfirmedForRemoval_Item.ricActionID; actionDb = fetchActionInfoFromActionId(actionId, ricSubsDb); if(!actionDb) { DU_LOG("\nERROR --> E2AP : %s: Action ID [%d] not found", __func__, actionId); } else { deleteActionSequence(actionDb); actionDb =NULLP; ricSubsDb->numOfActions--; /* Further handling can include : * Deletion of this action from all DU layers */ } actionDb = NULLP; } break; } case ProtocolIE_IDE2_id_RICactionsRefusedToBeRemoved_List: { rmvFailList = &ricSubsModCfmIe->value.choice.RICactions_RefusedToBeRemoved_List; for(arrIdx = 0; arrIdx < rmvFailList->list.count; arrIdx++) { rmvFailListItem = (RICaction_RefusedToBeRemoved_ItemIEs_t *)rmvFailList->list.array[arrIdx]; actionId = rmvFailListItem->value.choice.RICaction_RefusedToBeRemoved_Item.ricActionID; actionDb = fetchActionInfoFromActionId(actionId, ricSubsDb); if(!actionDb) { DU_LOG("\nERROR --> E2AP : %s: Action ID [%d] not found", __func__, actionId); } else { actionDb->action = CONFIG_UNKNOWN; } actionDb = NULLP; } break; } default: break; } /* End of switch for Protocol IE Id */ if(procFailure) break; } /* End of for loop for Protocol IE list */ break; }while(true); freeAperDecodingOfRicSubsModConfirm(e2apMsg); return; } /****************************************************************** * @brief Deallocate the memory allocated for E2 Reset Response * * @details * * Function : FreeE2ResetResponse * * Functionality: * - freeing the memory allocated for E2ResetResponse * * @params[in] E2AP_PDU_t *e2apMsg * @return ROK - success * RFAILED - failure * * ****************************************************************/ void FreeE2ResetResponse(E2AP_PDU_t *e2apMsg) { uint8_t ieIdx =0; ResetResponseE2_t *resetResponse; if(e2apMsg != NULLP) { if(e2apMsg->choice.successfulOutcome != NULLP) { resetResponse = &e2apMsg->choice.successfulOutcome->value.choice.ResetResponseE2; if(resetResponse->protocolIEs.list.array) { for(ieIdx=0; ieIdx < resetResponse->protocolIEs.list.count; ieIdx++) { if(resetResponse->protocolIEs.list.array[ieIdx]) { DU_FREE(resetResponse->protocolIEs.list.array[ieIdx], sizeof(ResetResponseIEs_t)); } } DU_FREE(resetResponse->protocolIEs.list.array, resetResponse->protocolIEs.list.size); } DU_FREE(e2apMsg->choice.successfulOutcome, sizeof(SuccessfulOutcomeE2_t)); } DU_FREE(e2apMsg, sizeof(E2AP_PDU_t)); } } /******************************************************************* * * @brief Buld and send the E2 Reset Response msg * * @details * * Function : BuildAndSendE2ResetResponse * * Functionality: * - Buld and send the E2 Reset Response Message * * @params[in] Trans Id * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t BuildAndSendResetResponse(uint8_t transId) { uint8_t ieIdx = 0, elementCnt = 0; uint8_t ret = RFAILED; E2AP_PDU_t *e2apMsg = NULLP; ResetResponseE2_t *resetResponse; asn_enc_rval_t encRetVal; /* Encoder return value */ DU_LOG("\nINFO --> E2AP : Building E2 Reset Response Message\n"); do { DU_ALLOC(e2apMsg, sizeof(E2AP_PDU_t)); if(e2apMsg == NULLP) { DU_LOG("\nERROR --> E2AP : BuildAndSendResetResponse(): Memory allocation for E2AP-PDU failed"); break; } e2apMsg->present = E2AP_PDU_PR_successfulOutcome; DU_ALLOC(e2apMsg->choice.successfulOutcome, sizeof(SuccessfulOutcomeE2_t)); if(e2apMsg->choice.successfulOutcome == NULLP) { DU_LOG("\nERROR --> E2AP : BuildAndSendResetResponse: Memory allocation failed for successfulOutcome"); break; } e2apMsg->choice.successfulOutcome->procedureCode = ProcedureCodeE2_id_Reset; e2apMsg->choice.successfulOutcome->criticality = CriticalityE2_reject; e2apMsg->choice.successfulOutcome->value.present = SuccessfulOutcomeE2__value_PR_ResetResponseE2; resetResponse = &e2apMsg->choice.successfulOutcome->value.choice.ResetResponseE2; elementCnt = 1; resetResponse->protocolIEs.list.count = elementCnt; resetResponse->protocolIEs.list.size = elementCnt * sizeof(ResetResponseIEs_t *); DU_ALLOC(resetResponse->protocolIEs.list.array, resetResponse->protocolIEs.list.size); if(!resetResponse->protocolIEs.list.array) { DU_LOG("\nERROR --> E2AP : BuildAndSendResetResponse: Memory allocation failed for protocol IE array"); break; } for(ieIdx=0; ieIdx < elementCnt; ieIdx++) { DU_ALLOC(resetResponse->protocolIEs.list.array[ieIdx], sizeof(ResetResponseIEs_t)); if(!resetResponse->protocolIEs.list.array[ieIdx]) { DU_LOG("\nERROR --> E2AP : BuildAndSendResetResponse: Memory allocation failed for protocol IE array element"); break; } } if(ieIdx < elementCnt) break; ieIdx = 0; resetResponse->protocolIEs.list.array[ieIdx]->id = ProtocolIE_IDE2_id_TransactionID; resetResponse->protocolIEs.list.array[ieIdx]->criticality = CriticalityE2_reject; resetResponse->protocolIEs.list.array[ieIdx]->value.present = ResetResponseIEs__value_PR_TransactionID; resetResponse->protocolIEs.list.array[ieIdx]->value.choice.TransactionID = transId; xer_fprint(stdout, &asn_DEF_E2AP_PDU, e2apMsg); memset(encBuf, 0, ENC_BUF_MAX_LEN); encBufSize = 0; encRetVal = aper_encode(&asn_DEF_E2AP_PDU, 0, e2apMsg, PrepFinalEncBuf, encBuf); if(encRetVal.encoded == ENCODE_FAIL) { DU_LOG("\nERROR --> E2AP : Could not encode E2 reset response structure (at %s)\n",\ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown"); break; } else { DU_LOG("\nDEBUG --> E2AP : Created APER encoded buffer for E2 Reset Response \n"); for(int i=0; i< encBufSize; i++) { DU_LOG("%x",encBuf[i]); } } /* Sending msg */ if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL, encBuf, encBufSize) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to send E2 Reset Response"); break; } ret = ROK; break; }while(true); FreeE2ResetResponse(e2apMsg); return ret; } /****************************************************************** * * @brief Deallocation of memory allocated by aper decoder for reset req * * @details * * Function : freeAperDecodingOfE2ResetReq * * Functionality: Deallocation of memory allocated by aper decoder for * reset req * * @params[in] Pointer to resetReq * @return void * * ****************************************************************/ void freeAperDecodingOfE2ResetReq(ResetRequestE2_t *resetReq) { uint8_t arrIdx=0; if(resetReq) { if(resetReq->protocolIEs.list.array) { for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { if(resetReq->protocolIEs.list.array[arrIdx]) { free(resetReq->protocolIEs.list.array[arrIdx]); } } free(resetReq->protocolIEs.list.array); } } } /******************************************************************* * * @brief Process reset req received from RIC * * @details * * Function : procE2ResetRequest * * Functionality: Process reset req received from RIC * * @param E2AP_PDU_t *e2apMsg * @return void * ******************************************************************/ void procE2ResetRequest(E2AP_PDU_t *e2apMsg) { uint16_t ranFuncIdx=0; uint8_t arrIdx =0, transId =0; ResetRequestE2_t *resetReq; DU_LOG("\nINFO --> E2AP : E2 Reset request received"); resetReq = &e2apMsg->choice.initiatingMessage->value.choice.ResetRequestE2; for(arrIdx=0; arrIdxprotocolIEs.list.count; arrIdx++) { switch(resetReq->protocolIEs.list.array[arrIdx]->id) { case ProtocolIE_IDE2_id_TransactionID: { transId = resetReq->protocolIEs.list.array[arrIdx]->value.choice.TransactionID; break; } case ProtocolIE_IDE2_id_CauseE2: { for(ranFuncIdx=0; ranFuncIdx0) { deleteRicSubscriptionList(&(duCb.e2apDb.ranFunction[ranFuncIdx].subscriptionList)); memset(&(duCb.e2apDb.ranFunction[ranFuncIdx].pendingSubsRspInfo), 0, MAX_PENDING_SUBSCRIPTION_RSP*sizeof(PendingSubsRspInfo)); } } break; } } } if(BuildAndSendResetResponse(transId) != ROK) { DU_LOG("\nERROR --> E2AP : Failed to build and send reset response"); } freeAperDecodingOfE2ResetReq(resetReq); } /******************************************************************* * * @brief Free APER decoding of RIC Subscription Modification Refuse * * @details * * Function : freeAperDecodingOfRicSubsModRefuse * * Functionality: Free APER decoding of RIC Subscription * Modification Refuse * * @param E2AP Message PDU * @return void * ******************************************************************/ void freeAperDecodingOfRicSubsModRefuse(E2AP_PDU_t *e2apMsg) { uint8_t ieIdx =0; RICsubscriptionModificationRefuse_t *ricSubsModRefuse = NULLP; if(e2apMsg && e2apMsg->choice.unsuccessfulOutcome) { ricSubsModRefuse = &e2apMsg->choice.unsuccessfulOutcome->value.choice.RICsubscriptionModificationRefuse; if(ricSubsModRefuse->protocolIEs.list.array) { for(ieIdx = 0; ieIdx < ricSubsModRefuse->protocolIEs.list.count; ieIdx++) { if(ricSubsModRefuse->protocolIEs.list.array[ieIdx]) free(ricSubsModRefuse->protocolIEs.list.array[ieIdx]); } free(ricSubsModRefuse->protocolIEs.list.array); } } } /******************************************************************* * * @brief Process RIC Subscription Modification Refuse Message * * @details * * Function : procRicSubscriptionModificationRefuse * * Functionality: Process RIC Subscription Modification Refuse * Message received from RIC. * * @param E2AP Message PDU * @return void * ******************************************************************/ void procRicSubscriptionModificationRefuse(E2AP_PDU_t *e2apMsg) { uint8_t ieIdx = 0; uint16_t ranFuncId = 0; RicRequestId ricReqId; RICsubscriptionModificationRefuse_t *ricSubsModRefuse = NULLP; RICsubscriptionModificationRefuse_IEs_t *ricSubsModRefuseIe = NULLP; CauseE2_t *cause = NULLP; DU_LOG("\nINFO --> E2AP : %s: Received RIC Subscription Modification Refuse", __func__); do{ if(!e2apMsg) { DU_LOG("\nERROR --> E2AP : %s: E2AP Message is NULL", __func__); break; } if(!e2apMsg->choice.unsuccessfulOutcome) { DU_LOG("\nERROR --> E2AP : %s: Unsuccessful Outcome in E2AP message is NULL", __func__); break; } ricSubsModRefuse = &e2apMsg->choice.unsuccessfulOutcome->value.choice.RICsubscriptionModificationRefuse; if(!ricSubsModRefuse->protocolIEs.list.array) { DU_LOG("\nERROR --> E2AP : %s: Array conatining E2AP message IEs is null", __func__); break; } for(ieIdx = 0; ieIdx < ricSubsModRefuse->protocolIEs.list.count; ieIdx++) { if(!ricSubsModRefuse->protocolIEs.list.array[ieIdx]) { DU_LOG("\nERROR --> E2AP : %s: IE at index [%d] in E2AP message IEs list is null", __func__, ieIdx); break; } ricSubsModRefuseIe = ricSubsModRefuse->protocolIEs.list.array[ieIdx]; switch(ricSubsModRefuseIe->id) { case ProtocolIE_IDE2_id_RICrequestID: { memset(&ricReqId, 0, sizeof(RicRequestId)); ricReqId.requestorId = ricSubsModRefuseIe->value.choice.RICrequestID.ricRequestorID; ricReqId.instanceId = ricSubsModRefuseIe->value.choice.RICrequestID.ricInstanceID; break; } case ProtocolIE_IDE2_id_RANfunctionID: { ranFuncId = ricSubsModRefuseIe->value.choice.RANfunctionID; break; } case ProtocolIE_IDE2_id_CauseE2: { DU_LOG("\nDEBUG --> E2AP : %s: RIC subscriptiom modification refused for RIC_Requestor_ID [%d] \ RIC_Instance_ID [%d] RAN_Function_ID [%d] ", __func__, ricReqId.requestorId, \ ricReqId.instanceId, ranFuncId); cause = &ricSubsModRefuseIe->value.choice.CauseE2; printE2ErrorCause(cause); } default: break; } /* End of switch for Protocol IE Id */ } /* End of for loop for Protocol IE list */ break; }while(true); freeAperDecodingOfRicSubsModRefuse(e2apMsg); return; } /******************************************************************* * * @brief Handles received E2AP message and sends back response * * @details * * Function : E2APMsgHdlr * * Functionality: * - Decodes received E2AP control message * - Prepares response message, encodes and sends to SCTP * * @params[in] * @return ROK - success * RFAILED - failure * * ****************************************************************/ void E2APMsgHdlr(Buffer *mBuf) { int i =0; char *recvBuf = NULLP; MsgLen copyCnt =0; MsgLen recvBufLen =0; E2AP_PDU_t *e2apMsg = NULLP; asn_dec_rval_t rval ={0}; /* Decoder return value */ E2AP_PDU_t e2apasnmsg={0} ; DU_LOG("\nDEBUG --> E2AP : Received E2AP message buffer"); ODU_PRINT_MSG(mBuf, 0,0); /* Copy mBuf into char array to decode it */ ODU_GET_MSG_LEN(mBuf, &recvBufLen); DU_ALLOC(recvBuf, (Size)recvBufLen); if(recvBuf == NULLP) { DU_LOG("\nERROR --> E2AP : Memory allocation failed"); return; } if(ODU_COPY_MSG_TO_FIX_BUF(mBuf, 0, recvBufLen, (Data *)recvBuf, ©Cnt) != ROK) { DU_LOG("\nERROR --> E2AP : Failed while copying %d", copyCnt); return; } #ifdef DEBUG_ASN_PRINT printf("\nDEBUG --> E2AP : Received flat buffer to be decoded : "); for(i=0; i< recvBufLen; i++) { printf("%x",recvBuf[i]); } #endif /* Decoding flat buffer into E2AP messsage */ e2apMsg = &e2apasnmsg; memset(e2apMsg, 0, sizeof(E2AP_PDU_t)); rval = aper_decode(0, &asn_DEF_E2AP_PDU, (void **)&e2apMsg, recvBuf, recvBufLen, 0, 0); DU_FREE(recvBuf, (Size)recvBufLen); if(rval.code == RC_FAIL || rval.code == RC_WMORE) { DU_LOG("\nERROR --> E2AP : ASN decode failed"); return; } printf("\n"); xer_fprint(stdout, &asn_DEF_E2AP_PDU, e2apMsg); switch(e2apMsg->present) { case E2AP_PDU_PR_unsuccessfulOutcome: { switch(e2apMsg->choice.unsuccessfulOutcome->value.present) { case UnsuccessfulOutcomeE2__value_PR_E2setupFailure: { procE2SetupFailure(e2apMsg); break; } case UnsuccessfulOutcomeE2__value_PR_E2nodeConfigurationUpdateFailure: { procE2NodeConfigUpdateFailure(e2apMsg); break; } case UnsuccessfulOutcomeE2__value_PR_RICserviceUpdateFailure: { procRicServiceUpdateFailure(e2apMsg); break; } case UnsuccessfulOutcomeE2__value_PR_RICsubscriptionModificationRefuse: { procRicSubscriptionModificationRefuse(e2apMsg); break; } default: { DU_LOG("\nERROR --> E2AP : Invalid type of E2AP_PDU_PR_unsuccessfulOutcome [%d]",\ e2apMsg->choice.unsuccessfulOutcome->value.present); return; } } free(e2apMsg->choice.unsuccessfulOutcome); break; } case E2AP_PDU_PR_successfulOutcome: { switch(e2apMsg->choice.successfulOutcome->value.present) { case SuccessfulOutcomeE2__value_PR_E2setupResponse: { if(!duCb.e2Status) { procE2SetupRsp(e2apMsg); } break; } case SuccessfulOutcomeE2__value_PR_E2nodeConfigurationUpdateAcknowledge: { DU_LOG("\nDEBUG --> E2AP : E2 node Config update ack message recevied"); break; } case SuccessfulOutcomeE2__value_PR_ResetResponseE2: { procResetResponse(e2apMsg); break; } case SuccessfulOutcomeE2__value_PR_RICserviceUpdateAcknowledge: { procRicServiceUpdateAck(e2apMsg); break; } case SuccessfulOutcomeE2__value_PR_RICsubscriptionModificationConfirm: { procRicSubscriptionModificationConfirm(e2apMsg); break; } default: { DU_LOG("\nERROR --> E2AP : Invalid type of E2AP_PDU_PR_successfulOutcome [%d]",\ e2apMsg->choice.successfulOutcome->value.present); return; } }/* End of switch(successfulOutcome) */ free(e2apMsg->choice.successfulOutcome); break; } case E2AP_PDU_PR_initiatingMessage: { switch(e2apMsg->choice.initiatingMessage->value.present) { case InitiatingMessageE2__value_PR_RICsubscriptionRequest: { procRicSubscriptionRequest(e2apMsg); break; } case InitiatingMessageE2__value_PR_RICserviceQuery: { procRicServiceQuery(e2apMsg); break; } case InitiatingMessageE2__value_PR_ErrorIndicationE2: { DU_LOG("\nINFO --> E2AP : Error indication received"); break; } case InitiatingMessageE2__value_PR_ResetRequestE2: { DU_LOG("\nINFO --> E2AP : Error indication received"); procE2ResetRequest(e2apMsg); break; } default: { DU_LOG("\nERROR --> E2AP : Invalid type of E2AP_PDU_PR_initiatingMessage [%d]",\ e2apMsg->choice.initiatingMessage->value.present); return; } }/* End of switch(initiatingMessage) */ free(e2apMsg->choice.initiatingMessage); break; } default: { DU_LOG("\nERROR --> E2AP : Invalid type of e2apMsg->present [%d]",e2apMsg->present); return; } free(e2apMsg); }/* End of switch(e2apMsg->present) */ } /* End of E2APMsgHdlr */ /********************************************************************** End of file **********************************************************************/