// // Copyright 2019 AT&T Intellectual Property // Copyright 2019 Nokia // // 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. // package converters // #cgo CFLAGS: -I../asn1codec/inc/ -I../asn1codec/e2ap_engine/ // #cgo LDFLAGS: -L ../asn1codec/lib/ -L../asn1codec/e2ap_engine/ -le2ap_codec -lasncodec // #include // #include import "C" import ( "e2mgr/logger" "fmt" "gerrit.o-ran-sc.org/r/ric-plt/nodeb-rnib.git/entities" // "github.com/pkg/errors" "unsafe" ) const ( maxCellinengNB = 16384 maxofNRNeighbours = 1024 maxnoofNrCellBands = 32 ) func getNRFreqInfo(freqInfo C.NRFreqInfo_t) (*entities.NrFrequencyInfo, error) { var info *entities.NrFrequencyInfo info = &entities.NrFrequencyInfo{NrArFcn: uint64(freqInfo.nRARFCN)} if freqInfo.sULInformation != nil { info.SulInformation = &entities.NrFrequencyInfo_SulInformation{SulArFcn: uint64((*C.SULInformation_t)(freqInfo.sULInformation).sUL_ARFCN)} if value, err := getNR_TxBW((*C.SULInformation_t)(freqInfo.sULInformation).sUL_TxBW); err == nil { info.SulInformation.SulTransmissionBandwidth = value } else { return nil, err } } if freqInfo.freqBandListNr.list.count > 0 && freqInfo.freqBandListNr.list.count <= maxnoofNrCellBands { count := int(freqInfo.freqBandListNr.list.count) freqBandListNr_slice := (*[1 << 30]*C.FreqBandNrItem_t)(unsafe.Pointer(freqInfo.freqBandListNr.list.array))[:count:count] for _, freqBandNrItem := range freqBandListNr_slice { frequencyBand := &entities.FrequencyBandItem{NrFrequencyBand: uint32(freqBandNrItem.freqBandIndicatorNr)} if freqBandNrItem.supportedSULBandList.list.count > 0 && freqBandNrItem.supportedSULBandList.list.count <= maxnoofNrCellBands { count:= int(freqBandNrItem.supportedSULBandList.list.count) supportedSULBandList_slice := (*[1 << 30]*C.SupportedSULFreqBandItem_t)(unsafe.Pointer(freqBandNrItem.supportedSULBandList.list.array))[:count:count] for _, supportedSULFreqBandItem := range supportedSULBandList_slice { frequencyBand.SupportedSulBands = append(frequencyBand.SupportedSulBands, uint32(supportedSULFreqBandItem.freqBandIndicatorNr)) } } info.FrequencyBands = append(info.FrequencyBands, frequencyBand) } } return info, nil } func getNR_TxBW(txBW C.NR_TxBW_t) (*entities.NrTransmissionBandwidth, error) { var bw *entities.NrTransmissionBandwidth bw = &entities.NrTransmissionBandwidth{Nrscs: entities.Nrscs(1 + int64(txBW.nRSCS))} bw.Ncnrb = entities.Ncnrb(1 + int64(txBW.nRNRB)) return bw, nil } func getnrModeInfoFDDInfo(fdd *C.FDD_InfoServedNRCell_Information_t) (*entities.ServedNRCellInformation_ChoiceNRMode_FddInfo, error) { var fddInfo *entities.ServedNRCellInformation_ChoiceNRMode_FddInfo if info, err := getNRFreqInfo(fdd.ul_NRFreqInfo); err == nil { fddInfo = &entities.ServedNRCellInformation_ChoiceNRMode_FddInfo{UlFreqInfo: info} } else { return nil, err } if info, err := getNRFreqInfo(fdd.dl_NRFreqInfo); err == nil { fddInfo.DlFreqInfo = info } else { return nil, err } if bw, err := getNR_TxBW(fdd.ul_NR_TxBW); err == nil { fddInfo.UlTransmissionBandwidth = bw } else { return nil, err } if bw, err := getNR_TxBW(fdd.dl_NR_TxBW); err == nil { fddInfo.DlTransmissionBandwidth = bw } else { return nil, err } return fddInfo, nil } func getnrModeInfoTDDInfo(tdd *C.TDD_InfoServedNRCell_Information_t) (*entities.ServedNRCellInformation_ChoiceNRMode_TddInfo, error) { var tddInfo *entities.ServedNRCellInformation_ChoiceNRMode_TddInfo if info, err := getNRFreqInfo(tdd.nRFreqInfo); err == nil { tddInfo = &entities.ServedNRCellInformation_ChoiceNRMode_TddInfo{NrFreqInfo: info} } else { return nil, err } if bw, err := getNR_TxBW(tdd.nR_TxBW); err == nil { tddInfo.TransmissionBandwidth = bw } else { return nil, err } return tddInfo, nil } func getNRNeighbourInformation_ChoiceNRMode_FDDInfo(fdd *C.FDD_InfoNeighbourServedNRCell_Information_t) (*entities.NrNeighbourInformation_ChoiceNRMode_FddInfo, error) { var fddInfo *entities.NrNeighbourInformation_ChoiceNRMode_FddInfo if info, err := getNRFreqInfo(fdd.ul_NRFreqInfo); err == nil { fddInfo = &entities.NrNeighbourInformation_ChoiceNRMode_FddInfo{UlarFcnFreqInfo: info} } else { return nil, err } if info, err := getNRFreqInfo(fdd.dl_NRFreqInfo); err == nil { fddInfo.DlarFcnFreqInfo = info } else { return nil, err } return fddInfo, nil } func getNRNeighbourInformation_ChoiceNRMode_TDDInfo(tdd *C.TDD_InfoNeighbourServedNRCell_Information_t) (*entities.NrNeighbourInformation_ChoiceNRMode_TddInfo, error) { var tddInfo *entities.NrNeighbourInformation_ChoiceNRMode_TddInfo if info, err := getNRFreqInfo(tdd.nRFreqInfo); err == nil { tddInfo = &entities.NrNeighbourInformation_ChoiceNRMode_TddInfo{ArFcnNrFreqInfo: info} } else { return nil, err } return tddInfo, nil } func getnRNeighbourInfo(neighbour_Information *C.NRNeighbour_Information_t) ([]*entities.NrNeighbourInformation, error) { var neighbours []*entities.NrNeighbourInformation if neighbour_Information != nil && neighbour_Information.list.count > 0 && neighbour_Information.list.count <= maxofNRNeighbours { count:=int(neighbour_Information.list.count) neighbour_Information_slice := (*[1 << 30]*C.NRNeighbour_Information__Member)(unsafe.Pointer(neighbour_Information.list.array))[:count:count] for _, member := range neighbour_Information_slice { info := &entities.NrNeighbourInformation{NrPci: uint32(member.nrpCI)} //pLMN_Identity:nRcellIdentifier plmnId := C.GoBytes(unsafe.Pointer(member.nrCellID.pLMN_Identity.buf), C.int(member.nrCellID.pLMN_Identity.size)) nRcellIdentifier := C.GoBytes(unsafe.Pointer(member.nrCellID.nRcellIdentifier.buf), C.int(member.nrCellID.nRcellIdentifier.size)) info.NrCgi = fmt.Sprintf("%02x:%02x", plmnId, nRcellIdentifier) if member.fiveGS_TAC != nil { info.Stac5G = fmt.Sprintf("%02x", C.GoBytes(unsafe.Pointer(member.fiveGS_TAC.buf), C.int(member.fiveGS_TAC.size))) } if member.configured_TAC != nil { info.ConfiguredStac = fmt.Sprintf("%02x", C.GoBytes(unsafe.Pointer(member.configured_TAC.buf), C.int(member.configured_TAC.size))) } switch member.nRNeighbourModeInfo.present { case C.NRNeighbour_Information__Member__nRNeighbourModeInfo_PR_fdd: if fdd, err := getNRNeighbourInformation_ChoiceNRMode_FDDInfo(*(**C.FDD_InfoNeighbourServedNRCell_Information_t)(unsafe.Pointer(&member.nRNeighbourModeInfo.choice[0]))); fdd != nil && err == nil { info.ChoiceNrMode, info.NrMode = &entities.NrNeighbourInformation_ChoiceNRMode{Fdd: fdd}, entities.Nr_FDD } case C.NRNeighbour_Information__Member__nRNeighbourModeInfo_PR_tdd: if tdd, err := getNRNeighbourInformation_ChoiceNRMode_TDDInfo(*(**C.TDD_InfoNeighbourServedNRCell_Information_t)(unsafe.Pointer(&member.nRNeighbourModeInfo.choice[0]))); tdd != nil && err == nil { info.ChoiceNrMode, info.NrMode = &entities.NrNeighbourInformation_ChoiceNRMode{Tdd: tdd}, entities.Nr_TDD } } neighbours = append(neighbours, info) } } return neighbours, nil } func getServedNRCells(servedNRcellsManagementList *C.ServedNRcellsENDCX2ManagementList_t) ([]*entities.ServedNRCell, error) { var servedNRCells []*entities.ServedNRCell if servedNRcellsManagementList != nil && servedNRcellsManagementList.list.count > 0 && servedNRcellsManagementList.list.count <= maxCellinengNB { count :=int(servedNRcellsManagementList.list.count) servedNRcellsENDCX2ManagementList__Member_slice := (*[1 << 30]*C.ServedNRcellsENDCX2ManagementList__Member)(unsafe.Pointer(servedNRcellsManagementList.list.array))[:count:count] for _, servedNRcellsENDCX2ManagementList__Member := range servedNRcellsENDCX2ManagementList__Member_slice { servedNRCellInfo := servedNRcellsENDCX2ManagementList__Member.servedNRCellInfo servedNRCell := &entities.ServedNRCell{ServedNrCellInformation: &entities.ServedNRCellInformation{NrPci: uint32(servedNRCellInfo.nrpCI)}} //pLMN_Identity:nRcellIdentifier plmnId := C.GoBytes(unsafe.Pointer(servedNRCellInfo.nrCellID.pLMN_Identity.buf), C.int(servedNRCellInfo.nrCellID.pLMN_Identity.size)) nRcellIdentifier := C.GoBytes(unsafe.Pointer(servedNRCellInfo.nrCellID.nRcellIdentifier.buf), C.int(servedNRCellInfo.nrCellID.nRcellIdentifier.size)) servedNRCell.ServedNrCellInformation.CellId = fmt.Sprintf("%02x:%02x", plmnId, nRcellIdentifier) if servedNRCellInfo.fiveGS_TAC != nil { servedNRCell.ServedNrCellInformation.Stac5G = fmt.Sprintf("%02x", C.GoBytes(unsafe.Pointer(servedNRCellInfo.fiveGS_TAC.buf), C.int(servedNRCellInfo.fiveGS_TAC.size))) } if servedNRCellInfo.configured_TAC != nil { servedNRCell.ServedNrCellInformation.ConfiguredStac = fmt.Sprintf("%02x", C.GoBytes(unsafe.Pointer(servedNRCellInfo.configured_TAC.buf), C.int(servedNRCellInfo.configured_TAC.size))) } if servedNRCellInfo.broadcastPLMNs.list.count > 0 && servedNRCellInfo.broadcastPLMNs.list.count <= maxnoofBPLMNs { count:=int(servedNRCellInfo.broadcastPLMNs.list.count) pLMN_Identity_slice := (*[1 << 30]*C.PLMN_Identity_t)(unsafe.Pointer(servedNRCellInfo.broadcastPLMNs.list.array))[:count:count] for _, pLMN_Identity := range pLMN_Identity_slice { servedNRCell.ServedNrCellInformation.ServedPlmns = append(servedNRCell.ServedNrCellInformation.ServedPlmns, fmt.Sprintf("%02x", C.GoBytes(unsafe.Pointer(pLMN_Identity.buf), C.int(pLMN_Identity.size)))) } } switch servedNRCellInfo.nrModeInfo.present { case C.ServedNRCell_Information__nrModeInfo_PR_fdd: if fdd, err := getnrModeInfoFDDInfo(*(**C.FDD_InfoServedNRCell_Information_t)(unsafe.Pointer(&servedNRCellInfo.nrModeInfo.choice[0]))); fdd != nil && err == nil { servedNRCell.ServedNrCellInformation.ChoiceNrMode, servedNRCell.ServedNrCellInformation.NrMode = &entities.ServedNRCellInformation_ChoiceNRMode{Fdd: fdd}, entities.Nr_FDD } else { return nil, err } case C.ServedNRCell_Information__nrModeInfo_PR_tdd: if tdd, err := getnrModeInfoTDDInfo(*(**C.TDD_InfoServedNRCell_Information_t)(unsafe.Pointer(&servedNRCellInfo.nrModeInfo.choice[0]))); tdd != nil && err == nil { servedNRCell.ServedNrCellInformation.ChoiceNrMode, servedNRCell.ServedNrCellInformation.NrMode = &entities.ServedNRCellInformation_ChoiceNRMode{Tdd: tdd}, entities.Nr_TDD } else { return nil, err } } neighbours, err := getnRNeighbourInfo(servedNRcellsENDCX2ManagementList__Member.nRNeighbourInfo) if err != nil { return nil, err } servedNRCell.NrNeighbourInfos = neighbours servedNRCells = append(servedNRCells, servedNRCell) } } return servedNRCells, nil } // Populate the GNB structure with data from the pdu // Return the GNB and the associated key which can later be used to retrieve the GNB from the database. func endcX2SetupResponseToProtobuf(pdu *C.E2AP_PDU_t) (*entities.GlobalNbId, *entities.Gnb, error) { var gnb *entities.Gnb var globalNbId *entities.GlobalNbId if pdu.present == C.E2AP_PDU_PR_successfulOutcome { //dereference a union of pointers (C union is represented as a byte array with the size of the largest member) successfulOutcome := *(**C.SuccessfulOutcome_t)(unsafe.Pointer(&pdu.choice[0])) if successfulOutcome != nil && successfulOutcome.value.present == C.SuccessfulOutcome__value_PR_ENDCX2SetupResponse { endcX2SetupResponse := (*C.ENDCX2SetupResponse_t)(unsafe.Pointer(&successfulOutcome.value.choice[0])) if endcX2SetupResponse != nil && endcX2SetupResponse.protocolIEs.list.count > 0 { count:=int(endcX2SetupResponse.protocolIEs.list.count) endcX2SetupResponse_IEs_slice := (*[1 << 30]*C.ENDCX2SetupResponse_IEs_t)(unsafe.Pointer(endcX2SetupResponse.protocolIEs.list.array))[:count:count] for _, endcX2SetupResponse_IE := range endcX2SetupResponse_IEs_slice { if endcX2SetupResponse_IE.value.present == C.ENDCX2SetupResponse_IEs__value_PR_RespondingNodeType_EndcX2Setup { respondingNodeType := (*C.RespondingNodeType_EndcX2Setup_t)(unsafe.Pointer(&endcX2SetupResponse_IE.value.choice[0])) switch respondingNodeType.present { case C.RespondingNodeType_EndcX2Setup_PR_respond_en_gNB: en_gNB_ENDCX2SetupReqAckIEs_Container := *(**C.ProtocolIE_Container_119P89_t)(unsafe.Pointer(&respondingNodeType.choice[0])) if en_gNB_ENDCX2SetupReqAckIEs_Container != nil && en_gNB_ENDCX2SetupReqAckIEs_Container.list.count > 0 { count:=int(en_gNB_ENDCX2SetupReqAckIEs_Container.list.count) en_gNB_ENDCX2SetupReqAckIEs_slice := (*[1 << 30]*C.En_gNB_ENDCX2SetupReqAckIEs_t)(unsafe.Pointer(en_gNB_ENDCX2SetupReqAckIEs_Container.list.array))[:count:count] for _, en_gNB_ENDCX2SetupReqAckIE := range en_gNB_ENDCX2SetupReqAckIEs_slice { switch en_gNB_ENDCX2SetupReqAckIE.value.present { case C.En_gNB_ENDCX2SetupReqAckIEs__value_PR_GlobalGNB_ID: globalGNB_ID := (*C.GlobalGNB_ID_t)(unsafe.Pointer(&en_gNB_ENDCX2SetupReqAckIE.value.choice[0])) plmnId := C.GoBytes(unsafe.Pointer(globalGNB_ID.pLMN_Identity.buf), C.int(globalGNB_ID.pLMN_Identity.size)) if globalGNB_ID.gNB_ID.present == C.GNB_ID_PR_gNB_ID { gnbIdAsBitString := (*C.BIT_STRING_t)(unsafe.Pointer(&globalGNB_ID.gNB_ID.choice[0])) globalNbId = &entities.GlobalNbId{} globalNbId.NbId = fmt.Sprintf("%02x", C.GoBytes(unsafe.Pointer(gnbIdAsBitString.buf), C.int(gnbIdAsBitString.size))) globalNbId.PlmnId = fmt.Sprintf("%02x", plmnId) } case C.En_gNB_ENDCX2SetupReqAckIEs__value_PR_ServedNRcellsENDCX2ManagementList: servedCells, err := getServedNRCells((*C.ServedNRcellsENDCX2ManagementList_t)(unsafe.Pointer(&en_gNB_ENDCX2SetupReqAckIE.value.choice[0]))) if err != nil { return globalNbId, nil, err } gnb = &entities.Gnb{} gnb.ServedNrCells = servedCells } } } case C.RespondingNodeType_EndcX2Setup_PR_respond_eNB: /*ignored*/ } } } } } } return globalNbId, gnb, nil } func UnpackEndcX2SetupResponseAndExtract(logger *logger.Logger, allocationBufferSize int, packedBufferSize int, packedBuf []byte, maxMessageBufferSize int) (*entities.GlobalNbId, *entities.Gnb, error) { pdu, err := UnpackX2apPdu(logger, allocationBufferSize, packedBufferSize, packedBuf, maxMessageBufferSize) if err != nil { return nil, nil, err } defer C.delete_pdu(pdu) return endcX2SetupResponseToProtobuf(pdu) }