public S_TMSI Decode(BitArrayInputStream input) { S_TMSI s_tmsi = new S_TMSI(); s_tmsi.InitDefaults(); s_tmsi.mmec = input.readBitString(8); s_tmsi.m_TMSI = input.readBitString(0x20); return s_tmsi; }
public PhysCellIdGERAN Decode(BitArrayInputStream input) { PhysCellIdGERAN dgeran = new PhysCellIdGERAN(); dgeran.InitDefaults(); dgeran.networkColourCode = input.readBitString(3); dgeran.baseStationColourCode = input.readBitString(3); return dgeran; }
public AdditionalReestabInfo Decode(BitArrayInputStream input) { AdditionalReestabInfo info = new AdditionalReestabInfo(); info.InitDefaults(); info.cellIdentity = input.readBitString(0x1c); info.key_eNodeB_Star = input.readBitString(0x100); info.shortMAC_I = input.readBitString(0x10); return info; }
public MasterInformationBlock Decode(BitArrayInputStream input) { MasterInformationBlock block = new MasterInformationBlock(); block.InitDefaults(); const int nBits = 3; block.dl_Bandwidth = (dl_Bandwidth_Enum)input.readBits(nBits); block.phich_Config = PHICH_Config.PerDecoder.Instance.Decode(input); block.systemFrameNumber = input.readBitString(8); block.spare = input.readBitString(10); return block; }
public RegisteredMME Decode(BitArrayInputStream input) { RegisteredMME dmme = new RegisteredMME(); dmme.InitDefaults(); bool flag = false; BitMaskStream stream = flag ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); if (stream.Read()) { dmme.plmn_Identity = PLMN_Identity.PerDecoder.Instance.Decode(input); } dmme.mmegi = input.readBitString(0x10); dmme.mmec = input.readBitString(8); return dmme; }
public CellGlobalIdCDMA2000 Decode(BitArrayInputStream input) { CellGlobalIdCDMA2000 dcdma = new CellGlobalIdCDMA2000(); dcdma.InitDefaults(); switch (input.readBits(1)) { case 0: dcdma.cellGlobalId1XRTT = input.readBitString(0x2f); return dcdma; case 1: dcdma.cellGlobalIdHRPD = input.readBitString(0x80); return dcdma; } throw new Exception(GetType().Name + ":NoChoice had been choose"); }
public E_RABSetupItemBearerSURes Decode(BitArrayInputStream input) { E_RABSetupItemBearerSURes res = new E_RABSetupItemBearerSURes(); res.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.readBit(); res.e_RAB_ID = input.readBits(4); input.readBit(); int num = input.readBits(8); input.skipUnreadedBits(); res.transportLayerAddress = input.readBitString(num + 1); input.skipUnreadedBits(); res.gTP_TEID = input.readOctetString(4); if (stream.Read()) { input.skipUnreadedBits(); res.iE_Extensions = new List<ProtocolExtensionField>(); const int nBits = 0x10; int num5 = input.readBits(nBits) + 1; for (int i = 0; i < num5; i++) { ProtocolExtensionField item = ProtocolExtensionField.PerDecoder.Instance.Decode(input); res.iE_Extensions.Add(item); } } return res; }
public AreaConfiguration_r10 Decode(BitArrayInputStream input) { int num2; AreaConfiguration_r10 _r = new AreaConfiguration_r10(); _r.InitDefaults(); switch (input.readBits(1)) { case 0: { _r.cellGlobalIdList_r10 = new List<CellGlobalIdEUTRA>(); num2 = 5; int num4 = input.readBits(num2) + 1; for (int i = 0; i < num4; i++) { CellGlobalIdEUTRA item = CellGlobalIdEUTRA.PerDecoder.Instance.Decode(input); _r.cellGlobalIdList_r10.Add(item); } return _r; } case 1: { _r.trackingAreaCodeList_r10 = new List<string>(); num2 = 3; int num6 = input.readBits(num2) + 1; for (int j = 0; j < num6; j++) { string str = input.readBitString(0x10); _r.trackingAreaCodeList_r10.Add(str); } return _r; } } throw new Exception(GetType().Name + ":NoChoice had been choose"); }
public P_C_AndCBSR_r11 Decode(BitArrayInputStream input) { P_C_AndCBSR_r11 _r = new P_C_AndCBSR_r11(); _r.InitDefaults(); _r.p_C_r11 = input.readBits(5) + -8; int nBits = input.readBits(8); _r.codebookSubsetRestriction_r11 = input.readBitString(nBits); return _r; }
public AC_BarringConfig Decode(BitArrayInputStream input) { AC_BarringConfig config = new AC_BarringConfig(); config.InitDefaults(); int nBits = 4; config.ac_BarringFactor = (ac_BarringFactor_Enum)input.readBits(nBits); nBits = 3; config.ac_BarringTime = (ac_BarringTime_Enum)input.readBits(nBits); config.ac_BarringForSpecialAC = input.readBitString(5); return config; }
public BandCombinationParametersExt_r10 Decode(BitArrayInputStream input) { BandCombinationParametersExt_r10 _r = new BandCombinationParametersExt_r10(); _r.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { int num = input.readBits(5); _r.supportedBandwidthCombinationSet_r10 = input.readBitString(num + 1); } return _r; }
public E_RABAdmittedItem Decode(BitArrayInputStream input) { E_RABAdmittedItem item = new E_RABAdmittedItem(); item.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 5) : new BitMaskStream(input, 5); input.readBit(); item.e_RAB_ID = input.readBits(4); input.readBit(); int num = input.readBits(8); input.skipUnreadedBits(); item.transportLayerAddress = input.readBitString(num + 1); input.skipUnreadedBits(); item.gTP_TEID = input.readOctetString(4); if (stream.Read()) { input.readBit(); num = input.readBits(8); input.skipUnreadedBits(); item.dL_transportLayerAddress = input.readBitString(num + 1); } if (stream.Read()) { input.skipUnreadedBits(); item.dL_gTP_TEID = input.readOctetString(4); } if (stream.Read()) { input.readBit(); num = input.readBits(8); input.skipUnreadedBits(); item.uL_TransportLayerAddress = input.readBitString(num + 1); } if (stream.Read()) { input.skipUnreadedBits(); item.uL_GTP_TEID = input.readOctetString(4); } if (stream.Read()) { input.skipUnreadedBits(); item.iE_Extensions = new List<ProtocolExtensionField>(); int nBits = 0x10; int num5 = input.readBits(nBits) + 1; for (int i = 0; i < num5; i++) { ProtocolExtensionField field = ProtocolExtensionField.PerDecoder.Instance.Decode(input); item.iE_Extensions.Add(field); } } return item; }
public InitialUE_Identity Decode(BitArrayInputStream input) { InitialUE_Identity identity = new InitialUE_Identity(); identity.InitDefaults(); switch (input.readBits(1)) { case 0: identity.s_TMSI = S_TMSI.PerDecoder.Instance.Decode(input); return identity; case 1: identity.randomValue = input.readBitString(40); return identity; } throw new Exception(GetType().Name + ":NoChoice had been choose"); }
public AdditionalSI_Info_r9 Decode(BitArrayInputStream input) { AdditionalSI_Info_r9 _r = new AdditionalSI_Info_r9(); _r.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 2); if (stream.Read()) { const int nBits = 1; _r.csg_MemberStatus_r9 = (csg_MemberStatus_r9_Enum)input.readBits(nBits); } if (stream.Read()) { _r.csg_Identity_r9 = input.readBitString(0x1b); } return _r; }
public SPS_Config Decode(BitArrayInputStream input) { SPS_Config config = new SPS_Config(); config.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 3); if (stream.Read()) { config.semiPersistSchedC_RNTI = input.readBitString(0x10); } if (stream.Read()) { config.sps_ConfigDL = SPS_ConfigDL.PerDecoder.Instance.Decode(input); } if (stream.Read()) { config.sps_ConfigUL = SPS_ConfigUL.PerDecoder.Instance.Decode(input); } return config; }
public MeasurementFailureCause_Item Decode(BitArrayInputStream input) { MeasurementFailureCause_Item item = new MeasurementFailureCause_Item(); item.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); item.measurementFailedReportCharacteristics = input.readBitString(0x20); item.cause = Cause.PerDecoder.Instance.Decode(input); if (stream.Read()) { input.skipUnreadedBits(); item.iE_Extensions = new List<ProtocolExtensionField>(); int nBits = 0x10; int num5 = input.readBits(nBits) + 1; for (int i = 0; i < num5; i++) { ProtocolExtensionField field = ProtocolExtensionField.PerDecoder.Instance.Decode(input); item.iE_Extensions.Add(field); } } return item; }
public AS_SecurityInformation Decode(BitArrayInputStream input) { AS_SecurityInformation information = new AS_SecurityInformation(); information.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.skipUnreadedBits(); information.key_eNodeB_star = input.readBitString(0x100); information.nextHopChainingCount = input.readBits(3); if (stream.Read()) { input.skipUnreadedBits(); information.iE_Extensions = new List<ProtocolExtensionField>(); int nBits = 0x10; int num5 = input.readBits(nBits) + 1; for (int i = 0; i < num5; i++) { ProtocolExtensionField item = ProtocolExtensionField.PerDecoder.Instance.Decode(input); information.iE_Extensions.Add(item); } } return information; }
public SubframeAllocation Decode(BitArrayInputStream input) { SubframeAllocation allocation = new SubframeAllocation(); allocation.InitDefaults(); input.readBit(); switch (input.readBits(1)) { case 0: allocation.oneframe = input.readBitString(6); return allocation; case 1: input.skipUnreadedBits(); allocation.fourframes = input.readBitString(0x18); return allocation; } throw new Exception(GetType().Name + ":NoChoice had been choose"); }
public HandoverFromEUTRAPreparationRequest_r8_IEs Decode(BitArrayInputStream input) { HandoverFromEUTRAPreparationRequest_r8_IEs es = new HandoverFromEUTRAPreparationRequest_r8_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 3); const int num2 = 1; es.cdma2000_Type = (CDMA2000_Type)input.readBits(num2); if (stream.Read()) { es.rand = input.readBitString(0x20); } if (stream.Read()) { int nBits = input.readBits(8); es.mobilityParameters = input.readOctetString(nBits); } if (stream.Read()) { es.nonCriticalExtension = HandoverFromEUTRAPreparationRequest_v890_IEs.PerDecoder.Instance.Decode(input); } return es; }
public string Decode(BitArrayInputStream input) { return input.readBitString(0x1b); }
public ENB_ID Decode(BitArrayInputStream input) { ENB_ID enb_id = new ENB_ID(); enb_id.InitDefaults(); input.readBit(); switch (input.readBits(1)) { case 0: enb_id.macro_eNB_ID = input.readBitString(20); return enb_id; case 1: enb_id.home_eNB_ID = input.readBitString(0x1c); return enb_id; } throw new Exception(GetType().Name + ":NoChoice had been choose"); }
public ECGI Decode(BitArrayInputStream input) { ECGI ecgi = new ECGI(); ecgi.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.skipUnreadedBits(); ecgi.pLMN_Identity = input.readOctetString(3); ecgi.eUTRANcellIdentifier = input.readBitString(0x1c); if (stream.Read()) { input.skipUnreadedBits(); ecgi.iE_Extensions = new List<ProtocolExtensionField>(); const int nBits = 0x10; int num5 = input.readBits(nBits) + 1; for (int i = 0; i < num5; i++) { ProtocolExtensionField item = ProtocolExtensionField.PerDecoder.Instance.Decode(input); ecgi.iE_Extensions.Add(item); } } return ecgi; }
public string Decode(BitArrayInputStream input) { input.readBit(); int num = input.readBits(8); return input.readBitString(num + 1); }
public TraceActivation Decode(BitArrayInputStream input) { TraceActivation activation = new TraceActivation(); activation.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.skipUnreadedBits(); activation.eUTRANTraceID = input.readOctetString(8); activation.interfacesToTrace = input.readBitString(8); int nBits = (input.readBit() == 0) ? 3 : 3; activation.traceDepth = (TraceDepth)input.readBits(nBits); input.readBit(); int num = input.readBits(8); input.skipUnreadedBits(); activation.traceCollectionEntityIPAddress = input.readBitString(num + 1); if (stream.Read()) { input.skipUnreadedBits(); activation.iE_Extensions = new List<ProtocolExtensionField>(); nBits = 0x10; int num5 = input.readBits(nBits) + 1; for (int i = 0; i < num5; i++) { ProtocolExtensionField item = ProtocolExtensionField.PerDecoder.Instance.Decode(input); activation.iE_Extensions.Add(item); } } return activation; }
public geran_Type Decode(BitArrayInputStream input) { geran_Type type = new geran_Type(); type.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 2); type.physCellId = PhysCellIdGERAN.PerDecoder.Instance.Decode(input); type.carrierFreq = CarrierFreqGERAN.PerDecoder.Instance.Decode(input); if (stream.Read()) { type.networkControlOrder = input.readBitString(2); } if (stream.Read()) { type.systemInformation = SI_OrPSI_GERAN.PerDecoder.Instance.Decode(input); } return type; }
public UE_EUTRA_Capability_v1020_IEs Decode(BitArrayInputStream input) { UE_EUTRA_Capability_v1020_IEs es = new UE_EUTRA_Capability_v1020_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 9); if (stream.Read()) { es.ue_Category_v1020 = input.readBits(2) + 6; } if (stream.Read()) { es.phyLayerParameters_v1020 = PhyLayerParameters_v1020.PerDecoder.Instance.Decode(input); } if (stream.Read()) { es.rf_Parameters_v1020 = RF_Parameters_v1020.PerDecoder.Instance.Decode(input); } if (stream.Read()) { es.measParameters_v1020 = MeasParameters_v1020.PerDecoder.Instance.Decode(input); } if (stream.Read()) { es.featureGroupIndRel10_r10 = input.readBitString(0x20); } if (stream.Read()) { es.interRAT_ParametersCDMA2000_v1020 = IRAT_ParametersCDMA2000_1XRTT_v1020.PerDecoder.Instance.Decode(input); } if (stream.Read()) { es.ue_BasedNetwPerfMeasParameters_r10 = UE_BasedNetwPerfMeasParameters_r10.PerDecoder.Instance.Decode(input); } if (stream.Read()) { es.interRAT_ParametersUTRA_TDD_v1020 = IRAT_ParametersUTRA_TDD_v1020.PerDecoder.Instance.Decode(input); } if (stream.Read()) { es.nonCriticalExtension = UE_EUTRA_Capability_v1060_IEs.PerDecoder.Instance.Decode(input); } return es; }
public UE_EUTRA_CapabilityAddXDD_Mode_v1060 Decode(BitArrayInputStream input) { UE_EUTRA_CapabilityAddXDD_Mode_v1060 _v = new UE_EUTRA_CapabilityAddXDD_Mode_v1060(); _v.InitDefaults(); bool flag = input.readBit() != 0; BitMaskStream stream = new BitMaskStream(input, 4); if (stream.Read()) { _v.phyLayerParameters_v1060 = PhyLayerParameters_v1020.PerDecoder.Instance.Decode(input); } if (stream.Read()) { _v.featureGroupIndRel10_v1060 = input.readBitString(0x20); } if (stream.Read()) { _v.interRAT_ParametersCDMA2000_v1060 = IRAT_ParametersCDMA2000_1XRTT_v1020.PerDecoder.Instance.Decode(input); } if (stream.Read()) { _v.interRAT_ParametersUTRA_TDD_v1060 = IRAT_ParametersUTRA_TDD_v1020.PerDecoder.Instance.Decode(input); } if (flag) { BitMaskStream stream2 = new BitMaskStream(input, 1); if (stream2.Read()) { _v.otdoa_PositioningCapabilities_r10 = OTDOA_PositioningCapabilities_r10.PerDecoder.Instance.Decode(input); } } return _v; }
public UE_EUTRA_CapabilityAddXDD_Mode_r9 Decode(BitArrayInputStream input) { UE_EUTRA_CapabilityAddXDD_Mode_r9 _r = new UE_EUTRA_CapabilityAddXDD_Mode_r9(); _r.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 7) : new BitMaskStream(input, 7); if (stream.Read()) { _r.phyLayerParameters_r9 = PhyLayerParameters.PerDecoder.Instance.Decode(input); } if (stream.Read()) { _r.featureGroupIndicators_r9 = input.readBitString(0x20); } if (stream.Read()) { _r.featureGroupIndRel9Add_r9 = input.readBitString(0x20); } if (stream.Read()) { _r.interRAT_ParametersGERAN_r9 = IRAT_ParametersGERAN.PerDecoder.Instance.Decode(input); } if (stream.Read()) { _r.interRAT_ParametersUTRA_r9 = IRAT_ParametersUTRA_v920.PerDecoder.Instance.Decode(input); } if (stream.Read()) { _r.interRAT_ParametersCDMA2000_r9 = IRAT_ParametersCDMA2000_1XRTT_v920.PerDecoder.Instance.Decode(input); } if (stream.Read()) { _r.neighCellSI_AcquisitionParameters_r9 = NeighCellSI_AcquisitionParameters_r9.PerDecoder.Instance.Decode(input); } return _r; }
public UE_EUTRA_Capability Decode(BitArrayInputStream input) { UE_EUTRA_Capability capability = new UE_EUTRA_Capability(); capability.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 2); int nBits = (input.readBit() == 0) ? 3 : 3; capability.accessStratumRelease = (AccessStratumRelease)input.readBits(nBits); capability.ue_Category = input.readBits(3) + 1; capability.pdcp_Parameters = PDCP_Parameters.PerDecoder.Instance.Decode(input); capability.phyLayerParameters = PhyLayerParameters.PerDecoder.Instance.Decode(input); capability.rf_Parameters = RF_Parameters.PerDecoder.Instance.Decode(input); capability.measParameters = MeasParameters.PerDecoder.Instance.Decode(input); if (stream.Read()) { capability.featureGroupIndicators = input.readBitString(0x20); } capability.interRAT_Parameters = interRAT_Parameters_Type.PerDecoder.Instance.Decode(input); if (stream.Read()) { capability.nonCriticalExtension = UE_EUTRA_Capability_v920_IEs.PerDecoder.Instance.Decode(input); } return capability; }
public UE_EUTRA_Capability_v9a0_IEs Decode(BitArrayInputStream input) { UE_EUTRA_Capability_v9a0_IEs es = new UE_EUTRA_Capability_v9a0_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 4); if (stream.Read()) { es.featureGroupIndRel9Add_r9 = input.readBitString(0x20); } if (stream.Read()) { es.fdd_Add_UE_EUTRA_Capabilities_r9 = UE_EUTRA_CapabilityAddXDD_Mode_r9.PerDecoder.Instance.Decode(input); } if (stream.Read()) { es.tdd_Add_UE_EUTRA_Capabilities_r9 = UE_EUTRA_CapabilityAddXDD_Mode_r9.PerDecoder.Instance.Decode(input); } if (stream.Read()) { es.nonCriticalExtension = UE_EUTRA_Capability_v9c0_IEs.PerDecoder.Instance.Decode(input); } return es; }