public SupportedTAs_Item Decode(BitArrayInputStream input) { SupportedTAs_Item item = new SupportedTAs_Item(); item.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.skipUnreadedBits(); item.tAC = input.readOctetString(2); item.broadcastPLMNs = new List<string>(); int nBits = 3; int num5 = input.readBits(nBits) + 1; for (int i = 0; i < num5; i++) { input.skipUnreadedBits(); string str = input.readOctetString(3); item.broadcastPLMNs.Add(str); } if (stream.Read()) { input.skipUnreadedBits(); item.iE_Extensions = new List<ProtocolExtensionField>(); nBits = 0x10; int num7 = input.readBits(nBits) + 1; for (int j = 0; j < num7; j++) { ProtocolExtensionField field = ProtocolExtensionField.PerDecoder.Instance.Decode(input); item.iE_Extensions.Add(field); } } return item; }
public GBR_QosInformation Decode(BitArrayInputStream input) { GBR_QosInformation information = new GBR_QosInformation(); information.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); int nBits = input.readBits(3) + 1; input.skipUnreadedBits(); information.e_RAB_MaximumBitrateDL = input.readBits(nBits * 8); nBits = input.readBits(3) + 1; input.skipUnreadedBits(); information.e_RAB_MaximumBitrateUL = input.readBits(nBits * 8); nBits = input.readBits(3) + 1; input.skipUnreadedBits(); information.e_RAB_GuaranteedBitrateDL = input.readBits(nBits * 8); nBits = input.readBits(3) + 1; input.skipUnreadedBits(); information.e_RAB_GuaranteedBitrateUL = input.readBits(nBits * 8); if (stream.Read()) { input.skipUnreadedBits(); information.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); information.iE_Extensions.Add(item); } } return information; }
public Cause Decode(BitArrayInputStream input) { int num4; Cause cause = new Cause(); cause.InitDefaults(); input.readBit(); switch (input.readBits(3)) { case 0: num4 = (input.readBit() == 0) ? 6 : 6; cause.radioNetwork = (CauseRadioNetwork)input.readBits(num4); return cause; case 1: num4 = 1; cause.transport = (CauseTransport)input.readBits(num4); return cause; case 2: num4 = (input.readBit() == 0) ? 3 : 3; cause.nas = (CauseNas)input.readBits(num4); return cause; case 3: num4 = (input.readBit() == 0) ? 3 : 3; cause.protocol = (CauseProtocol)input.readBits(num4); return cause; case 4: num4 = (input.readBit() == 0) ? 3 : 3; cause.misc = (CauseMisc)input.readBits(num4); return cause; } throw new Exception(GetType().Name + ":NoChoice had been choose"); }
public static object Switcher(long unique, string membername, BitArrayInputStream input) { long num = unique; if (num <= 0x2aL) { if (num < 0x29L) { goto Label_0081; } switch (((int)(num - 0x29L))) { case 0: return id_Number_of_AntennaportsClass.GetMemberObj(membername, input); case 1: return id_CompositeAvailableCapacityGroupClass.GetMemberObj(membername, input); } } if ((num <= 0x3bL) && (num >= 0x37L)) { switch (((int)(num - 0x37L))) { case 0: return id_PRACH_ConfigurationClass.GetMemberObj(membername, input); case 1: return id_MBSFN_Subframe_InfoClass.GetMemberObj(membername, input); case 4: return id_DeactivationIndicationClass.GetMemberObj(membername, input); } } Label_0081: return null; }
public InterFreqBandInfo Decode(BitArrayInputStream input) { InterFreqBandInfo info = new InterFreqBandInfo(); info.InitDefaults(); info.interFreqNeedForGaps = input.readBit() == 1; return info; }
public UE_CapabilityRAT_Container Decode(BitArrayInputStream input) { string str; int nBits = 0; UE_CapabilityRAT_Container container = new UE_CapabilityRAT_Container(); container.InitDefaults(); int num2 = (input.readBit() == 0) ? 3 : 3; container.rat_Type = (RAT_Type) input.readBits(num2); nBits = input.readBits(8); if ((container.rat_Type == RAT_Type.eutra) && (nBits > 0)) { str = input.readOctetString(nBits); BitArrayInputStream inputStream = GetInputStream(str.Remove(str.Length - 2) + "00000000"); container.ueCapabilityRAT_Container = UE_EUTRA_Capability.PerDecoder.Instance.Decode(inputStream); return container; } if (container.rat_Type == RAT_Type.cdma2000_1XRTT) { container.ueCapabilityRAT_Container = A21MobileSubscriptionInformation.PerDecoder.Instance.Decode(input); return container; } str = input.readOctetString(nBits); container.ueCapabilityRAT_Container = str; return container; }
public CrossCarrierSchedulingConfig_r10 Decode(BitArrayInputStream input) { CrossCarrierSchedulingConfig_r10 _r = new CrossCarrierSchedulingConfig_r10(); _r.InitDefaults(); _r.schedulingCellInfo_r10 = schedulingCellInfo_r10_Type.PerDecoder.Instance.Decode(input); return _r; }
public BCCH_BCH_Message Decode(BitArrayInputStream input) { BCCH_BCH_Message message = new BCCH_BCH_Message(); message.InitDefaults(); message.message = MasterInformationBlock.PerDecoder.Instance.Decode(input); return message; }
public UEAggregateMaximumBitRate Decode(BitArrayInputStream input) { UEAggregateMaximumBitRate rate = new UEAggregateMaximumBitRate(); rate.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); int nBits = input.readBits(3) + 1; input.skipUnreadedBits(); rate.uEaggregateMaximumBitRateDownlink = input.readBits(nBits * 8); nBits = input.readBits(3) + 1; input.skipUnreadedBits(); rate.uEaggregateMaximumBitRateUplink = input.readBits(nBits * 8); if (stream.Read()) { input.skipUnreadedBits(); rate.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); rate.iE_Extensions.Add(item); } } return rate; }
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 E_RABs_Admitted_Item Decode(BitArrayInputStream input) { E_RABs_Admitted_Item item = new E_RABs_Admitted_Item(); item.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 3) : new BitMaskStream(input, 3); input.readBit(); item.e_RAB_ID = input.readBits(4); if (stream.Read()) { item.uL_GTP_TunnelEndpoint = GTPtunnelEndpoint.PerDecoder.Instance.Decode(input); } if (stream.Read()) { item.dL_GTP_TunnelEndpoint = GTPtunnelEndpoint.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 UE_associatedLogicalS1_ConnectionItem Decode(BitArrayInputStream input) { int num4; UE_associatedLogicalS1_ConnectionItem item = new UE_associatedLogicalS1_ConnectionItem(); item.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 3) : new BitMaskStream(input, 3); if (stream.Read()) { num4 = input.readBits(2) + 1; input.skipUnreadedBits(); item.mME_UE_S1AP_ID = input.readBits(num4 * 8); } if (stream.Read()) { num4 = input.readBits(2) + 1; input.skipUnreadedBits(); item.eNB_UE_S1AP_ID = input.readBits(num4 * 8); } if (stream.Read()) { input.skipUnreadedBits(); item.iE_Extensions = new List<ProtocolExtensionField>(); num4 = 0x10; int num5 = input.readBits(num4) + 1; for (int i = 0; i < num5; i++) { ProtocolExtensionField field = ProtocolExtensionField.PerDecoder.Instance.Decode(input); item.iE_Extensions.Add(field); } } return item; }
public GUMMEI Decode(BitArrayInputStream input) { GUMMEI gummei = new GUMMEI(); gummei.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.skipUnreadedBits(); gummei.pLMN_Identity = input.readOctetString(3); input.skipUnreadedBits(); gummei.mME_Group_ID = input.readOctetString(2); input.skipUnreadedBits(); gummei.mME_Code = input.readOctetString(1); if (stream.Read()) { input.skipUnreadedBits(); gummei.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); gummei.iE_Extensions.Add(item); } } return gummei; }
public CandidateCellInfo_r10 Decode(BitArrayInputStream input) { CandidateCellInfo_r10 _r = new CandidateCellInfo_r10(); _r.InitDefaults(); bool flag = input.readBit() != 0; BitMaskStream stream = new BitMaskStream(input, 2); _r.physCellId_r10 = input.readBits(9); _r.dl_CarrierFreq_r10 = input.readBits(0x10); if (stream.Read()) { _r.rsrpResult_r10 = input.readBits(7); } if (stream.Read()) { _r.rsrqResult_r10 = input.readBits(6); } if (flag) { BitMaskStream stream2 = new BitMaskStream(input, 1); if (stream2.Read()) { _r.dl_CarrierFreq_v1090 = input.readBits(0x12) + 0x10000; } } return _r; }
public Neighbour_Information_Element Decode(BitArrayInputStream input) { Neighbour_Information_Element element = new Neighbour_Information_Element(); element.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); element.eCGI = ECGI.PerDecoder.Instance.Decode(input); input.readBit(); input.skipUnreadedBits(); element.pCI = input.readBits(0x10); int nBits = input.readBits(1) + 1; input.skipUnreadedBits(); element.eARFCN = input.readBits(nBits * 8); if (stream.Read()) { input.skipUnreadedBits(); element.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); element.iE_Extensions.Add(item); } } return element; }
public QuantityConfig Decode(BitArrayInputStream input) { QuantityConfig config = new QuantityConfig(); config.InitDefaults(); bool flag = input.readBit() != 0; BitMaskStream stream = new BitMaskStream(input, 4); if (stream.Read()) { config.quantityConfigEUTRA = QuantityConfigEUTRA.PerDecoder.Instance.Decode(input); } if (stream.Read()) { config.quantityConfigUTRA = QuantityConfigUTRA.PerDecoder.Instance.Decode(input); } if (stream.Read()) { config.quantityConfigGERAN = QuantityConfigGERAN.PerDecoder.Instance.Decode(input); } if (stream.Read()) { config.quantityConfigCDMA2000 = QuantityConfigCDMA2000.PerDecoder.Instance.Decode(input); } if (flag) { BitMaskStream stream2 = new BitMaskStream(input, 1); if (stream2.Read()) { config.quantityConfigUTRA_v1020 = QuantityConfigUTRA_v1020.PerDecoder.Instance.Decode(input); } } return config; }
public Paging Decode(BitArrayInputStream input) { int num2; Paging paging = new Paging(); paging.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 4); if (stream.Read()) { paging.pagingRecordList = new List<PagingRecord>(); num2 = 4; int num3 = input.readBits(num2) + 1; for (int i = 0; i < num3; i++) { PagingRecord item = PagingRecord.PerDecoder.Instance.Decode(input); paging.pagingRecordList.Add(item); } } if (stream.Read()) { num2 = 1; paging.systemInfoModification = (systemInfoModification_Enum)input.readBits(num2); } if (stream.Read()) { num2 = 1; paging.etws_Indication = (etws_Indication_Enum)input.readBits(num2); } if (stream.Read()) { paging.nonCriticalExtension = Paging_v890_IEs.PerDecoder.Instance.Decode(input); } return paging; }
public CellMeasurementResult_Item Decode(BitArrayInputStream input) { CellMeasurementResult_Item item = new CellMeasurementResult_Item(); item.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 4) : new BitMaskStream(input, 4); item.cell_ID = ECGI.PerDecoder.Instance.Decode(input); if (stream.Read()) { item.hWOverLoadIndicator = HWLoadIndicator.PerDecoder.Instance.Decode(input); } if (stream.Read()) { item.s1TNLOverLoadIndicator = S1TNLLoadIndicator.PerDecoder.Instance.Decode(input); } if (stream.Read()) { item.radioResourceStatus = RadioResourceStatus.PerDecoder.Instance.Decode(input); } if (stream.Read()) { input.skipUnreadedBits(); item.iE_Extensions = new List<ProtocolExtensionField>(); const 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 string Decode(BitArrayInputStream input) { input.skipUnreadedBits(); int nBits = 0; while (true) { switch (input.readBit()) { case 0: nBits += input.readBits(7); goto Label_0096; case 1: switch (input.readBit()) { case 0: nBits += input.readBits(14); goto Label_0096; case 1: input.readBits(2); nBits += input.readBits(4) * 0x400; break; } break; } } Label_0096: return input.readOctetString(nBits); }
public OtherConfig_r9 Decode(BitArrayInputStream input) { OtherConfig_r9 _r = new OtherConfig_r9(); _r.InitDefaults(); bool flag = input.readBit() != 0; BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { _r.reportProximityConfig_r9 = ReportProximityConfig_r9.PerDecoder.Instance.Decode(input); } if (flag) { BitMaskStream stream2 = new BitMaskStream(input, 3); if (stream2.Read()) { _r.idc_Config_r11 = IDC_Config_r11.PerDecoder.Instance.Decode(input); } if (stream2.Read()) { _r.powerPrefIndicationConfig_r11 = PowerPrefIndicationConfig_r11.PerDecoder.Instance.Decode(input); } if (stream2.Read()) { _r.obtainLocationConfig_r11 = ObtainLocationConfig_r11.PerDecoder.Instance.Decode(input); } } return _r; }
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 UL_DCCH_Message Decode(BitArrayInputStream input) { UL_DCCH_Message message = new UL_DCCH_Message(); message.InitDefaults(); message.message = UL_DCCH_MessageType.PerDecoder.Instance.Decode(input); return message; }
public PLMN_Identity Decode(BitArrayInputStream input) { int num2; PLMN_Identity identity = new PLMN_Identity(); identity.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); if (stream.Read()) { identity.mcc = new List<long>(); num2 = 0; int num3 = input.readBits(num2) + 3; for (int j = 0; j < num3; j++) { long item = input.readBits(4); identity.mcc.Add(item); } } identity.mnc = new List<long>(); num2 = 1; int num6 = input.readBits(num2) + 2; for (int i = 0; i < num6; i++) { long num8 = input.readBits(4); identity.mnc.Add(num8); } return identity; }
public UL_UM_RLC Decode(BitArrayInputStream input) { UL_UM_RLC ul_um_rlc = new UL_UM_RLC(); ul_um_rlc.InitDefaults(); int nBits = 1; ul_um_rlc.sn_FieldLength = (SN_FieldLength)input.readBits(nBits); return ul_um_rlc; }
public PDSCH_ConfigCommon Decode(BitArrayInputStream input) { PDSCH_ConfigCommon common = new PDSCH_ConfigCommon(); common.InitDefaults(); common.referenceSignalPower = input.readBits(7) + -60; common.p_b = input.readBits(2); return common; }
public AltTTT_CellsToAddMod_r12 Decode(BitArrayInputStream input) { AltTTT_CellsToAddMod_r12 _r = new AltTTT_CellsToAddMod_r12(); _r.InitDefaults(); _r.cellIndex = input.readBits(5) + 1; _r.physCellIdRange = PhysCellIdRange.PerDecoder.Instance.Decode(input); return _r; }
public MeasResult2CDMA2000_r9 Decode(BitArrayInputStream input) { MeasResult2CDMA2000_r9 _r = new MeasResult2CDMA2000_r9(); _r.InitDefaults(); _r.carrierFreq_r9 = CarrierFreqCDMA2000.PerDecoder.Instance.Decode(input); _r.measResultList_r9 = MeasResultsCDMA2000.PerDecoder.Instance.Decode(input); return _r; }
public PhysCellIdGERAN Decode(BitArrayInputStream input) { PhysCellIdGERAN dgeran = new PhysCellIdGERAN(); dgeran.InitDefaults(); dgeran.networkColourCode = input.readBitString(3); dgeran.baseStationColourCode = input.readBitString(3); return dgeran; }
public am_Type Decode(BitArrayInputStream input) { am_Type type = new am_Type(); type.InitDefaults(); type.ul_AM_RLC = UL_AM_RLC.PerDecoder.Instance.Decode(input); type.dl_AM_RLC = DL_AM_RLC.PerDecoder.Instance.Decode(input); return type; }
public FreqPriorityEUTRA Decode(BitArrayInputStream input) { FreqPriorityEUTRA yeutra = new FreqPriorityEUTRA(); yeutra.InitDefaults(); yeutra.carrierFreq = input.readBits(0x10); yeutra.cellReselectionPriority = input.readBits(3); return yeutra; }