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 UESecurityCapabilities Decode(BitArrayInputStream input) { UESecurityCapabilities capabilities = new UESecurityCapabilities(); capabilities.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.readBit(); capabilities.encryptionAlgorithms = input.readBitString(0x10); input.readBit(); capabilities.integrityProtectionAlgorithms = input.readBitString(0x10); if (stream.Read()) { input.skipUnreadedBits(); capabilities.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); capabilities.iE_Extensions.Add(item); } } return(capabilities); }
public X2TNLConfigurationInfo Decode(BitArrayInputStream input) { X2TNLConfigurationInfo info = new X2TNLConfigurationInfo(); info.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); info.eNBX2TransportLayerAddresses = new List <string>(); int nBits = 1; int num5 = input.readBits(nBits) + 1; for (int i = 0; i < num5; i++) { input.readBit(); int num = input.readBits(8); input.skipUnreadedBits(); string item = input.readBitString(num + 1); info.eNBX2TransportLayerAddresses.Add(item); } if (stream.Read()) { input.skipUnreadedBits(); info.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); info.iE_Extensions.Add(field); } } return(info); }
public Bearers_SubjectToStatusTransfer_Item Decode(BitArrayInputStream input) { Bearers_SubjectToStatusTransfer_Item item = new Bearers_SubjectToStatusTransfer_Item(); item.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 2) : new BitMaskStream(input, 2); input.readBit(); item.e_RAB_ID = input.readBits(4); item.uL_COUNTvalue = COUNTvalue.PerDecoder.Instance.Decode(input); item.dL_COUNTvalue = COUNTvalue.PerDecoder.Instance.Decode(input); if (stream.Read()) { input.skipUnreadedBits(); item.receiveStatusofULPDCPSDUs = input.readBitString(0x1000); } 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 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 Cause Decode(BitArrayInputStream input) { int num4; Cause cause = new Cause(); cause.InitDefaults(); input.readBit(); switch (input.readBits(2)) { case 0: num4 = (input.readBit() == 0) ? 5 : 5; 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.protocol = (CauseProtocol)input.readBits(num4); return(cause); case 3: num4 = (input.readBit() == 0) ? 3 : 3; cause.misc = (CauseMisc)input.readBits(num4); return(cause); } throw new Exception(GetType().Name + ":NoChoice had been choose"); }
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 E_RABToBeSetupItemHOReq Decode(BitArrayInputStream input) { E_RABToBeSetupItemHOReq req = new E_RABToBeSetupItemHOReq(); req.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.readBit(); req.e_RAB_ID = input.readBits(4); input.readBit(); int num = input.readBits(8); input.skipUnreadedBits(); req.transportLayerAddress = input.readBitString(num + 1); input.skipUnreadedBits(); req.gTP_TEID = input.readOctetString(4); req.e_RABlevelQosParameters = E_RABLevelQoSParameters.PerDecoder.Instance.Decode(input); if (stream.Read()) { input.skipUnreadedBits(); req.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); req.iE_Extensions.Add(item); } } return(req); }
public RelativeNarrowbandTxPower Decode(BitArrayInputStream input) { RelativeNarrowbandTxPower power = new RelativeNarrowbandTxPower(); power.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.readBit(); int num = input.readBits(7); input.skipUnreadedBits(); power.rNTP_PerPRB = input.readBitString(num + 6); int nBits = (input.readBit() == 0) ? 4 : 4; power.rNTP_Threshold = (RNTP_Threshold)input.readBits(nBits); nBits = (input.readBit() == 0) ? 2 : 2; power.numberOfCellSpecificAntennaPorts = (numberOfCellSpecificAntennaPorts_Enum)input.readBits(nBits); power.p_B = input.readBits(2); power.pDCCH_InterferenceImpact = input.readBits(3); if (stream.Read()) { input.skipUnreadedBits(); power.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); power.iE_Extensions.Add(item); } } return(power); }
public TimeSynchronizationInfo Decode(BitArrayInputStream input) { TimeSynchronizationInfo info = new TimeSynchronizationInfo(); info.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.readBit(); info.stratumLevel = input.readBits(2); int nBits = 1; info.synchronizationStatus = (SynchronizationStatus)input.readBits(nBits); if (stream.Read()) { input.skipUnreadedBits(); info.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); info.iE_Extensions.Add(item); } } return(info); }
public GTPtunnelEndpoint Decode(BitArrayInputStream input) { GTPtunnelEndpoint endpoint = new GTPtunnelEndpoint(); endpoint.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.readBit(); int num = input.readBits(8); input.skipUnreadedBits(); endpoint.transportLayerAddress = input.readBitString(num + 1); input.skipUnreadedBits(); endpoint.gTP_TEID = input.readOctetString(4); if (stream.Read()) { input.skipUnreadedBits(); endpoint.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); endpoint.iE_Extensions.Add(item); } } return(endpoint); }
public RequestType Decode(BitArrayInputStream input) { RequestType type = new RequestType(); type.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); int nBits = (input.readBit() == 0) ? 2 : 2; type.eventType = (EventType)input.readBits(nBits); nBits = 1; type.reportArea = (ReportArea)input.readBits(nBits); if (stream.Read()) { input.skipUnreadedBits(); type.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); type.iE_Extensions.Add(item); } } return(type); }
public UplinkPowerControlDedicatedSCell_r10 Decode(BitArrayInputStream input) { UplinkPowerControlDedicatedSCell_r10 _r = new UplinkPowerControlDedicatedSCell_r10(); _r.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); BitMaskStream stream2 = new BitMaskStream(input, 1); _r.p0_UE_PUSCH_r10 = input.readBits(4) + -8; int nBits = 1; _r.deltaMCS_Enabled_r10 = (deltaMCS_Enabled_r10_Enum)input.readBits(nBits); _r.accumulationEnabled_r10 = input.readBit() == 1; _r.pSRS_Offset_r10 = input.readBits(4); if (stream2.Read()) { _r.pSRS_OffsetAp_r10 = input.readBits(4); } if (stream.Read()) { nBits = (input.readBit() == 0) ? 4 : 4; _r.filterCoefficient_r10 = (FilterCoefficient)input.readBits(nBits); } nBits = 1; _r.pathlossReferenceLinking_r10 = (pathlossReferenceLinking_r10_Enum)input.readBits(nBits); return(_r); }
public ConnEstFailReport_r11 Decode(BitArrayInputStream input) { ConnEstFailReport_r11 _r = new ConnEstFailReport_r11(); _r.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 3) : new BitMaskStream(input, 3); _r.failedCellId_r11 = CellGlobalIdEUTRA.PerDecoder.Instance.Decode(input); if (stream.Read()) { _r.locationInfo_r11 = LocationInfo_r10.PerDecoder.Instance.Decode(input); } _r.measResultFailedCell_r11 = measResultFailedCell_r11_Type.PerDecoder.Instance.Decode(input); if (stream.Read()) { _r.measResultNeighCells_r11 = measResultNeighCells_r11_Type.PerDecoder.Instance.Decode(input); } _r.numberOfPreamblesSent_r11 = input.readBits(8) + 1; _r.contentionDetected_r11 = input.readBit() == 1; _r.maxTxPowerReached_r11 = input.readBit() == 1; _r.timeSinceFailure_r11 = input.readBits(0x12); if (stream.Read()) { _r.measResultListEUTRA_v1130 = new List <MeasResult2EUTRA_v9e0>(); int nBits = 3; int num3 = input.readBits(nBits) + 1; for (int i = 0; i < num3; i++) { MeasResult2EUTRA_v9e0 item = MeasResult2EUTRA_v9e0.PerDecoder.Instance.Decode(input); _r.measResultListEUTRA_v1130.Add(item); } } return(_r); }
public E_RABs_ToBeSetup_Item Decode(BitArrayInputStream input) { int num4; E_RABs_ToBeSetup_Item item = new E_RABs_ToBeSetup_Item(); item.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 2) : new BitMaskStream(input, 2); input.readBit(); item.e_RAB_ID = input.readBits(4); item.e_RAB_Level_QoS_Parameters = E_RAB_Level_QoS_Parameters.PerDecoder.Instance.Decode(input); if (stream.Read()) { num4 = 1; item.dL_Forwarding = (DL_Forwarding)input.readBits(num4); } item.uL_GTPtunnelEndpoint = GTPtunnelEndpoint.PerDecoder.Instance.Decode(input); 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 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 TDD_Info Decode(BitArrayInputStream input) { TDD_Info info = new TDD_Info(); info.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); int nBits = input.readBits(1) + 1; input.skipUnreadedBits(); info.eARFCN = input.readBits(nBits * 8); nBits = (input.readBit() == 0) ? 3 : 3; info.transmission_Bandwidth = (Transmission_Bandwidth)input.readBits(nBits); nBits = (input.readBit() == 0) ? 3 : 3; info.subframeAssignment = (SubframeAssignment)input.readBits(nBits); info.specialSubframe_Info = SpecialSubframe_Info.PerDecoder.Instance.Decode(input); if (stream.Read()) { input.skipUnreadedBits(); info.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); info.iE_Extensions.Add(item); } } return(info); }
public MBSFN_Subframe_Info Decode(BitArrayInputStream input) { MBSFN_Subframe_Info info = new MBSFN_Subframe_Info(); info.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); int nBits = (input.readBit() == 0) ? 3 : 3; info.radioframeAllocationPeriod = (RadioframeAllocationPeriod)input.readBits(nBits); input.readBit(); info.radioframeAllocationOffset = input.readBits(3); info.subframeAllocation = SubframeAllocation.PerDecoder.Instance.Decode(input); if (stream.Read()) { input.skipUnreadedBits(); info.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); info.iE_Extensions.Add(item); } } return(info); }
public SpecialSubframe_Info Decode(BitArrayInputStream input) { SpecialSubframe_Info info = new SpecialSubframe_Info(); info.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); int nBits = (input.readBit() == 0) ? 4 : 4; info.specialSubframePatterns = (SpecialSubframePatterns)input.readBits(nBits); nBits = 1; info.cyclicPrefixDL = (CyclicPrefixDL)input.readBits(nBits); nBits = 1; info.cyclicPrefixUL = (CyclicPrefixUL)input.readBits(nBits); if (stream.Read()) { input.skipUnreadedBits(); info.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); info.iE_Extensions.Add(item); } } return(info); }
public CompositeAvailableCapacity Decode(BitArrayInputStream input) { CompositeAvailableCapacity capacity = new CompositeAvailableCapacity(); capacity.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 2) : new BitMaskStream(input, 2); if (stream.Read()) { input.readBit(); capacity.cellCapacityClassValue = input.readBits(7) + 1; } capacity.capacityValue = input.readBits(7); if (stream.Read()) { input.skipUnreadedBits(); capacity.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); capacity.iE_Extensions.Add(item); } } return(capacity); }
public PRACH_Configuration Decode(BitArrayInputStream input) { PRACH_Configuration configuration = new PRACH_Configuration(); configuration.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 2) : new BitMaskStream(input, 2); input.skipUnreadedBits(); configuration.rootSequenceIndex = input.readBits(0x10); configuration.zeroCorrelationIndex = input.readBits(4); configuration.highSpeedFlag = input.readBit() == 1; configuration.prach_FreqOffset = input.readBits(7); if (stream.Read()) { configuration.prach_ConfigIndex = input.readBits(6); } if (stream.Read()) { input.skipUnreadedBits(); configuration.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); configuration.iE_Extensions.Add(item); } } return(configuration); }
public UL_HighInterferenceIndicationInfo_Item Decode(BitArrayInputStream input) { UL_HighInterferenceIndicationInfo_Item item = new UL_HighInterferenceIndicationInfo_Item(); item.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); item.target_Cell_ID = ECGI.PerDecoder.Instance.Decode(input); input.readBit(); int num = input.readBits(7); input.skipUnreadedBits(); item.ul_interferenceindication = input.readBitString(num + 1); 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 HWLoadIndicator Decode(BitArrayInputStream input) { HWLoadIndicator indicator = new HWLoadIndicator(); indicator.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); int nBits = (input.readBit() == 0) ? 2 : 2; indicator.dLHWLoadIndicator = (LoadIndicator)input.readBits(nBits); nBits = (input.readBit() == 0) ? 2 : 2; indicator.uLHWLoadIndicator = (LoadIndicator)input.readBits(nBits); if (stream.Read()) { input.skipUnreadedBits(); indicator.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); indicator.iE_Extensions.Add(item); } } return(indicator); }
public E_RABToBeSwitchedULItem Decode(BitArrayInputStream input) { E_RABToBeSwitchedULItem item = new E_RABToBeSwitchedULItem(); item.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); 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.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 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.e_UTRAN_Trace_ID = 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 E_RABToBeSetupItemBearerSUReq Decode(BitArrayInputStream input) { E_RABToBeSetupItemBearerSUReq req = new E_RABToBeSetupItemBearerSUReq(); req.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.readBit(); req.e_RAB_ID = input.readBits(4); req.e_RABlevelQoSParameters = E_RABLevelQoSParameters.PerDecoder.Instance.Decode(input); input.readBit(); int nBits = input.readBits(8); input.skipUnreadedBits(); req.transportLayerAddress = input.readBitString(nBits + 1); input.skipUnreadedBits(); req.gTP_TEID = input.readOctetString(4); input.skipUnreadedBits(); nBits = 0; while (true) { switch (input.readBit()) { case 0: nBits += input.readBits(7); goto Label_0130; case 1: switch (input.readBit()) { case 0: nBits += input.readBits(14); goto Label_0130; case 1: input.readBits(2); nBits += input.readBits(4) * 0x400; break; } break; } } Label_0130: req.nAS_PDU = input.readOctetString(nBits); if (stream.Read()) { input.skipUnreadedBits(); req.iE_Extensions = new List <ProtocolExtensionField>(); int num4 = 0x10; int num5 = input.readBits(num4) + 1; for (int i = 0; i < num5; i++) { ProtocolExtensionField item = ProtocolExtensionField.PerDecoder.Instance.Decode(input); req.iE_Extensions.Add(item); } } return(req); }
public PhyLayerParameters Decode(BitArrayInputStream input) { PhyLayerParameters parameters = new PhyLayerParameters(); parameters.InitDefaults(); parameters.ue_TxAntennaSelectionSupported = input.readBit() == 1; parameters.ue_SpecificRefSigsSupported = input.readBit() == 1; return(parameters); }
public ProtocolIE_Field Decode(BitArrayInputStream input) { ProtocolIE_Field field = new ProtocolIE_Field(); field.InitDefaults(); int num4 = input.readBits(1) + 1; input.skipUnreadedBits(); field.id = input.readBits(num4 * 8); num4 = 2; field.criticality = (Criticality)input.readBits(num4); input.skipUnreadedBits(); int nBits = 0; while (true) { switch (input.readBit()) { case 0: nBits += input.readBits(7); goto Label_00DD; case 1: switch (input.readBit()) { case 0: nBits += input.readBits(14); goto Label_00DD; case 1: input.readBits(2); nBits += input.readBits(4) * 0x400; break; } break; } } Label_00DD: long num3 = input.Position; try { field.value = X2AP_PROTOCOL_IES.Switcher(field.id, "Value", input); input.skipUnreadedBits(); } catch (Exception) { input.skipUnreadedBits(); input.Position = num3; field.value = input.readOctetString(nBits); } if (input.Position != (num3 + nBits)) { input.Position = num3 + nBits; } return(field); }
public SuccessfulOutcome Decode(BitArrayInputStream input) { SuccessfulOutcome outcome = new SuccessfulOutcome(); outcome.InitDefaults(); input.skipUnreadedBits(); outcome.procedureCode = input.readBits(8); const int num4 = 2; outcome.criticality = (Criticality)input.readBits(num4); input.skipUnreadedBits(); int nBits = 0; while (true) { switch (input.readBit()) { case 0: nBits += input.readBits(7); goto Label_00CF; case 1: switch (input.readBit()) { case 0: nBits += input.readBits(14); goto Label_00CF; case 1: input.readBits(2); nBits += input.readBits(4) * 0x400; break; } break; } } Label_00CF: long num3 = input.Position; try { outcome.value = X2AP_ELEMENTARY_PROCEDURE.Switcher(outcome.procedureCode, "SuccessfulOutcome", input); input.skipUnreadedBits(); } catch (Exception) { input.skipUnreadedBits(); input.Position = num3; outcome.value = input.readOctetString(nBits); } if (input.Position != (num3 + nBits)) { input.Position = num3 + nBits; } return(outcome); }
public UL_ReferenceSignalsPUSCH Decode(BitArrayInputStream input) { UL_ReferenceSignalsPUSCH spusch = new UL_ReferenceSignalsPUSCH(); spusch.InitDefaults(); spusch.groupHoppingEnabled = input.readBit() == 1; spusch.groupAssignmentPUSCH = input.readBits(5); spusch.sequenceHoppingEnabled = input.readBit() == 1; spusch.cyclicShift = input.readBits(3); return(spusch); }