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 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 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 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 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 TraceReference_r10 Decode(BitArrayInputStream input) { TraceReference_r10 _r = new TraceReference_r10(); _r.InitDefaults(); _r.plmn_Identity_r10 = PLMN_Identity.PerDecoder.Instance.Decode(input); _r.traceId_r10 = input.readOctetString(3); return _r; }
public TMGI_r9 Decode(BitArrayInputStream input) { TMGI_r9 _r = new TMGI_r9(); _r.InitDefaults(); _r.plmn_Id_r9 = plmn_Id_r9_Type.PerDecoder.Instance.Decode(input); _r.serviceId_r9 = input.readOctetString(3); return _r; }
public Handover Decode(BitArrayInputStream input) { Handover handover = new Handover(); handover.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 2); int num2 = (input.readBit() == 0) ? 3 : 3; handover.targetRAT_Type = (targetRAT_Type_Enum)input.readBits(num2); int nBits = input.readBits(8); handover.targetRAT_MessageContainer = input.readOctetString(nBits); if (stream.Read()) { handover.nas_SecurityParamFromEUTRA = input.readOctetString(1); } if (stream.Read()) { handover.systemInformation = SI_OrPSI_GERAN.PerDecoder.Instance.Decode(input); } return handover; }
public LAI Decode(BitArrayInputStream input) { LAI lai = new LAI(); lai.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.skipUnreadedBits(); lai.pLMNidentity = input.readOctetString(3); input.skipUnreadedBits(); lai.lAC = input.readOctetString(2); if (stream.Read()) { input.skipUnreadedBits(); lai.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); lai.iE_Extensions.Add(item); } } return lai; }
public CellInfoGERAN_r9 Decode(BitArrayInputStream input) { CellInfoGERAN_r9 _r = new CellInfoGERAN_r9(); _r.InitDefaults(); _r.physCellId_r9 = PhysCellIdGERAN.PerDecoder.Instance.Decode(input); _r.carrierFreq_r9 = CarrierFreqGERAN.PerDecoder.Instance.Decode(input); _r.systemInformation_r9 = new List<string>(); const int nBits = 4; int num3 = input.readBits(nBits) + 1; for (int i = 0; i < num3; i++) { int num = input.readBits(5); string item = input.readOctetString(num + 1); _r.systemInformation_r9.Add(item); } return _r; }
public MBMSCountingRequest_r10 Decode(BitArrayInputStream input) { MBMSCountingRequest_r10 _r = new MBMSCountingRequest_r10(); _r.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 2); _r.countingRequestList_r10 = new List<CountingRequestInfo_r10>(); const int num2 = 4; int num3 = input.readBits(num2) + 1; for (int i = 0; i < num3; i++) { CountingRequestInfo_r10 item = CountingRequestInfo_r10.PerDecoder.Instance.Decode(input); _r.countingRequestList_r10.Add(item); } if (stream.Read()) { int nBits = input.readBits(8); _r.lateNonCriticalExtension = input.readOctetString(nBits); } if (stream.Read()) { _r.nonCriticalExtension = nonCriticalExtension_Type.PerDecoder.Instance.Decode(input); } return _r; }
public UEAssistanceInformation_r11_IEs Decode(BitArrayInputStream input) { UEAssistanceInformation_r11_IEs es = new UEAssistanceInformation_r11_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 3); if (stream.Read()) { const int num2 = 1; es.powerPrefIndication_r11 = (powerPrefIndication_r11_Enum)input.readBits(num2); } if (stream.Read()) { int nBits = input.readBits(8); es.lateNonCriticalExtension = input.readOctetString(nBits); } if (stream.Read()) { es.nonCriticalExtension = nonCriticalExtension_Type.PerDecoder.Instance.Decode(input); } return es; }
public CellInfoUTRA_TDD_r9 Decode(BitArrayInputStream input) { CellInfoUTRA_TDD_r9 _r = new CellInfoUTRA_TDD_r9(); _r.InitDefaults(); _r.physCellId_r9 = input.readBits(7); int nBits = input.readBits(8); _r.utra_BCCH_Container_r9 = input.readOctetString(nBits); return _r; }
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 GlobalENB_ID Decode(BitArrayInputStream input) { GlobalENB_ID lenb_id = new GlobalENB_ID(); lenb_id.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); input.skipUnreadedBits(); lenb_id.pLMN_Identity = input.readOctetString(3); lenb_id.eNB_ID = ENB_ID.PerDecoder.Instance.Decode(input); if (stream.Read()) { input.skipUnreadedBits(); lenb_id.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); lenb_id.iE_Extensions.Add(item); } } return lenb_id; }
public UE_EUTRA_Capability_v9h0_IEs Decode(BitArrayInputStream input) { UE_EUTRA_Capability_v9h0_IEs es = new UE_EUTRA_Capability_v9h0_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 3); if (stream.Read()) { es.interRAT_ParametersUTRA_v9h0 = IRAT_ParametersUTRA_v9h0.PerDecoder.Instance.Decode(input); } if (stream.Read()) { int nBits = input.readBits(8); es.lateNonCriticalExtension = input.readOctetString(nBits); } if (stream.Read()) { es.nonCriticalExtension = UE_EUTRA_Capability_v10c0_IEs.PerDecoder.Instance.Decode(input); } return es; }
public CounterCheck_v8a0_IEs Decode(BitArrayInputStream input) { CounterCheck_v8a0_IEs es = new CounterCheck_v8a0_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 2); if (stream.Read()) { int nBits = input.readBits(8); es.lateNonCriticalExtension = input.readOctetString(nBits); } if (stream.Read()) { es.nonCriticalExtension = nonCriticalExtension_Type.PerDecoder.Instance.Decode(input); } return es; }
public RRCConnectionSetupComplete_r8_IEs Decode(BitArrayInputStream input) { RRCConnectionSetupComplete_r8_IEs es = new RRCConnectionSetupComplete_r8_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 2); es.selectedPLMN_Identity = input.readBits(3) + 1; if (stream.Read()) { es.registeredMME = RegisteredMME.PerDecoder.Instance.Decode(input); } int nBits = input.readBits(8); es.dedicatedInfoNAS = input.readOctetString(nBits); if (stream.Read()) { es.nonCriticalExtension = RRCConnectionSetupComplete_v8a0_IEs.PerDecoder.Instance.Decode(input); } return es; }
public UEInformationRequest_v930_IEs Decode(BitArrayInputStream input) { UEInformationRequest_v930_IEs es = new UEInformationRequest_v930_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 2); if (stream.Read()) { int nBits = input.readBits(8); es.lateNonCriticalExtension = input.readOctetString(nBits); } if (stream.Read()) { es.nonCriticalExtension = UEInformationRequest_v1020_IEs.PerDecoder.Instance.Decode(input); } return es; }
public MBMSCountingResponse_r10_IEs Decode(BitArrayInputStream input) { MBMSCountingResponse_r10_IEs es = new MBMSCountingResponse_r10_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 4); if (stream.Read()) { es.mbsfn_AreaIndex_r10 = input.readBits(3); } if (stream.Read()) { es.countingResponseList_r10 = new List<CountingResponseInfo_r10>(); const int num2 = 4; int num3 = input.readBits(num2) + 1; for (int i = 0; i < num3; i++) { CountingResponseInfo_r10 item = CountingResponseInfo_r10.PerDecoder.Instance.Decode(input); es.countingResponseList_r10.Add(item); } } if (stream.Read()) { int nBits = input.readBits(8); es.lateNonCriticalExtension = input.readOctetString(nBits); } if (stream.Read()) { es.nonCriticalExtension = nonCriticalExtension_Type.PerDecoder.Instance.Decode(input); } return es; }
public HandoverCommand_r8_IEs Decode(BitArrayInputStream input) { HandoverCommand_r8_IEs es = new HandoverCommand_r8_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 1); int nBits = input.readBits(8); es.handoverCommandMessage = input.readOctetString(nBits); if (stream.Read()) { es.nonCriticalExtension = nonCriticalExtension_Type.PerDecoder.Instance.Decode(input); } return es; }
public MBMSInterestIndication_r11_IEs Decode(BitArrayInputStream input) { int num2; MBMSInterestIndication_r11_IEs es = new MBMSInterestIndication_r11_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 4); if (stream.Read()) { es.mbms_FreqList_r11 = new List<long>(); num2 = 3; int num3 = input.readBits(num2) + 1; for (int i = 0; i < num3; i++) { long item = input.readBits(0x12); es.mbms_FreqList_r11.Add(item); } } if (stream.Read()) { num2 = 1; es.mbms_Priority_r11 = (mbms_Priority_r11_Enum)input.readBits(num2); } if (stream.Read()) { int nBits = input.readBits(8); es.lateNonCriticalExtension = input.readOctetString(nBits); } if (stream.Read()) { es.nonCriticalExtension = nonCriticalExtension_Type.PerDecoder.Instance.Decode(input); } return es; }
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 MBMS_SessionInfo_r9 Decode(BitArrayInputStream input) { MBMS_SessionInfo_r9 _r = new MBMS_SessionInfo_r9(); _r.InitDefaults(); BitMaskStream stream = (input.readBit() != 0) ? new BitMaskStream(input, 1) : new BitMaskStream(input, 1); _r.tmgi_r9 = TMGI_r9.PerDecoder.Instance.Decode(input); if (stream.Read()) { _r.sessionId_r9 = input.readOctetString(1); } _r.logicalChannelIdentity_r9 = input.readBits(5); return _r; }
public HandoverFromEUTRAPreparationRequest_v890_IEs Decode(BitArrayInputStream input) { HandoverFromEUTRAPreparationRequest_v890_IEs es = new HandoverFromEUTRAPreparationRequest_v890_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 2); if (stream.Read()) { int nBits = input.readBits(8); es.lateNonCriticalExtension = input.readOctetString(nBits); } if (stream.Read()) { es.nonCriticalExtension = HandoverFromEUTRAPreparationRequest_v920_IEs.PerDecoder.Instance.Decode(input); } return es; }
public dedicatedInfoType_Type Decode(BitArrayInputStream input) { int nBits; dedicatedInfoType_Type type = new dedicatedInfoType_Type(); type.InitDefaults(); switch (input.readBits(2)) { case 0: nBits = input.readBits(8); type.dedicatedInfoNAS = input.readOctetString(nBits); return type; case 1: nBits = input.readBits(8); type.dedicatedInfoCDMA2000_1XRTT = input.readOctetString(nBits); return type; case 2: nBits = input.readBits(8); type.dedicatedInfoCDMA2000_HRPD = input.readOctetString(nBits); return type; } throw new Exception(GetType().Name + ":NoChoice had been choose"); }
public string Decode(BitArrayInputStream input) { input.skipUnreadedBits(); return input.readOctetString(2); }
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 RRCConnectionSetupComplete_v8a0_IEs Decode(BitArrayInputStream input) { RRCConnectionSetupComplete_v8a0_IEs es = new RRCConnectionSetupComplete_v8a0_IEs(); es.InitDefaults(); BitMaskStream stream = new BitMaskStream(input, 2); if (stream.Read()) { int nBits = input.readBits(8); es.lateNonCriticalExtension = input.readOctetString(nBits); } if (stream.Read()) { es.nonCriticalExtension = RRCConnectionSetupComplete_v1020_IEs.PerDecoder.Instance.Decode(input); } return es; }
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; }