public void Parse(LogicChannel channelData, int offset, ReceivedData result)
{
var protokol = (MLEPduType)TetraUtils.BitsToInt32(channelData.Ptr, offset, 3);
offset += 3;
result.Add(GlobalNames.MLE_PDU_Type, (int)protokol);
//Debug.Write(" " + protokol.ToString());
switch (protokol)
{
case MLEPduType.CMCE:
ParseCMCEPDU(channelData, offset, result);
break;
case MLEPduType.MLE:
ParseMLEPDU(channelData, offset, result);
break;
default:
//Debug.Write(" Unknow_PDU_Type");
result.Add(GlobalNames.UnknowData, 1);
break;
}
}
public void AccessAsignPDU(LogicChannel channelData)
{
var offset = 0;
var length = _aachLength[AccessAssign.Header];
var header = TetraUtils.BitsToInt32(channelData.Ptr, offset, length);
offset += length;
length = _aachLength[AccessAssign.Field1];
var field1 = TetraUtils.BitsToInt32(channelData.Ptr, offset, length);
offset += length;
length = _aachLength[AccessAssign.Field2];
var field2 = TetraUtils.BitsToInt32(channelData.Ptr, offset, length);
Field1 = field1;
Field2 = field2;
if (channelData.Frame == 18)
{
DownLinkChannelType = ChannelType.Common;
return;
}
switch (header)
{
case 0:
DownLinkChannelType = ChannelType.Common;
break;
case 1:
case 2:
case 3:
switch (field1)
{
case 0:
DownLinkChannelType = ChannelType.Unalloc;
break;
case 1:
DownLinkChannelType = ChannelType.Assigned;
break;
case 2:
DownLinkChannelType = ChannelType.Common;
break;
case 3:
DownLinkChannelType = ChannelType.Reserved;
break;
default:
DownLinkChannelType = ChannelType.Traffic;
break;
}
break;
}
}
public void MacFraqPDU(LogicChannel channelData, int offset, ReceivedData result)
{
var startOffset = offset - 3;
//Debug.Write(" | Frag_PDU");
if (FraqmentsBufferIsEmpty(channelData.TimeSlot))
{
Debug.Write(" Buffer_is_empty!!!");
return;
}
var fill = (TetraUtils.BitsToInt32(channelData.Ptr, offset, 1) != 0);
offset++;
var realLength = channelData.Length - offset;
if (fill)
{
realLength = CalcRealLength(channelData.Ptr, offset, realLength);
}
if (realLength < 0)
{
result.Add(GlobalNames.UnknowData, 1);
Debug.Write(" frag_length_err");
return;
}
AddFraqmentsToBuffer(channelData, offset, realLength);
}
public int ParseTLService(LogicChannel channelData, int offset, ReceivedData result)
{
var length = 4;
var messageType = TetraUtils.BitsToInt32(channelData.Ptr, offset, length);
offset += length;
result.Add(GlobalNames.SDS_TL_MesaggeType, messageType);
switch (messageType)
{
case 0: //Forward
offset = Global.ParseParams(channelData, offset, _d_Sds_TL_ForwardRules, result);
break;
case 1: //Report
offset = Global.ParseParams(channelData, offset, _d_Sds_TL_ReportRules, result);
break;
case 2:
case 3:
//
break;
}
return(offset);
}
public void ParseSDS(LogicChannel channelData, int offset, ReceivedData result)
{
var length = 8;
var type = (SdsProtocolIdent)TetraUtils.BitsToInt32(channelData.Ptr, offset, length);
offset += length;
result.Add(GlobalNames.Protocol_identifier, (int)type);
Debug.Write(" " + type.ToString());
if ((int)type > 127)
{
offset = ParseTLService(channelData, offset, result);
}
switch (type)
{
case SdsProtocolIdent.Simple_immediate_text:
case SdsProtocolIdent.Simple_text_msg:
offset = Global.ParseParams(channelData, offset, _sds_SimpleTextRules, result);
ParseTextMessage(channelData, offset, result);
break;
case SdsProtocolIdent.Immediate_text_messaging_TL:
case SdsProtocolIdent.Text_Messaging_TL:
offset = Global.ParseParams(channelData, offset, _sds_SimpleTextRules, result);
ParseTextMessage(channelData, offset, result);
break;
case SdsProtocolIdent.Location_System_TL:
case SdsProtocolIdent.Simple_location_system:
length = 8;
var locationCodingSheme = TetraUtils.BitsToInt32(channelData.Ptr, offset, length);
offset += length;
result.Add(GlobalNames.Location_System_Coding, locationCodingSheme);
if (locationCodingSheme == 0)
{
result.Add(GlobalNames.Text_coding_scheme, 1);
ParseTextMessage(channelData, offset, result);
}
else
{
result.Add(GlobalNames.UnknowData, 1);
}
break;
case SdsProtocolIdent.Location_information_protokol:
ParseLocationInformationProtokol(channelData, offset, result);
break;
default:
offset = Global.ParseParams(channelData, offset, _sds_SimpleTextRules, result);
ParseTextMessage(channelData, offset, result);
result.Add(GlobalNames.UnknowData, 1);
break;
}
}
public void UsignalPDU(LogicChannel channelData, int offset, ReceivedData result)
{
HalfSlotStolen = (TetraUtils.BitsToInt32(channelData.Ptr, offset, 1) != 0);
offset++;
//Debug.Write(" Usig_PDU");
//Possible pdu encrypted
//_llc.Parse(channelData, offset, result);
}
// This code is Reed Mahler's decoder for RM (30,14)
// The code is not universal, optimized for tetra
// Recovers 3 bits out of 30 transmitted.
public unsafe void Test()
{
var rnd = new Random();
var inTestBuffer = UnsafeBuffer.Create(32, sizeof(byte));
var inTestBufferPtr = (byte *)inTestBuffer;
var outTestBuffer = UnsafeBuffer.Create(14, sizeof(byte));
var outTestBufferPtr = (byte *)outTestBuffer;
var result = (uint)0;
var checkBit = (uint)0;
var error = 0;
// All possible options, 16K x 30 bits
for (int j = 1; j < 16384; j++)
{
result = 0;
for (int column = 0; column < 30; column++)
{
checkBit = 0;
for (int row = 0; row < 14; row++)
{
checkBit ^= (uint)((j >> (13 - row)) & 1) & gMatrix[row, column];
}
result <<= 1;
result |= (uint)checkBit;
}
var data = result;
for (int n = 0; n < 3; n++)
{
var bitNum = rnd.Next(0, 29);
data ^= (1u << bitNum);
}
TetraUtils.UIntToBits(data, inTestBufferPtr, 2);
Process(inTestBufferPtr, outTestBufferPtr);
data = TetraUtils.BitsToUInt32(outTestBufferPtr, 0, 14);
if ((result >> 16) != data)
{
error++;
}
}
}
private void ParseMLEPDU(LogicChannel channelData, int offset, ReceivedData result)
{
var length = 3;
var type = (MlePrimitivesType)TetraUtils.BitsToInt32(channelData.Ptr, offset, length);
offset += length;
result.Add(GlobalNames.MLE_Primitives_Type, (int)type);
//Debug.Write(" " + type.ToString());
switch (type)
{
case MlePrimitivesType.D_NWRK_BROADCAST:
offset = Global.ParseParams(channelData, offset, _d_Nwrk_BroadcastRules, result);
var count = 0;
if (result.TryGetValue(GlobalNames.Number_of_Neighbour_cells_element, ref count))
{
for (int i = 0; i < count; i++)
{
var neighbourData = new ReceivedData();
offset = Global.ParseParams(channelData, offset, _neighbour_Cell_InfoRules, neighbourData);
var cellID = 0;
if (neighbourData.TryGetValue(GlobalNames.Cell_identifier, ref cellID))
{
//////Debug.WriteLine("Neighbour " + Thread.CurrentThread.ManagedThreadId.ToString());
if (Global.NeighbourList.Count < 32)
{
Global.NeighbourList.Add(neighbourData);
}
}
}
}
break;
case MlePrimitivesType.D_NEW_CELL:
case MlePrimitivesType.D_PREPARE:
case MlePrimitivesType.D_RESTORE_ACK:
case MlePrimitivesType.D_RESTORE_FAIL:
default:
//Debug.Write(" Unknow_MLE_SDU");
result.Add(GlobalNames.UnknowData, 1);
break;
}
}
public void DmacFraqPDU(LogicChannel channelData, int offset, ReceivedData result)
{
var fill = (TetraUtils.BitsToInt32(channelData.Ptr, offset, 1) != 0);
offset++;
var realLength = channelData.Length - offset;
if (fill)
{
realLength = CalcRealLength(channelData.Ptr, offset, realLength);
}
AddFraqmentsToBuffer(channelData, offset, realLength);
Debug.Write("Fragment_PDU");
}
public void DmoParseMacPDU(LogicChannel channelData, List <ReceivedData> result)
{
var offset = 0;
var pdu = new ReceivedData();
pdu.Add(GlobalNames.CurrTimeSlot, channelData.TimeSlot);
var pduType = (MAC_PDU_Type)TetraUtils.BitsToInt32(channelData.Ptr, offset, 2);
offset += 2;
pdu.Add(GlobalNames.MAC_PDU_Type, (int)pduType);
switch (pduType)
{
case MAC_PDU_Type.MAC_resource: //DMAC-DATA
DmacDataPDU(channelData, offset, pdu);
break;
case MAC_PDU_Type.MAC_frag:
var isTheEnd = TetraUtils.BitsToInt32(channelData.Ptr, offset, 1);
offset++;
if (isTheEnd == 0)
{
Debug.Write(" DMAC-Frag_PDU");
DmacFraqPDU(channelData, offset, pdu);
}
else
{
Debug.Write(" DMAC-End_PDU");
DmacEndPDU(channelData, offset, pdu);
}
break;
case MAC_PDU_Type.MAC_U_Signal:
Debug.Write(" U-signal_DMO_PDU");
//UsignalPDU(channelData, offset, pdu);
break;
case MAC_PDU_Type.Broadcast: //Not used for dmo
Debug.Write(" Reserved_DMO_PDU");
break;
}
result.Add(pdu);
}
public void SyncPDU(LogicChannel channelData, ReceivedData result)
{
var length = 4;
var offset = 0;
var systemCode = TetraUtils.BitsToInt32(channelData.Ptr, offset, length);
offset += length;
result.SetValue(GlobalNames.SystemCode, systemCode);
switch (systemCode)
{
case 12:
case 13:
length = 2;
var pduType = TetraUtils.BitsToInt32(channelData.Ptr, offset, length);
offset += length;
result.SetValue(GlobalNames.SYNC_PDU_type, pduType);
switch (pduType)
{
case 0:
//Dmac-Sync
Debug.Write(" DMAC-Sync");
offset = Global.ParseParams(channelData, offset, _dmacSyncInfoRulesDMO, result);
break;
case 1:
//DPRES-SYNC
Debug.Write(" Dpres-Sync");
offset = Global.ParseParams(channelData, offset, _dpresSyncInfoRules, result);
break;
default:
//Reserved;
Debug.Write(" Unknow_DMO_SyncPdu_type");
result.SetValue(GlobalNames.UnknowData, 1);
break;
}
break;
default:
Global.ParseParams(channelData, offset, _syncInfoRulesTMO, result);
break;
}
}
private void ParseLocationInformationProtokol(LogicChannel channelData, int offset, ReceivedData result)
{
var length = 2;
var pduType = TetraUtils.BitsToInt32(channelData.Ptr, offset, length);
offset += length;
result.Add(GlobalNames.Location_PDU_type, pduType);
switch (pduType)
{
case 0: //Short
Global.ParseParams(channelData, offset, _sds_LocationShortRules, result);
break;
case 1: //Long
length = 4;
var pduSubType = (LocationTypeExtension)TetraUtils.BitsToInt32(channelData.Ptr, offset, length);
offset += length;
result.Add(GlobalNames.Location_PDU_type_extension, (int)pduSubType);
switch (pduSubType)
{
case LocationTypeExtension.Immediate_location_report:
Global.ParseParams(channelData, offset, _sds_ImmediateLocRepRules, result);
break;
case LocationTypeExtension.Long_location_report:
case LocationTypeExtension.Remove_trigger:
case LocationTypeExtension.Location_report_acknowledgement:
case LocationTypeExtension.Add_modify_trigger:
case LocationTypeExtension.Backlog:
case LocationTypeExtension.Basic_location_parameters:
case LocationTypeExtension.Location_reporting_enable_disable:
case LocationTypeExtension.Location_reporting_temporary_control:
case LocationTypeExtension.Report_basic_location_parameters:
case LocationTypeExtension.Report_trigger:
default:
result.Add(GlobalNames.UnknowData, 1);
break;
}
break;
default:
break;
}
}
public unsafe bool Process(byte *inBuffer, byte *outBuffer)
{
uint alphaValue = 0;
int counter = 0;
//Принятое кодовое слово
var vector = TetraUtils.BitsToUInt32(inBuffer, 0, n);
int syndromeI = 0;
for (int i = 0; i < nk; i++)
{
alphaValue = vector & _hMatrixUintPtr[i];
counter = _onesCounterPtr[alphaValue & 0xff]
+ _onesCounterPtr[(alphaValue >> 8) & 0xff]
+ _onesCounterPtr[(alphaValue >> 16) & 0xff]
+ _onesCounterPtr[(alphaValue >> 24) & 0xff];
syndromeI <<= 1;
syndromeI |= (counter & 1);
}
var noErrors = (syndromeI == 0);
if (!noErrors)
{
var bitMask = _syndromesDecoderPtr[syndromeI];
vector ^= bitMask;
noErrors = bitMask != 0;
}
for (int i = 0; i < k; i++)
{
outBuffer[i] = (byte)((vector & msb) == 0 ? 0 : 1);
vector <<= 1;
}
return(noErrors);
}
public int SysInfoPDU(LogicChannel channelData, int offset, ReceivedData result)
{
var subType = TetraUtils.BitsToByte(channelData.Ptr, offset, 2);
result.SetValue(GlobalNames.MAC_Broadcast_Type, subType);
offset += 2;
switch (subType)
{
case 1:
//Debug.Write(" AcсessDef_PDU");
offset = Global.ParseParams(channelData, offset, _accessDefineRules, result);
break;
case 0:
//Debug.Write(" Broadcast_PDU");
offset = Global.ParseParams(channelData, offset, _sysInfoRules, result);
break;
}
return(offset);
}
private unsafe void ParseTextMessage(LogicChannel channelData, int offset, ReceivedData result)
{
if (result.Contains(GlobalNames.OutOfBuffer))
{
return;
}
var codingSheme = result.Value(GlobalNames.Text_coding_scheme);
Encoding encTable = Encoding.GetEncoding("iso-8859-1");
int symbLength = 8;
switch (codingSheme)
{
case 1:
encTable = Encoding.GetEncoding("iso-8859-1");
break;
case 2:
encTable = Encoding.GetEncoding("iso-8859-2");
break;
case 3:
encTable = Encoding.GetEncoding("iso-8859-3");
break;
case 4:
encTable = Encoding.GetEncoding("iso-8859-4");
break;
case 5:
encTable = Encoding.GetEncoding("iso-8859-5");
break;
case 6:
encTable = Encoding.GetEncoding("iso-8859-6");
break;
case 7:
encTable = Encoding.GetEncoding("iso-8859-7");
break;
case 8:
encTable = Encoding.GetEncoding("iso-8859-8");
break;
case 9:
encTable = Encoding.GetEncoding("iso-8859-9");
break;
case 10:
encTable = Encoding.GetEncoding("iso-8859-10");
break;
case 11:
encTable = Encoding.GetEncoding("iso-8859-13");
break;
case 12:
encTable = Encoding.GetEncoding("iso-8859-14");
break;
case 13:
encTable = Encoding.GetEncoding("iso-8859-15");
break;
case 14:
encTable = Encoding.GetEncoding(437);
break;
case 15:
encTable = Encoding.GetEncoding(737);
break;
case 16:
encTable = Encoding.GetEncoding(850);
break;
case 17:
encTable = Encoding.GetEncoding(852);
break;
case 18:
encTable = Encoding.GetEncoding(855);
break;
case 19:
encTable = Encoding.GetEncoding(857);
break;
case 20:
encTable = Encoding.GetEncoding(860);
break;
case 21:
encTable = Encoding.GetEncoding(861);
break;
case 22:
encTable = Encoding.GetEncoding(863);
break;
case 23:
encTable = Encoding.GetEncoding(865);
break;
case 24:
encTable = Encoding.GetEncoding(866);
break;
case 25:
encTable = Encoding.GetEncoding(869);
break;
default:
break;
result.Add(GlobalNames.UnknowData, 1);
return;
}
Decoder dec = encTable.GetDecoder();
var messageLength = (channelData.Length - offset) / symbLength;
if (messageLength < 0)
{
return;
}
string message;
byte[] symbolsArray = new byte[messageLength];
int index = 0;
while (messageLength > 0)
{
symbolsArray[index++] = TetraUtils.BitsToByte(channelData.Ptr, offset, symbLength);
offset += symbLength;
messageLength--;
}
message = encTable.GetString(symbolsArray);
Debug.WriteLine(" data:" + message);
}
private void ParseCMCEPDU(LogicChannel channelData, int offset, ReceivedData result)
{
var length = 5;
var type = (CmcePrimitivesType)TetraUtils.BitsToInt32(channelData.Ptr, offset, length);
offset += length;
result.Add(GlobalNames.CMCE_Primitives_Type, (int)type);
//Debug.Write(" " + type.ToString());
switch (type)
{
case CmcePrimitivesType.D_Connect:
Global.ParseParams(channelData, offset, _d_connectRules, result);
break;
case CmcePrimitivesType.D_Setup:
Global.ParseParams(channelData, offset, _d_setupRules, result);
break;
case CmcePrimitivesType.D_TX_Granted:
Global.ParseParams(channelData, offset, _d_TX_GrantedRules, result);
break;
case CmcePrimitivesType.D_TX_Ceased:
Global.ParseParams(channelData, offset, _d_TX_CeasedRules, result);
break;
case CmcePrimitivesType.D_Release:
Global.ParseParams(channelData, offset, _d_ReleaseRules, result);
break;
case CmcePrimitivesType.D_Disconnect:
break;
case CmcePrimitivesType.D_Connect_Acknowledgea:
break;
case CmcePrimitivesType.D_Info:
Global.ParseParams(channelData, offset, _d_infoRules, result);
break;
case CmcePrimitivesType.D_SDS_Data:
offset = Global.ParseParams(channelData, offset, _d_SdsDataRules, result);
if (result.Contains(GlobalNames.User_Defined_Data4_Length))
{
var sdsData = new LogicChannel
{
Ptr = channelData.Ptr + offset,
Length = result.Value(GlobalNames.User_Defined_Data4_Length),
};
_sds.ParseSDS(sdsData, 0, result);
}
break;
case CmcePrimitivesType.D_Alert:
case CmcePrimitivesType.D_Call_Proceeding:
case CmcePrimitivesType.D_Status:
case CmcePrimitivesType.D_TX_Continue:
case CmcePrimitivesType.D_TX_Wait:
case CmcePrimitivesType.D_TX_Interrupt:
case CmcePrimitivesType.D_Call_Restore:
case CmcePrimitivesType.D_Facility:
case CmcePrimitivesType.Reserved17:
case CmcePrimitivesType.Reserved18:
case CmcePrimitivesType.Reserved19:
case CmcePrimitivesType.Reserved20:
case CmcePrimitivesType.Reserved21:
case CmcePrimitivesType.Reserved22:
case CmcePrimitivesType.Reserved23:
case CmcePrimitivesType.Reserved24:
case CmcePrimitivesType.Reserved25:
case CmcePrimitivesType.Reserved26:
case CmcePrimitivesType.Reserved27:
case CmcePrimitivesType.Reserved28:
case CmcePrimitivesType.Reserved29:
case CmcePrimitivesType.Reserved30:
case CmcePrimitivesType.CMCE_Function_Not_Supported:
//Debug.Write(" Unknow_CMCE_SDU");
result.Add(GlobalNames.UnknowData, 1);
break;
}
}
public void TmoParseMacPDU(LogicChannel channelData, List <ReceivedData> result)
{
var nullPduLength = 16; // only for receive pi/4 modulation ;
var blockOffset = 0;
var nullPdu = false;
var pduEnd = false;
for (int i = 0; i < 5; i++)
{
var offset = blockOffset;
var pdu = new ReceivedData();
pdu.Add(GlobalNames.CurrTimeSlot, channelData.TimeSlot);
var resourceType = (MAC_PDU_Type)TetraUtils.BitsToInt32(channelData.Ptr, offset, 2);
offset += 2;
pdu.Add(GlobalNames.MAC_PDU_Type, (int)resourceType);
switch (resourceType)
{
case MAC_PDU_Type.Broadcast:
blockOffset = SysInfoPDU(channelData, offset, pdu);
break;
case MAC_PDU_Type.MAC_resource:
ResourcePDU(channelData, offset, pdu);
blockOffset += (pdu.Value(GlobalNames.Length_indication) * 8);
break;
case MAC_PDU_Type.MAC_U_Signal:
if (channelData.Length == 124)
{
UsignalPDU(channelData, offset, pdu);
pduEnd = true;
}
else
{
Debug.Write(" MAC-D-BLCK_PDU");
pduEnd = true;
}
break;
case MAC_PDU_Type.MAC_frag:
var isTheEnd = TetraUtils.BitsToInt32(channelData.Ptr, offset, 1);
offset++;
if (isTheEnd == 0)
{
MacFraqPDU(channelData, offset, pdu);
pduEnd = true;
}
else
{
MacEndPDU(channelData, offset, pdu);
blockOffset += (pdu.Value(GlobalNames.Length_indication) * 8);
}
break;
}
nullPdu = pdu.Contains(GlobalNames.Null_pdu) || pdu.Contains(GlobalNames.OutOfBuffer);
if (nullPdu)
{
pduEnd = true;
}
//if (pdu.ContainsKey(GlobalNames.UnknowData)) nullPdu = true;
if (!nullPdu)
{
result.Add(pdu);
}
if ((blockOffset >= (channelData.Length - nullPduLength)) || pduEnd)
{
break;
}
}
}
public int Process(Burst burst, float *audioOut)
{
var trafficChannel = 0;
BurstReceived = (burst.Type != BurstType.None);
_timeCounter++;
Ber = _averageBer;
if (_timeCounter > 100)
{
Mer = (_badBurstCounter / _timeCounter) * 100.0f;
_timeCounter = 0;
_badBurstCounter = 0;
}
_networkTime.AddTimeSlot();
if (burst.Type == BurstType.None)
{
_haveErrors = true;
if (TetraMode == Mode.TMO)
{
_badBurstCounter++;
//Debug.WriteLine("burst err");
//Debug.Write(string.Format("ts:{0:0} fr:{1:00} Burst_Err", _networkTime.TimeSlot, _networkTime.Frame));
}
return(trafficChannel);
}
_haveErrors = false;
//Debug.WriteLine("");
//Debug.Write(string.Format("ts:{0:0} fr:{1:00}", _networkTime.TimeSlot, _networkTime.Frame));
//Debug.Write(" " + burst.Type.ToString());
_parse.ResetAACH();
_data.Clear();
_syncInfo.Clear();
#region Sync burst
if (burst.Type == BurstType.SYNC)
{
_phyLevel.ExtractSBChannels(burst, _sb1BufferPtr);
_logicChannel = _lowerMac.ExtractLogicChannelFromSB(_sb1BufferPtr, _sb1Buffer.Length);
_badBurstCounter += _logicChannel.CrcIsOk ? 0.0f : 0.5f;
_haveErrors |= !_logicChannel.CrcIsOk;
_averageBer = _averageBer * 0.5f + _lowerMac.Ber * 0.5f;
//Debug.Write(" slot 1:" + (_logicChannel.CrcIsOk ? " OK" : " Err"));
if (_logicChannel.CrcIsOk)
{
_parse.SyncPDU(_logicChannel, _syncInfo);
if (_syncInfo.Value(GlobalNames.SystemCode) < 8)
{
TetraMode = Mode.TMO;
_lowerMac.ScramblerCode = TetraUtils.CreateScramblerCode(_syncInfo.Value(GlobalNames.MCC), _syncInfo.Value(GlobalNames.MNC), _syncInfo.Value(GlobalNames.ColorCode));
_networkTime.Synchronize(_syncInfo.Value(GlobalNames.TimeSlot), _syncInfo.Value(GlobalNames.Frame), _syncInfo.Value(GlobalNames.MultiFrame));
}
else
{
TetraMode = Mode.DMO;
if (_syncInfo.Value(GlobalNames.SYNC_PDU_type) == 0)
{
//Debug.Write(_syncInfo.Value(GlobalNames.Master_slave_link_flag) == 1 ? " Master" : " Slave");
if (_syncInfo.Value(GlobalNames.Master_slave_link_flag) == 1 || _syncInfo.Value(GlobalNames.Communication_type) == 0)
{
_networkTime.SynchronizeMaster(_syncInfo.Value(GlobalNames.TimeSlot), _syncInfo.Value(GlobalNames.Frame));
}
else
{
_networkTime.SynchronizeSlave(_syncInfo.Value(GlobalNames.TimeSlot), _syncInfo.Value(GlobalNames.Frame));
}
}
}
}
else
{
//Debug.WriteLine("Sync SB crc error");
}
_phyLevel.ExtractPhyChannels(TetraMode, burst, _bbBufferPtr, _bkn1BufferPtr, _bkn2BufferPtr);
if (TetraMode == Mode.TMO)
{
_logicChannel = _lowerMac.ExtractLogicChannelFromBKN(_bkn2BufferPtr, _bkn2Buffer.Length);
_logicChannel.TimeSlot = _networkTime.TimeSlot;
_logicChannel.Frame = _networkTime.Frame;
_badBurstCounter += _logicChannel.CrcIsOk ? 0.0f : 0.5f;
_haveErrors |= !_logicChannel.CrcIsOk;
_averageBer = _averageBer * 0.5f + _lowerMac.Ber * 0.5f;
//Debug.Write(" slot 2:" + (_logicChannel.CrcIsOk ? " OK" : " Err"));
if (_logicChannel.CrcIsOk)
{
_parse.TmoParseMacPDU(_logicChannel, _data);
}
else
{
//Debug.WriteLine("Sync BKN2 crc error");
}
}
else
{
_logicChannel = _lowerMac.ExtractLogicChannelFromBKN2(_bkn2BufferPtr, _bkn2Buffer.Length);
_logicChannel.TimeSlot = _networkTime.TimeSlot;
_logicChannel.Frame = _networkTime.Frame;
_badBurstCounter += _logicChannel.CrcIsOk ? 0.0f : 0.5f;
_haveErrors |= !_logicChannel.CrcIsOk;
_averageBer = _averageBer * 0.5f + _lowerMac.Ber * 0.5f;
//Debug.Write(" slot 2:" + (_logicChannel.CrcIsOk ? " OK" : " Err"));
if (_logicChannel.CrcIsOk)
{
_parse.SyncPDUHalfSlot(_logicChannel, _syncInfo);
if (_syncInfo.Value(GlobalNames.Communication_type) == 0)
{
if (_syncInfo.Contains(GlobalNames.MNC) && _syncInfo.Contains(GlobalNames.Source_address))
{
_lowerMac.ScramblerCode = TetraUtils.CreateScramblerCode(_syncInfo.Value(GlobalNames.MNC), _syncInfo.Value(GlobalNames.Source_address));
}
}
else if (_syncInfo.Value(GlobalNames.Communication_type) == 1)
{
if (_syncInfo.Contains(GlobalNames.Repeater_address) && _syncInfo.Contains(GlobalNames.Source_address))
{
_lowerMac.ScramblerCode = TetraUtils.CreateScramblerCode(_syncInfo.Value(GlobalNames.Repeater_address), _syncInfo.Value(GlobalNames.Source_address));
}
}
}
}
UpdateSyncInfo(_syncInfo);
}
#endregion
UpdatePublicProp();
#region Other burst
if (burst.Type != BurstType.SYNC)
{
_phyLevel.ExtractPhyChannels(TetraMode, burst, _bbBufferPtr, _bkn1BufferPtr, _bkn2BufferPtr);
if (TetraMode == Mode.TMO)
{
_logicChannel = _lowerMac.ExtractLogicChannelFromBB(_bbBufferPtr, _bbBuffer.Length);
_logicChannel.TimeSlot = _networkTime.TimeSlot;
_logicChannel.Frame = _networkTime.Frame;
_badBurstCounter += _logicChannel.CrcIsOk ? 0.0f : 0.2f;
_haveErrors |= !_logicChannel.CrcIsOk;
//Debug.Write(_logicChannel.CrcIsOk ? " BB OK" : " BB Err");
if (_logicChannel.CrcIsOk)
{
_parse.AccessAsignPDU(_logicChannel);
}
else
{
//Debug.WriteLine("BB crc error");
}
}
switch (burst.Type)
{
case BurstType.NDB1:
if (((TetraMode == Mode.TMO) && (_parse.DownLinkChannelType == ChannelType.Traffic)) ||
((TetraMode == Mode.DMO) && (!_networkTime.Frame18) && (_networkTime.TimeSlot == 1)) ||
((TetraMode == Mode.DMO) && (!_networkTime.Frame18Slave) && (_networkTime.TimeSlotSlave == 1)))
{
//Debug.Write(" slot 12:voice");
_logicChannel = _lowerMac.ExtractVoiceDataFromBKN1BKN2(_bkn1BufferPtr, _bkn2BufferPtr, _bkn1Buffer.Length);
var itsAudio = DecodeAudio(audioOut, _logicChannel.Ptr, _logicChannel.Length, false, _networkTime.TimeSlot);
trafficChannel = itsAudio ? _networkTime.TimeSlot : 0;
break;
}
else
{
_logicChannel = _lowerMac.ExtractLogicChannelFromBKN1BKN2(_bkn1BufferPtr, _bkn2BufferPtr, _bkn1Buffer.Length);
_logicChannel.TimeSlot = _networkTime.TimeSlot;
_logicChannel.Frame = _networkTime.Frame;
_badBurstCounter += _logicChannel.CrcIsOk ? 0.0f : 0.8f;
_haveErrors |= !_logicChannel.CrcIsOk;
_averageBer = _averageBer * 0.5f + _lowerMac.Ber * 0.5f;
//Debug.Write(" slot 12:" + (_logicChannel.CrcIsOk ? " OK" : " Err"));
if (_logicChannel.CrcIsOk)
{
if (TetraMode == Mode.TMO)
{
_parse.TmoParseMacPDU(_logicChannel, _data);
}
else
{
_parse.DmoParseMacPDU(_logicChannel, _data);
}
}
else
{
//Debug.WriteLine("BKN1 BKN2 crc error");
}
}
break;
case BurstType.NDB2:
_logicChannel = _lowerMac.ExtractLogicChannelFromBKN(_bkn1BufferPtr, _bkn1Buffer.Length);
_logicChannel.TimeSlot = _networkTime.TimeSlot;
_logicChannel.Frame = _networkTime.Frame;
_badBurstCounter += _logicChannel.CrcIsOk ? 0.0f : 0.4f;
_haveErrors |= !_logicChannel.CrcIsOk;
_averageBer = _averageBer * 0.5f + _lowerMac.Ber * 0.5f;
//Debug.Write(" slot 1:" + (_logicChannel.CrcIsOk ? " OK" : " Err"));
if (_logicChannel.CrcIsOk)
{
if (TetraMode == Mode.TMO)
{
_parse.TmoParseMacPDU(_logicChannel, _data);
}
else
{
_parse.DmoParseMacPDU(_logicChannel, _data);
}
}
else
{
//Debug.WriteLine("BKN1 crc error");
}
if ((_parse.DownLinkChannelType == ChannelType.Traffic && !_parse.HalfSlotStolen) ||
((TetraMode == Mode.DMO) && (!_networkTime.Frame18) && (_networkTime.TimeSlot == 1) && (!_parse.HalfSlotStolen)) ||
((TetraMode == Mode.DMO) && (!_networkTime.Frame18Slave) && (_networkTime.TimeSlotSlave == 1) && (!_parse.HalfSlotStolen)))
{
//Debug.Write(" slot 2:voice");
_logicChannel = _lowerMac.ExtractVoiceDataFromBKN2(_bkn2BufferPtr, _bkn2Buffer.Length);
var itsAudio = DecodeAudio(audioOut, _logicChannel.Ptr, _logicChannel.Length, true, _networkTime.TimeSlot);
trafficChannel = itsAudio ? _networkTime.TimeSlot : 0;
break;
}
else
{
_logicChannel = _lowerMac.ExtractLogicChannelFromBKN(_bkn2BufferPtr, _bkn2Buffer.Length);
_logicChannel.TimeSlot = _networkTime.TimeSlot;
_logicChannel.Frame = _networkTime.Frame;
_badBurstCounter += _logicChannel.CrcIsOk ? 0.0f : 0.4f;
_haveErrors |= !_logicChannel.CrcIsOk;
_averageBer = _averageBer * 0.5f + _lowerMac.Ber * 0.5f;
//Debug.Write(" slot 2:" + (_logicChannel.CrcIsOk ? " OK" : " Err"));
if (_logicChannel.CrcIsOk)
{
if (TetraMode == Mode.TMO)
{
_parse.TmoParseMacPDU(_logicChannel, _data);
}
else
{
_parse.DmoParseMacPDU(_logicChannel, _data);
}
}
else
{
//Debug.WriteLine("BKN2 crc error");
}
}
break;
default:
break;
}
}
if (_data.Count > 0)
{
UpdateData(_data);
}
#endregion
return(trafficChannel);
}
public void Parse(LogicChannel channelData, int offset, ReceivedData result)
{
var llcType = (LLCPduType)TetraUtils.BitsToInt32(channelData.Ptr, offset, 4);
offset += 4;
result.Add(GlobalNames.LLC_Pdu_Type, (int)llcType);
//Debug.WriteLine(" " + llcType.ToString());
var fcsIsGood = true;
switch (llcType)
{
case LLCPduType.BL_ADATA:
offset += 1; //N(R)
offset += 1; //N(S)
break;
case LLCPduType.BL_ADATA_FCS:
offset += 1; //N(R)
offset += 1; //N(S)
fcsIsGood = CalculateFCS(channelData, offset);
break;
case LLCPduType.BL_DATA:
offset += 1; //N(S)
break;
case LLCPduType.BL_DATA_FCS:
offset += 1; //N(S)
fcsIsGood = CalculateFCS(channelData, offset);
break;
case LLCPduType.BL_UDATA:
//No bits here
break;
case LLCPduType.BL_UDATA_FCS:
//No bits here
fcsIsGood = CalculateFCS(channelData, offset);
break;
case LLCPduType.BL_ACK:
offset += 1; //N(R)
break;
case LLCPduType.BL_ACK_FCS:
offset += 1; //N(R)
fcsIsGood = CalculateFCS(channelData, offset);
break;
case LLCPduType.AL_SETUP:
case LLCPduType.AL_DATA_AR_FINAL:
case LLCPduType.AL_UDATA_UFINAL:
case LLCPduType.AL_ACK_RNR:
case LLCPduType.AL_RECONNECT:
case LLCPduType.Reserved1:
case LLCPduType.Reserved2:
case LLCPduType.AL_DISC:
default:
Debug.WriteLine(" Unknow_LLC_PDU " + llcType);
result.Add(GlobalNames.UnknowData, 1);
return;
}
if (fcsIsGood)
{
_mle.Parse(channelData, offset, result);
}
else
{
result.Add(GlobalNames.UnknowData, 1);
}
}
public static int ParseParams(LogicChannel channelData, int offset, Rules[] rules, ReceivedData result)
{
var skipRules = 0;
for (int i = 0; i < rules.Length; i++)
{
if (offset >= channelData.Length)
{
if (!result.Contains(GlobalNames.OutOfBuffer))
{
result.SetValue(GlobalNames.OutOfBuffer, 1);
}
return(offset);
}
if (skipRules > 0)
{
skipRules--;
continue;
}
var param = rules[i];
var value = TetraUtils.BitsToInt32(channelData.Ptr, offset, param.Length);
switch (param.Type)
{
case RulesType.Direct:
if (param.GlobalName != GlobalNames.Reserved)
{
result.SetValue(param.GlobalName, value);
}
offset += param.Length;
continue;
case RulesType.Options_bit:
offset += param.Length;
if (value == 0)
{
return(offset);
}
break;
case RulesType.Presence_bit:
if (value == 0)
{
skipRules = param.Ext1;
}
offset += param.Length;
break;
case RulesType.More_bit:
offset += param.Length;
return(offset);
case RulesType.Switch:
if (result.Value((GlobalNames)rules[i].Ext1) == rules[i].Ext2)
{
if (param.GlobalName != GlobalNames.Reserved)
{
result.SetValue(param.GlobalName, value);
}
offset += param.Length;
}
break;
case RulesType.SwitchNot:
if (result.Value((GlobalNames)rules[i].Ext1) != rules[i].Ext2)
{
if (param.GlobalName != GlobalNames.Reserved)
{
result.SetValue(param.GlobalName, value);
}
offset += param.Length;
}
break;
case RulesType.Jamp:
if (result.Value((GlobalNames)rules[i].Ext1) == rules[i].Ext2)
{
skipRules = param.Ext3;
}
break;
case RulesType.JampNot:
if (result.Value((GlobalNames)rules[i].Ext1) != rules[i].Ext2)
{
skipRules = param.Ext3;
}
break;
case RulesType.Reserved:
{
offset += param.Length;
}
break;
}
}
return(offset);
}
