sdrangel/sdrbase/util/dsc.h

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7.0 KiB
C++

///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2023 Jon Beniston, M7RCE //
// //
// This program is free software; you can redistribute it and/or modify //
// it under the terms of the GNU General Public License as published by //
// the Free Software Foundation as version 3 of the License, or //
// (at your option) any later version. //
// //
// This program is distributed in the hope that it will be useful, //
// but WITHOUT ANY WARRANTY; without even the implied warranty of //
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
// GNU General Public License V3 for more details. //
// //
// You should have received a copy of the GNU General Public License //
// along with this program. If not, see <http://www.gnu.org/licenses/>. //
///////////////////////////////////////////////////////////////////////////////////
#ifndef INCLUDE_UTIL_DSC_H
#define INCLUDE_UTIL_DSC_H
#include "export.h"
#include <QByteArray>
#include <QString>
#include <QDateTime>
// Digital Select Calling
// https://www.itu.int/dms_pubrec/itu-r/rec/m/R-REC-M.493-15-201901-I!!PDF-E.pdf
class SDRBASE_API DSCDecoder {
public:
void init(int offset);
bool decodeBits(int bits);
QByteArray getMessage() const { return m_bytes; }
int getErrors() const { return m_errors; }
static int m_maxBytes;
private:
static const int BUFFER_SIZE = 3;
signed char m_buf[3];
enum State {
PHASING,
FILL_DX,
FILL_RX,
DX,
RX,
DX_EOS,
RX_EOS,
DONE,
NO_EOS
} m_state;
int m_idx;
int m_errors;
int m_phaseIdx;
bool m_eos;
static const signed char m_expectedSymbols[];
QByteArray m_bytes;
bool decodeSymbol(signed char symbol);
static signed char bitsToSymbol(unsigned int bits);
static unsigned char reverse(unsigned char b);
signed char selectSymbol(signed char dx, signed char rx);
};
class SDRBASE_API DSCMessage {
public:
enum FormatSpecifier {
GEOGRAPHIC_CALL = 102,
DISTRESS_ALERT = 112,
GROUP_CALL = 114,
ALL_SHIPS = 116,
SELECTIVE_CALL = 120,
AUTOMATIC_CALL = 123
};
enum Category {
ROUTINE = 100,
SAFETY = 108,
URGENCY = 110,
DISTRESS = 112
};
enum FirstTelecommand {
F3E_G3E_ALL_MODES_TP = 100,
F3E_G3E_DUPLEX_TP = 101,
POLLING = 103,
UNABLE_TO_COMPLY = 104,
END_OF_CALL = 105,
DATA = 106,
J3E_TP = 109,
DISTRESS_ACKNOWLEDGEMENT = 110,
DISTRESS_ALERT_RELAY = 112,
F1B_J2B_TTY_FEC = 113,
F1B_J2B_TTY_AQR = 115,
TEST = 118,
POSITION_UPDATE = 121,
NO_INFORMATION = 126
};
enum SecondTelecommand {
NO_REASON = 100,
CONGESTION = 101,
BUSY = 102,
QUEUE = 103,
BARRED = 104,
NO_OPERATOR = 105,
OPERATOR_UNAVAILABLE = 106,
EQUIPMENT_DISABLED = 107,
UNABLE_TO_USE_CHANNEL = 108,
UNABLE_TO_USE_MODE = 109,
NOT_PARTIES_TO_CONFLICT = 110,
MEDICAL_TRANSPORTS = 111,
PAY_PHONE = 112,
FAX = 113,
NO_INFORMATION_2 = 126
};
enum DistressNature {
FIRE = 100,
FLOODING = 101,
COLLISION = 102,
GROUNDING = 103,
LISTING = 104,
SINKING = 105,
ADRIFT = 106,
UNDESIGNATED = 107,
ABANDONING_SHIP = 108,
PIRACY = 109,
MAN_OVERBOARD = 110,
EPIRB = 112
};
enum EndOfSignal {
REQ = 117,
ACK = 122,
EOS = 127
};
static QMap<FormatSpecifier, QString> m_formatSpecifierStrings;
static QMap<FormatSpecifier, QString> m_formatSpecifierShortStrings;
static QMap<Category, QString> m_categoryStrings;
static QMap<Category, QString> m_categoryShortStrings;
static QMap<FirstTelecommand, QString> m_telecommand1Strings;
static QMap<FirstTelecommand, QString> m_telecommand1ShortStrings;
static QMap<SecondTelecommand, QString> m_telecommand2Strings;
static QMap<SecondTelecommand, QString> m_telecommand2ShortStrings;
static QMap<DistressNature, QString> m_distressNatureStrings;
static QMap<EndOfSignal, QString> m_endOfSignalStrings;
static QMap<EndOfSignal, QString> m_endOfSignalShortStrings;
FormatSpecifier m_formatSpecifier;
bool m_formatSpecifierMatch;
QString m_address;
bool m_hasAddress;
int m_addressLatitude; // For GEOGRAPHIC_CALL
int m_addressLongitude;
int m_addressLatAngle;
int m_addressLonAngle;
Category m_category;
bool m_hasCategory;
QString m_selfId;
FirstTelecommand m_telecommand1;
bool m_hasTelecommand1;
SecondTelecommand m_telecommand2;
bool m_hasTelecommand2;
QString m_distressId;
bool m_hasDistressId;
DistressNature m_distressNature;
bool m_hasDistressNature;
QString m_position;
bool m_hasPosition;
int m_frequency1; // Rx
bool m_hasFrequency1;
QString m_channel1;
bool m_hasChannel1;
int m_frequency2; // Tx
bool m_hasFrequency2;
QString m_channel2;
bool m_hasChannel2;
QString m_number; // Phone number
bool m_hasNumber;
QTime m_time;
bool m_hasTime;
FirstTelecommand m_subsequenceComms;
bool m_hasSubsequenceComms;
EndOfSignal m_eos;
signed char m_ecc; // Error checking code (parity)
signed char m_calculatedECC;
bool m_eccOk;
bool m_valid; // Data is within defined values
QDateTime m_dateTime; // Date/time when received
QByteArray m_data;
DSCMessage(const QByteArray& data, QDateTime dateTime);
QString toString(const QString separator = " ") const;
QString toYaddNetFormat(const QString& id, qint64 frequency) const;
QString formatSpecifier(bool shortString=false) const;
QString category(bool shortString=false) const;
static QString telecommand1(FirstTelecommand telecommand, bool shortString=false);
static QString telecommand2(SecondTelecommand telecommand, bool shortString=false);
static QString distressNature(DistressNature nature);
static QString endOfSignal(EndOfSignal eos, bool shortString=false);
protected:
QString symbolsToDigits(const QByteArray data, int startIdx, int length);
QString formatCoordinates(int latitude, int longitude);
void decode(const QByteArray& data);
void checkECC(const QByteArray& data);
void decodeFrequency(const QByteArray& data, int& idx, int& frequency, QString& channel);
QString formatAddress(const QString &address) const;
QString formatCoordinates(const QString& coords);
};
#endif /* INCLUDE_UTIL_DSC_H */