wfview/rigctld.h

419 wiersze
22 KiB
C++

/* This file contains portions of the Hamlib Interface - API header
* Copyright(c) 2000 - 2003 by Frank Singleton
* Copyright(c) 2000 - 2012 by Stephane Fillod
*/
#ifndef RIGCTLD_H
#define RIGCTLD_H
#include <QObject>
#include <QDebug>
#include <QTcpServer>
#include <QTcpSocket>
#include <QSet>
#include <QDataStream>
#include <map>
#include <vector>
#include <typeindex>
#include "rigcommander.h"
#include "rigstate.h"
#define CONSTANT_64BIT_FLAG(BIT) (1ull << (BIT))
#define RIG_MODE_NONE 0 /*!< '' -- None */
#define RIG_MODE_AM CONSTANT_64BIT_FLAG (0) /*!< \c AM -- Amplitude Modulation */
#define RIG_MODE_CW CONSTANT_64BIT_FLAG (1) /*!< \c CW -- CW "normal" sideband */
#define RIG_MODE_USB CONSTANT_64BIT_FLAG (2) /*!< \c USB -- Upper Side Band */
#define RIG_MODE_LSB CONSTANT_64BIT_FLAG (3) /*!< \c LSB -- Lower Side Band */
#define RIG_MODE_RTTY CONSTANT_64BIT_FLAG (4) /*!< \c RTTY -- Radio Teletype */
#define RIG_MODE_FM CONSTANT_64BIT_FLAG (5) /*!< \c FM -- "narrow" band FM */
#define RIG_MODE_WFM CONSTANT_64BIT_FLAG (6) /*!< \c WFM -- broadcast wide FM */
#define RIG_MODE_CWR CONSTANT_64BIT_FLAG (7) /*!< \c CWR -- CW "reverse" sideband */
#define RIG_MODE_RTTYR CONSTANT_64BIT_FLAG (8) /*!< \c RTTYR -- RTTY "reverse" sideband */
#define RIG_MODE_AMS CONSTANT_64BIT_FLAG (9) /*!< \c AMS -- Amplitude Modulation Synchronous */
#define RIG_MODE_PKTLSB CONSTANT_64BIT_FLAG (10) /*!< \c PKTLSB -- Packet/Digital LSB mode (dedicated port) */
#define RIG_MODE_PKTUSB CONSTANT_64BIT_FLAG (11) /*!< \c PKTUSB -- Packet/Digital USB mode (dedicated port) */
#define RIG_MODE_PKTFM CONSTANT_64BIT_FLAG (12) /*!< \c PKTFM -- Packet/Digital FM mode (dedicated port) */
#define RIG_MODE_ECSSUSB CONSTANT_64BIT_FLAG (13) /*!< \c ECSSUSB -- Exalted Carrier Single Sideband USB */
#define RIG_MODE_ECSSLSB CONSTANT_64BIT_FLAG (14) /*!< \c ECSSLSB -- Exalted Carrier Single Sideband LSB */
#define RIG_MODE_FAX CONSTANT_64BIT_FLAG (15) /*!< \c FAX -- Facsimile Mode */
#define RIG_MODE_SAM CONSTANT_64BIT_FLAG (16) /*!< \c SAM -- Synchronous AM double sideband */
#define RIG_MODE_SAL CONSTANT_64BIT_FLAG (17) /*!< \c SAL -- Synchronous AM lower sideband */
#define RIG_MODE_SAH CONSTANT_64BIT_FLAG (18) /*!< \c SAH -- Synchronous AM upper (higher) sideband */
#define RIG_MODE_DSB CONSTANT_64BIT_FLAG (19) /*!< \c DSB -- Double sideband suppressed carrier */
#define RIG_MODE_FMN CONSTANT_64BIT_FLAG (21) /*!< \c FMN -- FM Narrow Kenwood ts990s */
#define RIG_MODE_PKTAM CONSTANT_64BIT_FLAG (22) /*!< \c PKTAM -- Packet/Digital AM mode e.g. IC7300 */
#define RIG_MODE_P25 CONSTANT_64BIT_FLAG (23) /*!< \c P25 -- APCO/P25 VHF,UHF digital mode IC-R8600 */
#define RIG_MODE_DSTAR CONSTANT_64BIT_FLAG (24) /*!< \c D-Star -- VHF,UHF digital mode IC-R8600 */
#define RIG_MODE_DPMR CONSTANT_64BIT_FLAG (25) /*!< \c dPMR -- digital PMR, VHF,UHF digital mode IC-R8600 */
#define RIG_MODE_NXDNVN CONSTANT_64BIT_FLAG (26) /*!< \c NXDN-VN -- VHF,UHF digital mode IC-R8600 */
#define RIG_MODE_NXDN_N CONSTANT_64BIT_FLAG (27) /*!< \c NXDN-N -- VHF,UHF digital mode IC-R8600 */
#define RIG_MODE_DCR CONSTANT_64BIT_FLAG (28) /*!< \c DCR -- VHF,UHF digital mode IC-R8600 */
#define RIG_MODE_AMN CONSTANT_64BIT_FLAG (29) /*!< \c AM-N -- Narrow band AM mode IC-R30 */
#define RIG_MODE_PSK CONSTANT_64BIT_FLAG (30) /*!< \c PSK - Kenwood PSK and others */
#define RIG_MODE_PSKR CONSTANT_64BIT_FLAG (31) /*!< \c PSKR - Kenwood PSKR and others */
#define RIG_MODE_DD CONSTANT_64BIT_FLAG (32) /*!< \c DD Mode IC-9700 */
#define RIG_MODE_C4FM CONSTANT_64BIT_FLAG (33) /*!< \c Yaesu C4FM mode */
#define RIG_MODE_PKTFMN CONSTANT_64BIT_FLAG (34) /*!< \c Yaesu DATA-FM-N */
#define RIG_MODE_SPEC CONSTANT_64BIT_FLAG (35) /*!< \c Unfiltered as in PowerSDR */
#define RIG_LEVEL_NONE 0 /*!< '' -- No Level */
#define RIG_LEVEL_PREAMP CONSTANT_64BIT_FLAG(0) /*!< \c PREAMP -- Preamp, arg int (dB) */
#define RIG_LEVEL_ATT CONSTANT_64BIT_FLAG(1) /*!< \c ATT -- Attenuator, arg int (dB) */
#define RIG_LEVEL_VOXDELAY CONSTANT_64BIT_FLAG(2) /*!< \c VOXDELAY -- VOX delay, arg int (tenth of seconds) */
#define RIG_LEVEL_AF CONSTANT_64BIT_FLAG(3) /*!< \c AF -- Volume, arg float [0.0 ... 1.0] */
#define RIG_LEVEL_RF CONSTANT_64BIT_FLAG(4) /*!< \c RF -- RF gain (not TX power) arg float [0.0 ... 1.0] */
#define RIG_LEVEL_SQL CONSTANT_64BIT_FLAG(5) /*!< \c SQL -- Squelch, arg float [0.0 ... 1.0] */
#define RIG_LEVEL_IF CONSTANT_64BIT_FLAG(6) /*!< \c IF -- IF, arg int (Hz) */
#define RIG_LEVEL_APF CONSTANT_64BIT_FLAG(7) /*!< \c APF -- Audio Peak Filter, arg float [0.0 ... 1.0] */
#define RIG_LEVEL_NR CONSTANT_64BIT_FLAG(8) /*!< \c NR -- Noise Reduction, arg float [0.0 ... 1.0] */
#define RIG_LEVEL_PBT_IN CONSTANT_64BIT_FLAG(9) /*!< \c PBT_IN -- Twin PBT (inside) arg float [0.0 ... 1.0] */
#define RIG_LEVEL_PBT_OUT CONSTANT_64BIT_FLAG(10) /*!< \c PBT_OUT -- Twin PBT (outside) arg float [0.0 ... 1.0] */
#define RIG_LEVEL_CWPITCH CONSTANT_64BIT_FLAG(11) /*!< \c CWPITCH -- CW pitch, arg int (Hz) */
#define RIG_LEVEL_RFPOWER CONSTANT_64BIT_FLAG(12) /*!< \c RFPOWER -- RF Power, arg float [0.0 ... 1.0] */
#define RIG_LEVEL_MICGAIN CONSTANT_64BIT_FLAG(13) /*!< \c MICGAIN -- MIC Gain, arg float [0.0 ... 1.0] */
#define RIG_LEVEL_KEYSPD CONSTANT_64BIT_FLAG(14) /*!< \c KEYSPD -- Key Speed, arg int (WPM) */
#define RIG_LEVEL_NOTCHF CONSTANT_64BIT_FLAG(15) /*!< \c NOTCHF -- Notch Freq., arg int (Hz) */
#define RIG_LEVEL_COMP CONSTANT_64BIT_FLAG(16) /*!< \c COMP -- Compressor, arg float [0.0 ... 1.0] */
#define RIG_LEVEL_AGC CONSTANT_64BIT_FLAG(17) /*!< \c AGC -- AGC, arg int (see enum agc_level_e) */
#define RIG_LEVEL_BKINDL CONSTANT_64BIT_FLAG(18) /*!< \c BKINDL -- BKin Delay, arg int (tenth of dots) */
#define RIG_LEVEL_BALANCE CONSTANT_64BIT_FLAG(19) /*!< \c BAL -- Balance (Dual Watch) arg float [0.0 ... 1.0] */
#define RIG_LEVEL_METER CONSTANT_64BIT_FLAG(20) /*!< \c METER -- Display meter, arg int (see enum meter_level_e) */
#define RIG_LEVEL_VOXGAIN CONSTANT_64BIT_FLAG(21) /*!< \c VOXGAIN -- VOX gain level, arg float [0.0 ... 1.0] */
#define RIG_LEVEL_ANTIVOX CONSTANT_64BIT_FLAG(22) /*!< \c ANTIVOX -- anti-VOX level, arg float [0.0 ... 1.0] */
#define RIG_LEVEL_SLOPE_LOW CONSTANT_64BIT_FLAG(23) /*!< \c SLOPE_LOW -- Slope tune, low frequency cut, arg int (Hz) */
#define RIG_LEVEL_SLOPE_HIGH CONSTANT_64BIT_FLAG(24) /*!< \c SLOPE_HIGH -- Slope tune, high frequency cut, arg int (Hz) */
#define RIG_LEVEL_BKIN_DLYMS CONSTANT_64BIT_FLAG(25) /*!< \c BKIN_DLYMS -- BKin Delay, arg int Milliseconds */
/*!< These are not settable */
#define RIG_LEVEL_RAWSTR CONSTANT_64BIT_FLAG(26) /*!< \c RAWSTR -- Raw (A/D) value for signal strength, specific to each rig, arg int */
//#define RIG_LEVEL_SQLSTAT CONSTANT_64BIT_FLAG(27) /*!< \c SQLSTAT -- SQL status, arg int (open=1/closed=0). Deprecated, use get_dcd instead */
#define RIG_LEVEL_SWR CONSTANT_64BIT_FLAG(28) /*!< \c SWR -- SWR, arg float [0.0 ... infinite] */
#define RIG_LEVEL_ALC CONSTANT_64BIT_FLAG(29) /*!< \c ALC -- ALC, arg float */
#define RIG_LEVEL_STRENGTH CONSTANT_64BIT_FLAG(30) /*!< \c STRENGTH -- Effective (calibrated) signal strength relative to S9, arg int (dB) */
/* RIG_LEVEL_BWC (1<<31) */ /*!< Bandwidth Control, arg int (Hz) */
#define RIG_LEVEL_RFPOWER_METER CONSTANT_64BIT_FLAG(32) /*!< \c RFPOWER_METER -- RF power output meter, arg float [0.0 ... 1.0] (percentage of maximum power) */
#define RIG_LEVEL_COMP_METER CONSTANT_64BIT_FLAG(33) /*!< \c COMP_METER -- Audio output level compression meter, arg float (dB) */
#define RIG_LEVEL_VD_METER CONSTANT_64BIT_FLAG(34) /*!< \c VD_METER -- Input voltage level meter, arg float (V, volts) */
#define RIG_LEVEL_ID_METER CONSTANT_64BIT_FLAG(35) /*!< \c ID_METER -- Current draw meter, arg float (A, amperes) */
#define RIG_LEVEL_NOTCHF_RAW CONSTANT_64BIT_FLAG(36) /*!< \c NOTCHF_RAW -- Notch Freq., arg float [0.0 ... 1.0] */
#define RIG_LEVEL_MONITOR_GAIN CONSTANT_64BIT_FLAG(37) /*!< \c MONITOR_GAIN -- Monitor gain (level for monitoring of transmitted audio) arg float [0.0 ... 1.0] */
#define RIG_LEVEL_NB CONSTANT_64BIT_FLAG(38) /*!< \c NB -- Noise Blanker level, arg float [0.0 ... 1.0] */
#define RIG_LEVEL_RFPOWER_METER_WATTS CONSTANT_64BIT_FLAG(39) /*!< \c RFPOWER_METER_WATTS -- RF power output meter, arg float [0.0 ... MAX] (output power in watts) */
#define RIG_LEVEL_SPECTRUM_MODE CONSTANT_64BIT_FLAG(40) /*!< \c SPECTRUM_MODE -- Spectrum scope mode, arg int (see enum rig_spectrum_mode_e). Supported modes defined in rig caps. */
#define RIG_LEVEL_SPECTRUM_SPAN CONSTANT_64BIT_FLAG(41) /*!< \c SPECTRUM_SPAN -- Spectrum scope span in center mode, arg int (Hz). Supported spans defined in rig caps. */
#define RIG_LEVEL_SPECTRUM_EDGE_LOW CONSTANT_64BIT_FLAG(42) /*!< \c SPECTRUM_EDGE_LOW -- Spectrum scope low edge in fixed mode, arg int (Hz) */
#define RIG_LEVEL_SPECTRUM_EDGE_HIGH CONSTANT_64BIT_FLAG(43) /*!< \c SPECTRUM_EDGE_HIGH -- Spectrum scope high edge in fixed mode, arg int (Hz) */
#define RIG_LEVEL_SPECTRUM_SPEED CONSTANT_64BIT_FLAG(44) /*!< \c SPECTRUM_SPEED -- Spectrum scope update speed, arg int (highest is fastest, define rig-specific granularity) */
#define RIG_LEVEL_SPECTRUM_REF CONSTANT_64BIT_FLAG(45) /*!< \c SPECTRUM_REF -- Spectrum scope reference display level, arg float (dB, define rig-specific granularity) */
#define RIG_LEVEL_SPECTRUM_AVG CONSTANT_64BIT_FLAG(46) /*!< \c SPECTRUM_AVG -- Spectrum scope averaging mode, arg int (see struct rig_spectrum_avg_mode). Supported averaging modes defined in rig caps. */
#define RIG_LEVEL_SPECTRUM_ATT CONSTANT_64BIT_FLAG(47) /*!< \c SPECTRUM_ATT -- Spectrum scope attenuator, arg int (dB). Supported attenuator values defined in rig caps. */
#define RIG_LEVEL_TEMP_METER CONSTANT_64BIT_FLAG(48) /*!< \c TEMP_METER -- arg int (C, centigrade) */
#define RIG_FUNC_NONE 0 /*!< '' -- No Function */
#define RIG_FUNC_FAGC CONSTANT_64BIT_FLAG (0) /*!< \c FAGC -- Fast AGC */
#define RIG_FUNC_NB CONSTANT_64BIT_FLAG (1) /*!< \c NB -- Noise Blanker */
#define RIG_FUNC_COMP CONSTANT_64BIT_FLAG (2) /*!< \c COMP -- Speech Compression */
#define RIG_FUNC_VOX CONSTANT_64BIT_FLAG (3) /*!< \c VOX -- Voice Operated Relay */
#define RIG_FUNC_TONE CONSTANT_64BIT_FLAG (4) /*!< \c TONE -- CTCSS Tone TX */
#define RIG_FUNC_TSQL CONSTANT_64BIT_FLAG (5) /*!< \c TSQL -- CTCSS Activate/De-activate RX */
#define RIG_FUNC_SBKIN CONSTANT_64BIT_FLAG (6) /*!< \c SBKIN -- Semi Break-in (CW mode) */
#define RIG_FUNC_FBKIN CONSTANT_64BIT_FLAG (7) /*!< \c FBKIN -- Full Break-in (CW mode) */
#define RIG_FUNC_ANF CONSTANT_64BIT_FLAG (8) /*!< \c ANF -- Automatic Notch Filter (DSP) */
#define RIG_FUNC_NR CONSTANT_64BIT_FLAG (9) /*!< \c NR -- Noise Reduction (DSP) */
#define RIG_FUNC_AIP CONSTANT_64BIT_FLAG (10) /*!< \c AIP -- RF pre-amp (AIP on Kenwood, IPO on Yaesu, etc.) */
#define RIG_FUNC_APF CONSTANT_64BIT_FLAG (11) /*!< \c APF -- Auto Passband/Audio Peak Filter */
#define RIG_FUNC_MON CONSTANT_64BIT_FLAG (12) /*!< \c MON -- Monitor transmitted signal */
#define RIG_FUNC_MN CONSTANT_64BIT_FLAG (13) /*!< \c MN -- Manual Notch */
#define RIG_FUNC_RF CONSTANT_64BIT_FLAG (14) /*!< \c RF -- RTTY Filter */
#define RIG_FUNC_ARO CONSTANT_64BIT_FLAG (15) /*!< \c ARO -- Auto Repeater Offset */
#define RIG_FUNC_LOCK CONSTANT_64BIT_FLAG (16) /*!< \c LOCK -- Lock */
#define RIG_FUNC_MUTE CONSTANT_64BIT_FLAG (17) /*!< \c MUTE -- Mute */
#define RIG_FUNC_VSC CONSTANT_64BIT_FLAG (18) /*!< \c VSC -- Voice Scan Control */
#define RIG_FUNC_REV CONSTANT_64BIT_FLAG (19) /*!< \c REV -- Reverse transmit and receive frequencies */
#define RIG_FUNC_SQL CONSTANT_64BIT_FLAG (20) /*!< \c SQL -- Turn Squelch Monitor on/off */
#define RIG_FUNC_ABM CONSTANT_64BIT_FLAG (21) /*!< \c ABM -- Auto Band Mode */
#define RIG_FUNC_BC CONSTANT_64BIT_FLAG (22) /*!< \c BC -- Beat Canceller */
#define RIG_FUNC_MBC CONSTANT_64BIT_FLAG (23) /*!< \c MBC -- Manual Beat Canceller */
#define RIG_FUNC_RIT CONSTANT_64BIT_FLAG (24) /*!< \c RIT -- Receiver Incremental Tuning */
#define RIG_FUNC_AFC CONSTANT_64BIT_FLAG (25) /*!< \c AFC -- Auto Frequency Control ON/OFF */
#define RIG_FUNC_SATMODE CONSTANT_64BIT_FLAG (26) /*!< \c SATMODE -- Satellite mode ON/OFF */
#define RIG_FUNC_SCOPE CONSTANT_64BIT_FLAG (27) /*!< \c SCOPE -- Simple bandscope ON/OFF */
#define RIG_FUNC_RESUME CONSTANT_64BIT_FLAG (28) /*!< \c RESUME -- Scan auto-resume */
#define RIG_FUNC_TBURST CONSTANT_64BIT_FLAG (29) /*!< \c TBURST -- 1750 Hz tone burst */
#define RIG_FUNC_TUNER CONSTANT_64BIT_FLAG (30) /*!< \c TUNER -- Enable automatic tuner */
#define RIG_FUNC_XIT CONSTANT_64BIT_FLAG (31) /*!< \c XIT -- Transmitter Incremental Tuning */
#define RIG_FUNC_NB2 CONSTANT_64BIT_FLAG (32) /*!< \c NB2 -- 2nd Noise Blanker */
#define RIG_FUNC_CSQL CONSTANT_64BIT_FLAG (33) /*!< \c CSQL -- DCS Squelch setting */
#define RIG_FUNC_AFLT CONSTANT_64BIT_FLAG (34) /*!< \c AFLT -- AF Filter setting */
#define RIG_FUNC_ANL CONSTANT_64BIT_FLAG (35) /*!< \c ANL -- Noise limiter setting */
#define RIG_FUNC_BC2 CONSTANT_64BIT_FLAG (36) /*!< \c BC2 -- 2nd Beat Cancel */
#define RIG_FUNC_DUAL_WATCH CONSTANT_64BIT_FLAG (37) /*!< \c DUAL_WATCH -- Dual Watch / Sub Receiver */
#define RIG_FUNC_DIVERSITY CONSTANT_64BIT_FLAG (38) /*!< \c DIVERSITY -- Diversity receive */
#define RIG_FUNC_DSQL CONSTANT_64BIT_FLAG (39) /*!< \c DSQL -- Digital modes squelch */
#define RIG_FUNC_SCEN CONSTANT_64BIT_FLAG (40) /*!< \c SCEN -- scrambler/encryption */
#define RIG_FUNC_SLICE CONSTANT_64BIT_FLAG (41) /*!< \c Rig slice selection -- Flex */
#define RIG_FUNC_TRANSCEIVE CONSTANT_64BIT_FLAG (42) /*!< \c TRANSCEIVE -- Send radio state changes automatically ON/OFF */
#define RIG_FUNC_SPECTRUM CONSTANT_64BIT_FLAG (43) /*!< \c SPECTRUM -- Spectrum scope data output ON/OFF */
#define RIG_FUNC_SPECTRUM_HOLD CONSTANT_64BIT_FLAG (44) /*!< \c SPECTRUM_HOLD -- Pause spectrum scope updates ON/OFF */
#if 0
static struct
{
quint64 func;
const char* str;
} rig_func_str[] =
{
{ RIG_FUNC_FAGC, "FAGC" },
{ RIG_FUNC_NB, "NB" },
{ RIG_FUNC_COMP, "COMP" },
{ RIG_FUNC_VOX, "VOX" },
{ RIG_FUNC_TONE, "TONE" },
{ RIG_FUNC_TSQL, "TSQL" },
{ RIG_FUNC_SBKIN, "SBKIN" },
{ RIG_FUNC_FBKIN, "FBKIN" },
{ RIG_FUNC_ANF, "ANF" },
{ RIG_FUNC_NR, "NR" },
{ RIG_FUNC_AIP, "AIP" },
{ RIG_FUNC_APF, "APF" },
{ RIG_FUNC_MON, "MON" },
{ RIG_FUNC_MN, "MN" },
{ RIG_FUNC_RF, "RF" },
{ RIG_FUNC_ARO, "ARO" },
{ RIG_FUNC_LOCK, "LOCK" },
{ RIG_FUNC_MUTE, "MUTE" },
{ RIG_FUNC_VSC, "VSC" },
{ RIG_FUNC_REV, "REV" },
{ RIG_FUNC_SQL, "SQL" },
{ RIG_FUNC_ABM, "ABM" },
{ RIG_FUNC_BC, "BC" },
{ RIG_FUNC_MBC, "MBC" },
{ RIG_FUNC_RIT, "RIT" },
{ RIG_FUNC_AFC, "AFC" },
{ RIG_FUNC_SATMODE, "SATMODE" },
{ RIG_FUNC_SCOPE, "SCOPE" },
{ RIG_FUNC_RESUME, "RESUME" },
{ RIG_FUNC_TBURST, "TBURST" },
{ RIG_FUNC_TUNER, "TUNER" },
{ RIG_FUNC_XIT, "XIT" },
{ RIG_FUNC_NB2, "NB2" },
{ RIG_FUNC_DSQL, "DSQL" },
{ RIG_FUNC_AFLT, "AFLT" },
{ RIG_FUNC_ANL, "ANL" },
{ RIG_FUNC_BC2, "BC2" },
{ RIG_FUNC_DUAL_WATCH, "DUAL_WATCH"},
{ RIG_FUNC_DIVERSITY, "DIVERSITY"},
{ RIG_FUNC_CSQL, "CSQL" },
{ RIG_FUNC_SCEN, "SCEN" },
{ RIG_FUNC_TRANSCEIVE, "TRANSCEIVE" },
{ RIG_FUNC_SPECTRUM, "SPECTRUM" },
{ RIG_FUNC_SPECTRUM_HOLD, "SPECTRUM_HOLD" },
{ RIG_FUNC_NONE, "" },
};
static struct
{
quint64 level;
const char* str;
} rig_level_str[] =
{
{ RIG_LEVEL_PREAMP, "PREAMP" },
{ RIG_LEVEL_ATT, "ATT" },
{ RIG_LEVEL_VOXDELAY, "VOXDELAY" },
{ RIG_LEVEL_AF, "AF" },
{ RIG_LEVEL_RF, "RF" },
{ RIG_LEVEL_SQL, "SQL" },
{ RIG_LEVEL_IF, "IF" },
{ RIG_LEVEL_APF, "APF" },
{ RIG_LEVEL_NR, "NR" },
{ RIG_LEVEL_PBT_IN, "PBT_IN" },
{ RIG_LEVEL_PBT_OUT, "PBT_OUT" },
{ RIG_LEVEL_CWPITCH, "CWPITCH" },
{ RIG_LEVEL_RFPOWER, "RFPOWER" },
{ RIG_LEVEL_MICGAIN, "MICGAIN" },
{ RIG_LEVEL_KEYSPD, "KEYSPD" },
{ RIG_LEVEL_NOTCHF, "NOTCHF" },
{ RIG_LEVEL_COMP, "COMP" },
{ RIG_LEVEL_AGC, "AGC" },
{ RIG_LEVEL_BKINDL, "BKINDL" },
{ RIG_LEVEL_BALANCE, "BAL" },
{ RIG_LEVEL_METER, "METER" },
{ RIG_LEVEL_VOXGAIN, "VOXGAIN" },
{ RIG_LEVEL_ANTIVOX, "ANTIVOX" },
{ RIG_LEVEL_SLOPE_LOW, "SLOPE_LOW" },
{ RIG_LEVEL_SLOPE_HIGH, "SLOPE_HIGH" },
{ RIG_LEVEL_BKIN_DLYMS, "BKIN_DLYMS" },
{ RIG_LEVEL_RAWSTR, "RAWSTR" },
{ RIG_LEVEL_SWR, "SWR" },
{ RIG_LEVEL_ALC, "ALC" },
{ RIG_LEVEL_STRENGTH, "STRENGTH" },
{ RIG_LEVEL_RFPOWER_METER, "RFPOWER_METER" },
{ RIG_LEVEL_COMP_METER, "COMP_METER" },
{ RIG_LEVEL_VD_METER, "VD_METER" },
{ RIG_LEVEL_ID_METER, "ID_METER" },
{ RIG_LEVEL_NOTCHF_RAW, "NOTCHF_RAW" },
{ RIG_LEVEL_MONITOR_GAIN, "MONITOR_GAIN" },
{ RIG_LEVEL_NB, "NB" },
{ RIG_LEVEL_RFPOWER_METER_WATTS, "RFPOWER_METER_WATTS" },
{ RIG_LEVEL_SPECTRUM_MODE, "SPECTRUM_MODE" },
{ RIG_LEVEL_SPECTRUM_SPAN, "SPECTRUM_SPAN" },
{ RIG_LEVEL_SPECTRUM_EDGE_LOW, "SPECTRUM_EDGE_LOW" },
{ RIG_LEVEL_SPECTRUM_EDGE_HIGH, "SPECTRUM_EDGE_HIGH" },
{ RIG_LEVEL_SPECTRUM_SPEED, "SPECTRUM_SPEED" },
{ RIG_LEVEL_SPECTRUM_REF, "SPECTRUM_REF" },
{ RIG_LEVEL_SPECTRUM_AVG, "SPECTRUM_AVG" },
{ RIG_LEVEL_SPECTRUM_ATT, "SPECTRUM_ATT" },
{ RIG_LEVEL_TEMP_METER, "TEMP_METER" },
{ RIG_LEVEL_NONE, "" },
};
#endif
struct cal_table {
int size; /*!< number of plots in the table */
struct {
int raw; /*!< raw (A/D) value, as returned by \a RIG_LEVEL_RAWSTR */
int val; /*!< associated value, basically the measured dB value */
} table[32]; /*!< table of plots */
};
typedef struct cal_table cal_table_t;
#define IC7610_STR_CAL { 16, \
{ \
{ 0, -54 }, /* S0 */ \
{ 11, -48 }, \
{ 21, -42 }, \
{ 34, -36 }, \
{ 50, -30 }, \
{ 59, -24 }, \
{ 75, -18 }, \
{ 93, -12 }, \
{ 103, -6 }, \
{ 124, 0 }, /* S9 */ \
{ 145, 10 }, \
{ 160, 20 }, \
{ 183, 30 }, \
{ 204, 40 }, \
{ 222, 50 }, \
{ 246, 60 } /* S9+60dB */ \
} }
#define IC7850_STR_CAL { 3, \
{ \
{ 0, -54 }, /* S0 */ \
{ 120, 0 }, /* S9 */ \
{ 241, 60 } /* S9+60 */ \
} }
#define IC7300_STR_CAL { 7, \
{ \
{ 0, -54 }, \
{ 10, -48 }, \
{ 30, -36 }, \
{ 60, -24 }, \
{ 90, -12 }, \
{ 120, 0 }, \
{ 241, 64 } \
} }
class rigCtlD : public QTcpServer
{
Q_OBJECT
public:
explicit rigCtlD(QObject *parent=nullptr);
virtual ~rigCtlD();
int startServer(qint16 port);
void stopServer();
rigCapabilities rigCaps;
signals:
void onStarted();
void onStopped();
void sendData(QString data);
void setFrequency(unsigned char vfo, freqt freq);
void setPTT(bool state);
void setMode(unsigned char mode, unsigned char modeFilter);
void setDataMode(bool dataOn, unsigned char modeFilter);
void setVFO(unsigned char vfo);
void setSplit(unsigned char split);
void setDuplexMode(duplexMode dm);
void stateUpdated();
// Power
void sendPowerOn();
void sendPowerOff();
// Att/preamp
void setAttenuator(unsigned char att);
void setPreamp(unsigned char pre);
//Level set
void setRfGain(unsigned char level);
void setAfGain(unsigned char level);
void setSql(unsigned char level);
void setMicGain(unsigned char);
void setCompLevel(unsigned char);
void setTxPower(unsigned char);
void setMonitorLevel(unsigned char);
void setVoxGain(unsigned char);
void setAntiVoxGain(unsigned char);
void setSpectrumRefLevel(int);
public slots:
virtual void incomingConnection(qintptr socketDescriptor);
void receiveRigCaps(rigCapabilities caps);
void receiveStateInfo(rigstate* state);
// void receiveFrequency(freqt freq);
private:
rigstate* rigState = Q_NULLPTR;
};
class rigCtlClient : public QObject
{
Q_OBJECT
public:
explicit rigCtlClient(int socket, rigCapabilities caps, rigstate *state, rigCtlD* parent = Q_NULLPTR);
int getSocketId();
public slots:
void socketReadyRead();
void socketDisconnected();
void closeSocket();
void sendData(QString data);
protected:
int sessionId;
QTcpSocket* socket = Q_NULLPTR;
QString commandBuffer;
private:
rigCapabilities rigCaps;
rigstate* rigState = Q_NULLPTR;
rigCtlD* parent;
bool chkVfoEecuted=false;
QString getMode(unsigned char mode, bool datamode);
unsigned char getMode(QString modeString);
QString getFilter(unsigned char mode, unsigned char filter);
QString generateFreqRange(bandType band);
unsigned char getAntennas();
quint64 getRadioModes();
QString getAntName(unsigned char ant);
unsigned char antFromName(QString name);
int getCalibratedValue(unsigned char meter,cal_table_t cal);
};
#endif