2 #include <lib/dvb/sec.h>
3 #include <lib/dvb/rotor_calc.h>
5 #if HAVE_DVB_API_VERSION < 3
6 #define INVERSION Inversion
7 #define FREQUENCY Frequency
8 #define FEC_INNER FEC_inner
9 #define SYMBOLRATE SymbolRate
11 #define INVERSION inversion
12 #define FREQUENCY frequency
13 #define FEC_INNER fec_inner
14 #define SYMBOLRATE symbol_rate
16 #include <lib/base/eerror.h>
18 DEFINE_REF(eDVBSatelliteEquipmentControl);
20 eDVBSatelliteEquipmentControl *eDVBSatelliteEquipmentControl::instance;
22 eDVBSatelliteEquipmentControl::eDVBSatelliteEquipmentControl()
23 :m_lnbidx(-1), m_curSat(m_lnbs[0].m_satellites.end())
34 setLNBThreshold(11750000);
36 setDiSEqCMode(eDVBSatelliteDiseqcParameters::V1_0);
37 setToneburst(eDVBSatelliteDiseqcParameters::NO);
39 setCommittedCommand(eDVBSatelliteDiseqcParameters::AA);
40 setCommandOrder(0); // committed, toneburst
44 setVoltageMode(eDVBSatelliteSwitchParameters::HV);
45 setToneMode(eDVBSatelliteSwitchParameters::HILO);
52 setLNBThreshold(11750000);
53 setDiSEqCMode(eDVBSatelliteDiseqcParameters::V1_0);
54 setToneburst(eDVBSatelliteDiseqcParameters::NO);
56 setCommittedCommand(eDVBSatelliteDiseqcParameters::AB);
57 setCommandOrder(0); // committed, toneburst
61 setVoltageMode(eDVBSatelliteSwitchParameters::HV);
62 setToneMode(eDVBSatelliteSwitchParameters::HILO);
65 RESULT eDVBSatelliteEquipmentControl::prepare(iDVBFrontend &frontend, FRONTENDPARAMETERS &parm, eDVBFrontendParametersSatellite &sat)
67 for (int idx=0; idx <= m_lnbidx; ++idx )
69 eDVBSatelliteLNBParameters &lnb_param = m_lnbs[idx];
70 eDVBSatelliteDiseqcParameters &di_param = lnb_param.m_diseqc_parameters;
71 eDVBSatelliteRotorParameters &rotor_param = lnb_param.m_rotor_parameters;
73 std::map<int, eDVBSatelliteSwitchParameters>::iterator sit =
74 lnb_param.m_satellites.find(sat.orbital_position);
75 if ( sit != lnb_param.m_satellites.end())
77 eDVBSatelliteSwitchParameters &sw_param = sit->second;
80 voltage = iDVBFrontend::voltageOff,
81 tone = iDVBFrontend::toneOff,
82 csw = di_param.m_committed_cmd,
83 ucsw = di_param.m_uncommitted_cmd,
84 toneburst = di_param.m_toneburst_param,
91 frontend.getData(0, lastcsw);
92 frontend.getData(1, lastucsw);
93 frontend.getData(2, lastToneburst);
94 frontend.getData(5, lastRotorCmd);
95 frontend.getData(6, curRotorPos);
97 if ( sat.frequency > lnb_param.m_lof_threshold )
101 parm.FREQUENCY = sat.frequency - lnb_param.m_lof_hi;
103 parm.FREQUENCY = sat.frequency - lnb_param.m_lof_lo;
105 parm.INVERSION = (!sat.inversion) ? INVERSION_ON : INVERSION_OFF;
110 case eDVBFrontendParametersSatellite::FEC::fNone:
111 eDebug("no fec set.. assume auto");
112 case eDVBFrontendParametersSatellite::FEC::fAuto:
113 parm.u.qpsk.FEC_INNER = FEC_AUTO;
115 case eDVBFrontendParametersSatellite::FEC::f1_2:
116 parm.u.qpsk.FEC_INNER = FEC_1_2;
118 case eDVBFrontendParametersSatellite::FEC::f2_3:
119 parm.u.qpsk.FEC_INNER = FEC_2_3;
121 case eDVBFrontendParametersSatellite::FEC::f3_4:
122 parm.u.qpsk.FEC_INNER = FEC_3_4;
124 case eDVBFrontendParametersSatellite::FEC::f5_6:
125 parm.u.qpsk.FEC_INNER = FEC_5_6;
127 case eDVBFrontendParametersSatellite::FEC::f7_8:
128 parm.u.qpsk.FEC_INNER = FEC_7_8;
132 parm.u.qpsk.SYMBOLRATE = sat.symbol_rate;
134 if ( sw_param.m_voltage_mode == eDVBSatelliteSwitchParameters::_14V
135 || ( sat.polarisation == eDVBFrontendParametersSatellite::Polarisation::Vertical
136 && sw_param.m_voltage_mode == eDVBSatelliteSwitchParameters::HV ) )
137 voltage = iDVBFrontend::voltage13;
138 else if ( sw_param.m_voltage_mode == eDVBSatelliteSwitchParameters::_18V
139 || ( sat.polarisation == eDVBFrontendParametersSatellite::Polarisation::Horizontal
140 && sw_param.m_voltage_mode == eDVBSatelliteSwitchParameters::HV ) )
141 voltage = iDVBFrontend::voltage18;
143 if ( (sw_param.m_22khz_signal == eDVBSatelliteSwitchParameters::ON)
144 || ( sw_param.m_22khz_signal == eDVBSatelliteSwitchParameters::HILO && hi ) )
145 tone = iDVBFrontend::toneOn;
146 else if ( (sw_param.m_22khz_signal == eDVBSatelliteSwitchParameters::OFF)
147 || ( sw_param.m_22khz_signal == eDVBSatelliteSwitchParameters::HILO && !hi ) )
148 tone = iDVBFrontend::toneOff;
150 eSecCommandList sec_sequence;
152 if (di_param.m_diseqc_mode >= eDVBSatelliteDiseqcParameters::V1_0)
154 if ( di_param.m_committed_cmd < eDVBSatelliteDiseqcParameters::SENDNO )
156 csw = 0xF0 | (csw << 2);
159 if (sat.polarisation == eDVBFrontendParametersSatellite::Polarisation::Horizontal)
164 (di_param.m_committed_cmd != eDVBSatelliteDiseqcParameters::SENDNO);
165 bool changed_csw = send_csw && csw != lastcsw;
168 (di_param.m_uncommitted_cmd && di_param.m_diseqc_mode > eDVBSatelliteDiseqcParameters::V1_0);
169 bool changed_ucsw = send_ucsw && ucsw != lastucsw;
172 (di_param.m_toneburst_param != eDVBSatelliteDiseqcParameters::NO);
173 bool changed_burst = send_burst && toneburst != lastToneburst;
175 bool send_diseqc = changed_ucsw;
177 send_diseqc = changed_burst && (send_ucsw || send_csw);
180 send_diseqc = changed_csw;
181 if ( send_diseqc && di_param.m_use_fast && (csw & 0xF0) && (lastcsw & 0xF0) && ((csw / 4) == (lastcsw / 4)) )
185 if ( send_diseqc || changed_burst )
187 sec_sequence.push_back( eSecCommand(eSecCommand::SET_TONE, iDVBFrontend::toneOff) );
188 eSecCommand::pair compare;
189 compare.voltage = voltage;
191 sec_sequence.push_back( eSecCommand(eSecCommand::IF_VOLTAGE_GOTO, compare) ); // voltage already correct ?
192 sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, voltage) );
193 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 50) );
196 for (int seq_repeat = 0; seq_repeat < (di_param.m_seq_repeat?2:1); ++seq_repeat)
198 if ( di_param.m_command_order & 1 && // toneburst at begin of sequence
199 changed_burst && di_param.m_toneburst_param != eDVBSatelliteDiseqcParameters::NO )
201 sec_sequence.push_back( eSecCommand(eSecCommand::SEND_TONEBURST, di_param.m_toneburst_param) );
202 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 50) );
203 frontend.setData(2, di_param.m_toneburst_param);
215 for ( int i=0; i < di_param.m_repeats; ++i )
218 for ( int i = 0; i < loops;) // fill commands...
220 eDVBDiseqcCommand diseqc;
222 diseqc.data[0] = i ? 0xE1 : 0xE0;
223 diseqc.data[1] = 0x10;
225 if ( !send_csw || (send_ucsw && (di_param.m_command_order & 4) ) )
227 diseqc.data[2] = 0x39;
228 diseqc.data[3] = ucsw;
232 diseqc.data[2] = 0x38;
233 diseqc.data[3] = csw;
235 sec_sequence.push_back( eSecCommand(eSecCommand::SEND_DISEQC, diseqc) );
241 if (diseqc.data[2] == 0x38 && send_ucsw)
243 else if (diseqc.data[2] == 0x39 && send_csw)
247 static int delay = (120 - 54) / 2; // standard says 100msek between two repeated commands
248 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, delay) );
250 diseqc.data[3]=(cmd==0x38) ? csw : ucsw;
251 sec_sequence.push_back( eSecCommand(eSecCommand::SEND_DISEQC, diseqc) );
254 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, delay ) );
256 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 50) );
258 else // delay 120msek when no command is in repeat gap
259 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 120) );
262 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 50) );
264 frontend.setData(0, csw);
265 frontend.setData(1, ucsw);
269 if ( !(di_param.m_command_order & 1) && // toneburst at end of sequence
270 (changed_burst || send_diseqc) && di_param.m_toneburst_param != eDVBSatelliteDiseqcParameters::NO )
272 sec_sequence.push_back( eSecCommand(eSecCommand::SEND_TONEBURST, di_param.m_toneburst_param) );
273 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 50) );
274 frontend.setData(2, di_param.m_toneburst_param);
278 if ( di_param.m_diseqc_mode == eDVBSatelliteDiseqcParameters::V1_2 )
281 bool useGotoXX = false;
283 if (sw_param.m_rotorPosNum) // we have stored rotor pos?
284 RotorCmd=sw_param.m_rotorPosNum;
285 else // we must calc gotoxx cmd
287 eDebug("Entry for %d,%d° not in Rotor Table found... i try gotoXX°", sat.orbital_position / 10, sat.orbital_position % 10 );
290 int satDir = sat.orbital_position < 0 ?
291 eDVBSatelliteRotorParameters::WEST :
292 eDVBSatelliteRotorParameters::EAST;
294 double SatLon = abs(sat.orbital_position)/10.00,
295 SiteLat = rotor_param.m_gotoxx_parameters.m_latitude,
296 SiteLon = rotor_param.m_gotoxx_parameters.m_longitude;
298 if ( rotor_param.m_gotoxx_parameters.m_la_direction == eDVBSatelliteRotorParameters::SOUTH )
301 if ( rotor_param.m_gotoxx_parameters.m_lo_direction == eDVBSatelliteRotorParameters::WEST )
302 SiteLon = 360 - SiteLon;
304 if (satDir == eDVBSatelliteRotorParameters::WEST )
305 SatLon = 360 - SatLon;
307 eDebug("siteLatitude = %lf, siteLongitude = %lf, %lf degrees", SiteLat, SiteLon, SatLon );
308 double satHourAngle =
309 calcSatHourangle( SatLon, SiteLat, SiteLon );
310 eDebug("PolarmountHourAngle=%lf", satHourAngle );
312 static int gotoXTable[10] =
313 { 0x00, 0x02, 0x03, 0x05, 0x06, 0x08, 0x0A, 0x0B, 0x0D, 0x0E };
315 if (SiteLat >= 0) // Northern Hemisphere
317 int tmp=(int)round( fabs( 180 - satHourAngle ) * 10.0 );
318 RotorCmd = (tmp/10)*0x10 + gotoXTable[ tmp % 10 ];
320 if (satHourAngle < 180) // the east
325 else // Southern Hemisphere
327 if (satHourAngle < 180) // the east
329 int tmp=(int)round( fabs( satHourAngle ) * 10.0 );
330 RotorCmd = (tmp/10)*0x10 + gotoXTable[ tmp % 10 ];
335 int tmp=(int)round( fabs( 360 - satHourAngle ) * 10.0 );
336 RotorCmd = (tmp/10)*0x10 + gotoXTable[ tmp % 10 ];
340 eDebug("RotorCmd = %04x", RotorCmd);
342 if ( RotorCmd != lastRotorCmd )
344 if ( changed_burst || send_diseqc )
346 // override first voltage change
347 *(++(++sec_sequence.begin()))=eSecCommand(eSecCommand::SET_VOLTAGE, iDVBFrontend::voltage13);
348 // wait 1 second after first switch diseqc command
349 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 1000) );
351 else // no other diseqc commands before
353 sec_sequence.push_back( eSecCommand(eSecCommand::SET_TONE, iDVBFrontend::toneOff) );
354 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 15) ); // wait 15msec after tone change
355 eSecCommand::pair compare;
356 compare.voltage = voltage;
358 sec_sequence.push_back( eSecCommand(eSecCommand::IF_VOLTAGE_GOTO, compare) ); // voltage already correct ?
359 sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, iDVBFrontend::voltage13) );
360 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 50) ); // wait 50msec after voltage change
363 eDVBDiseqcCommand diseqc;
364 diseqc.data[0] = 0xE0;
365 diseqc.data[1] = 0x31; // positioner
369 diseqc.data[2] = 0x6E; // drive to angular position
370 diseqc.data[3] = ((RotorCmd & 0xFF00) / 0x100);
371 diseqc.data[4] = RotorCmd & 0xFF;
376 diseqc.data[2] = 0x6B; // goto stored sat position
377 diseqc.data[3] = RotorCmd;
380 if ( rotor_param.m_inputpower_parameters.m_use )
381 { // use measure rotor input power to detect rotor state
382 eSecCommand::rotor cmd;
383 // measure idle power values
384 sec_sequence.push_back( eSecCommand(eSecCommand::IF_IDLE_INPUTPOWER_AVAIL_GOTO, +8) ); // already measured?
385 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 50) ); // wait 50msec after voltage change
386 sec_sequence.push_back( eSecCommand(eSecCommand::MEASURE_IDLE_INPUTPOWER, 0) );
387 sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, iDVBFrontend::voltage18) );
388 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 100) ); // wait 100msec before measure
389 sec_sequence.push_back( eSecCommand(eSecCommand::MEASURE_IDLE_INPUTPOWER, 1) );
390 sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, iDVBFrontend::voltage13) ); // back to lower voltage
391 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 50) ); // wait 50msec
392 ////////////////////////////
393 sec_sequence.push_back( eSecCommand(eSecCommand::SET_POWER_LIMITING_MODE, eSecCommand::modeStatic) );
394 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 50) ); // wait 50msec after voltage change
395 sec_sequence.push_back( eSecCommand(eSecCommand::SEND_DISEQC, diseqc) );
396 sec_sequence.push_back( eSecCommand(eSecCommand::SET_TIMEOUT, 40) ); // 2 seconds rotor start timout
398 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 50) ); // 50msec delay
399 sec_sequence.push_back( eSecCommand(eSecCommand::MEASURE_RUNNING_INPUTPOWER) );
400 cmd.direction=1; // check for running rotor
401 cmd.deltaA=rotor_param.m_inputpower_parameters.m_delta;
404 sec_sequence.push_back( eSecCommand(eSecCommand::IF_INPUTPOWER_DELTA_GOTO, cmd ) ); // check if rotor has started
405 sec_sequence.push_back( eSecCommand(eSecCommand::IF_TIMEOUT_GOTO, +10 ) ); // timeout .. we assume now the rotor is already at the correct position
406 sec_sequence.push_back( eSecCommand(eSecCommand::GOTO, -4) ); // goto loop start
408 sec_sequence.push_back( eSecCommand(eSecCommand::SET_TIMEOUT, 2400) ); // 2 minutes running timeout
409 sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, iDVBFrontend::voltage18) );
410 sec_sequence.push_back( eSecCommand(eSecCommand::SET_POWER_LIMITING_MODE, eSecCommand::modeDynamic) );
411 // rotor running loop
412 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 50) ); // wait 50msec
413 sec_sequence.push_back( eSecCommand(eSecCommand::MEASURE_RUNNING_INPUTPOWER) );
414 cmd.direction=0; // check for stopped rotor
416 sec_sequence.push_back( eSecCommand(eSecCommand::IF_INPUTPOWER_DELTA_GOTO, cmd ) );
417 sec_sequence.push_back( eSecCommand(eSecCommand::IF_TIMEOUT_GOTO, +3 ) ); // timeout ? this should never happen
418 sec_sequence.push_back( eSecCommand(eSecCommand::GOTO, -4) ); // running loop start
419 /////////////////////
420 sec_sequence.push_back( eSecCommand(eSecCommand::UPDATE_CURRENT_ROTORPARAMS) );
421 frontend.setData(3, RotorCmd);
422 frontend.setData(4, sat.orbital_position);
425 eFatal("rotor turning without inputpowermeasure not implemented yet");
430 eSecCommand::pair compare;
431 compare.voltage = voltage;
433 sec_sequence.push_back( eSecCommand(eSecCommand::IF_VOLTAGE_GOTO, compare) ); // voltage already correct ?
434 sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, voltage) );
435 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 10) );
437 sec_sequence.push_back( eSecCommand(eSecCommand::SET_TONE, tone) );
438 sec_sequence.push_back( eSecCommand(eSecCommand::SLEEP, 15) );
440 frontend.setSecSequence(sec_sequence);
446 eDebug("found no satellite configuration for orbital position (%d)", sat.orbital_position );
451 RESULT eDVBSatelliteEquipmentControl::clear()
453 for (int i=0; i < m_lnbidx; ++i)
455 m_lnbs[i].m_satellites.clear();
456 m_lnbs[i].tuner_mask = 0;
462 /* LNB Specific Parameters */
463 RESULT eDVBSatelliteEquipmentControl::addLNB()
465 if ( m_lnbidx < (int)(sizeof(m_lnbs) / sizeof(eDVBSatelliteLNBParameters)))
466 m_curSat=m_lnbs[++m_lnbidx].m_satellites.end();
469 eDebug("no more LNB free... cnt is %d", m_lnbidx);
475 RESULT eDVBSatelliteEquipmentControl::setLNBTunerMask(int tunermask)
477 if ( currentLNBValid() )
478 m_lnbs[m_lnbidx].tuner_mask = tunermask;
484 RESULT eDVBSatelliteEquipmentControl::setLNBLOFL(int lofl)
486 if ( currentLNBValid() )
487 m_lnbs[m_lnbidx].m_lof_lo = lofl;
493 RESULT eDVBSatelliteEquipmentControl::setLNBLOFH(int lofh)
495 if ( currentLNBValid() )
496 m_lnbs[m_lnbidx].m_lof_hi = lofh;
502 RESULT eDVBSatelliteEquipmentControl::setLNBThreshold(int threshold)
504 if ( currentLNBValid() )
505 m_lnbs[m_lnbidx].m_lof_threshold = threshold;
511 RESULT eDVBSatelliteEquipmentControl::setLNBIncreasedVoltage(bool onoff)
513 if ( currentLNBValid() )
514 m_lnbs[m_lnbidx].m_increased_voltage = onoff;
520 /* DiSEqC Specific Parameters */
521 RESULT eDVBSatelliteEquipmentControl::setDiSEqCMode(int diseqcmode)
523 if ( currentLNBValid() )
524 m_lnbs[m_lnbidx].m_diseqc_parameters.m_diseqc_mode = (eDVBSatelliteDiseqcParameters::t_diseqc_mode)diseqcmode;
530 RESULT eDVBSatelliteEquipmentControl::setToneburst(int toneburst)
532 if ( currentLNBValid() )
533 m_lnbs[m_lnbidx].m_diseqc_parameters.m_toneburst_param = (eDVBSatelliteDiseqcParameters::t_toneburst_param)toneburst;
539 RESULT eDVBSatelliteEquipmentControl::setRepeats(int repeats)
541 if ( currentLNBValid() )
542 m_lnbs[m_lnbidx].m_diseqc_parameters.m_repeats=repeats;
548 RESULT eDVBSatelliteEquipmentControl::setCommittedCommand(int command)
550 if ( currentLNBValid() )
551 m_lnbs[m_lnbidx].m_diseqc_parameters.m_committed_cmd=command;
557 RESULT eDVBSatelliteEquipmentControl::setUncommittedCommand(int command)
559 if ( currentLNBValid() )
560 m_lnbs[m_lnbidx].m_diseqc_parameters.m_uncommitted_cmd = command;
566 RESULT eDVBSatelliteEquipmentControl::setCommandOrder(int order)
568 if ( currentLNBValid() )
569 m_lnbs[m_lnbidx].m_diseqc_parameters.m_command_order=order;
575 RESULT eDVBSatelliteEquipmentControl::setFastDiSEqC(bool onoff)
577 if ( currentLNBValid() )
578 m_lnbs[m_lnbidx].m_diseqc_parameters.m_use_fast=onoff;
584 RESULT eDVBSatelliteEquipmentControl::setSeqRepeat(bool onoff)
586 if ( currentLNBValid() )
587 m_lnbs[m_lnbidx].m_diseqc_parameters.m_seq_repeat = onoff;
593 /* Rotor Specific Parameters */
594 RESULT eDVBSatelliteEquipmentControl::setLongitude(float longitude)
596 if ( currentLNBValid() )
597 m_lnbs[m_lnbidx].m_rotor_parameters.m_gotoxx_parameters.m_longitude=longitude;
603 RESULT eDVBSatelliteEquipmentControl::setLatitude(float latitude)
605 if ( currentLNBValid() )
606 m_lnbs[m_lnbidx].m_rotor_parameters.m_gotoxx_parameters.m_latitude=latitude;
612 RESULT eDVBSatelliteEquipmentControl::setLoDirection(int direction)
614 if ( currentLNBValid() )
615 m_lnbs[m_lnbidx].m_rotor_parameters.m_gotoxx_parameters.m_lo_direction=direction;
621 RESULT eDVBSatelliteEquipmentControl::setLaDirection(int direction)
623 if ( currentLNBValid() )
624 m_lnbs[m_lnbidx].m_rotor_parameters.m_gotoxx_parameters.m_la_direction=direction;
630 RESULT eDVBSatelliteEquipmentControl::setUseInputpower(bool onoff)
632 if ( currentLNBValid() )
633 m_lnbs[m_lnbidx].m_rotor_parameters.m_inputpower_parameters.m_use=onoff;
639 RESULT eDVBSatelliteEquipmentControl::setInputpowerDelta(int delta)
641 if ( currentLNBValid() )
642 m_lnbs[m_lnbidx].m_rotor_parameters.m_inputpower_parameters.m_delta=delta;
648 /* Satellite Specific Parameters */
649 RESULT eDVBSatelliteEquipmentControl::addSatellite(int orbital_position)
651 if ( currentLNBValid() )
653 std::map<int, eDVBSatelliteSwitchParameters>::iterator it =
654 m_lnbs[m_lnbidx].m_satellites.find(orbital_position);
655 if ( it == m_lnbs[m_lnbidx].m_satellites.end() )
657 std::pair<std::map<int, eDVBSatelliteSwitchParameters>::iterator, bool > ret =
658 m_lnbs[m_lnbidx].m_satellites.insert(
659 std::pair<int, eDVBSatelliteSwitchParameters>(orbital_position, eDVBSatelliteSwitchParameters())
662 m_curSat = ret.first;
674 RESULT eDVBSatelliteEquipmentControl::setVoltageMode(int mode)
676 if ( currentLNBValid() && m_curSat != m_lnbs[m_lnbidx].m_satellites.end() )
677 m_curSat->second.m_voltage_mode = (eDVBSatelliteSwitchParameters::t_voltage_mode)mode;
684 RESULT eDVBSatelliteEquipmentControl::setToneMode(int mode)
686 if ( currentLNBValid() )
688 if ( m_curSat != m_lnbs[m_lnbidx].m_satellites.end() )
689 m_curSat->second.m_22khz_signal = (eDVBSatelliteSwitchParameters::t_22khz_signal)mode;
698 RESULT eDVBSatelliteEquipmentControl::setRotorPosNum(int rotor_pos_num)
700 if ( currentLNBValid() )
702 if ( m_curSat != m_lnbs[m_lnbidx].m_satellites.end() )
703 m_curSat->second.m_rotorPosNum=rotor_pos_num;