change iFrontendInformation api
[enigma2.git] / lib / dvb / frontend.cpp
1 #include <lib/dvb/dvb.h>
2 #include <lib/base/eerror.h>
3 #include <lib/base/nconfig.h> // access to python config
4 #include <errno.h>
5 #include <unistd.h>
6 #include <fcntl.h>
7 #include <sys/ioctl.h>
8
9 #ifndef I2C_SLAVE_FORCE
10 #define I2C_SLAVE_FORCE 0x0706
11 #endif
12
13 #if HAVE_DVB_API_VERSION < 3
14 #include <ost/frontend.h>
15 #include <ost/sec.h>
16 #define QAM_AUTO                                (Modulation)6
17 #define TRANSMISSION_MODE_AUTO  (TransmitMode)2
18 #define BANDWIDTH_AUTO                  (BandWidth)3
19 #define GUARD_INTERVAL_AUTO             (GuardInterval)4
20 #define HIERARCHY_AUTO                  (Hierarchy)4
21 #define parm_frequency parm.Frequency
22 #define parm_inversion parm.Inversion
23 #define parm_u_qpsk_symbol_rate parm.u.qpsk.SymbolRate
24 #define parm_u_qpsk_fec_inner parm.u.qpsk.FEC_inner
25 #define parm_u_qam_symbol_rate parm.u.qam.SymbolRate
26 #define parm_u_qam_fec_inner parm.u.qam.FEC_inner
27 #define parm_u_qam_modulation parm.u.qam.QAM
28 #define parm_u_ofdm_bandwidth parm.u.ofdm.bandWidth
29 #define parm_u_ofdm_code_rate_LP parm.u.ofdm.LP_CodeRate
30 #define parm_u_ofdm_code_rate_HP parm.u.ofdm.HP_CodeRate
31 #define parm_u_ofdm_constellation parm.u.ofdm.Constellation
32 #define parm_u_ofdm_transmission_mode parm.u.ofdm.TransmissionMode
33 #define parm_u_ofdm_guard_interval parm.u.ofdm.guardInterval
34 #define parm_u_ofdm_hierarchy_information parm.u.ofdm.HierarchyInformation
35 #else
36 #include <linux/dvb/frontend.h>
37 #define parm_frequency parm.frequency
38 #define parm_inversion parm.inversion
39 #define parm_u_qpsk_symbol_rate parm.u.qpsk.symbol_rate
40 #define parm_u_qpsk_fec_inner parm.u.qpsk.fec_inner
41 #define parm_u_qam_symbol_rate parm.u.qam.symbol_rate
42 #define parm_u_qam_fec_inner parm.u.qam.fec_inner
43 #define parm_u_qam_modulation parm.u.qam.modulation
44 #define parm_u_ofdm_bandwidth parm.u.ofdm.bandwidth
45 #define parm_u_ofdm_code_rate_LP parm.u.ofdm.code_rate_LP
46 #define parm_u_ofdm_code_rate_HP parm.u.ofdm.code_rate_HP
47 #define parm_u_ofdm_constellation parm.u.ofdm.constellation
48 #define parm_u_ofdm_transmission_mode parm.u.ofdm.transmission_mode
49 #define parm_u_ofdm_guard_interval parm.u.ofdm.guard_interval
50 #define parm_u_ofdm_hierarchy_information parm.u.ofdm.hierarchy_information
51 #ifdef FEC_9_10
52         #warning "FEC_9_10 already exist in dvb api ... it seems it is now ready for DVB-S2"
53 #else
54         #define FEC_S2_QPSK_1_2 (fe_code_rate_t)(FEC_AUTO+1)
55         #define FEC_S2_QPSK_2_3 (fe_code_rate_t)(FEC_S2_QPSK_1_2+1)
56         #define FEC_S2_QPSK_3_4 (fe_code_rate_t)(FEC_S2_QPSK_2_3+1)
57         #define FEC_S2_QPSK_5_6 (fe_code_rate_t)(FEC_S2_QPSK_3_4+1)
58         #define FEC_S2_QPSK_7_8 (fe_code_rate_t)(FEC_S2_QPSK_5_6+1)
59         #define FEC_S2_QPSK_8_9 (fe_code_rate_t)(FEC_S2_QPSK_7_8+1)
60         #define FEC_S2_QPSK_3_5 (fe_code_rate_t)(FEC_S2_QPSK_8_9+1)
61         #define FEC_S2_QPSK_4_5 (fe_code_rate_t)(FEC_S2_QPSK_3_5+1)
62         #define FEC_S2_QPSK_9_10 (fe_code_rate_t)(FEC_S2_QPSK_4_5+1)
63         #define FEC_S2_8PSK_1_2 (fe_code_rate_t)(FEC_S2_QPSK_9_10+1)
64         #define FEC_S2_8PSK_2_3 (fe_code_rate_t)(FEC_S2_8PSK_1_2+1)
65         #define FEC_S2_8PSK_3_4 (fe_code_rate_t)(FEC_S2_8PSK_2_3+1)
66         #define FEC_S2_8PSK_5_6 (fe_code_rate_t)(FEC_S2_8PSK_3_4+1)
67         #define FEC_S2_8PSK_7_8 (fe_code_rate_t)(FEC_S2_8PSK_5_6+1)
68         #define FEC_S2_8PSK_8_9 (fe_code_rate_t)(FEC_S2_8PSK_7_8+1)
69         #define FEC_S2_8PSK_3_5 (fe_code_rate_t)(FEC_S2_8PSK_8_9+1)
70         #define FEC_S2_8PSK_4_5 (fe_code_rate_t)(FEC_S2_8PSK_3_5+1)
71         #define FEC_S2_8PSK_9_10 (fe_code_rate_t)(FEC_S2_8PSK_4_5+1)
72 #endif
73 #endif
74
75 #include <dvbsi++/satellite_delivery_system_descriptor.h>
76 #include <dvbsi++/cable_delivery_system_descriptor.h>
77 #include <dvbsi++/terrestrial_delivery_system_descriptor.h>
78
79 void eDVBDiseqcCommand::setCommandString(const char *str)
80 {
81         if (!str)
82                 return;
83         len=0;
84         int slen = strlen(str);
85         if (slen % 2)
86         {
87                 eDebug("invalid diseqc command string length (not 2 byte aligned)");
88                 return;
89         }
90         if (slen > MAX_DISEQC_LENGTH*2)
91         {
92                 eDebug("invalid diseqc command string length (string is to long)");
93                 return;
94         }
95         unsigned char val=0;
96         for (int i=0; i < slen; ++i)
97         {
98                 unsigned char c = str[i];
99                 switch(c)
100                 {
101                         case '0' ... '9': c-=48; break;
102                         case 'a' ... 'f': c-=87; break;
103                         case 'A' ... 'F': c-=55; break;
104                         default:
105                                 eDebug("invalid character in hex string..ignore complete diseqc command !");
106                                 return;
107                 }
108                 if ( i % 2 )
109                 {
110                         val |= c;
111                         data[i/2] = val;
112                 }
113                 else
114                         val = c << 4;
115         }
116         len = slen/2;
117 }
118
119 void eDVBFrontendParametersSatellite::set(const SatelliteDeliverySystemDescriptor &descriptor)
120 {
121         frequency    = descriptor.getFrequency() * 10;
122         symbol_rate  = descriptor.getSymbolRate() * 100;
123         polarisation = descriptor.getPolarization();
124         fec = descriptor.getFecInner();
125         if ( fec != FEC::fNone && fec > FEC::f9_10 )
126                 fec = FEC::fAuto;
127         inversion = Inversion::Unknown;
128         orbital_position  = ((descriptor.getOrbitalPosition() >> 12) & 0xF) * 1000;
129         orbital_position += ((descriptor.getOrbitalPosition() >> 8) & 0xF) * 100;
130         orbital_position += ((descriptor.getOrbitalPosition() >> 4) & 0xF) * 10;
131         orbital_position += ((descriptor.getOrbitalPosition()) & 0xF);
132         if (orbital_position && (!descriptor.getWestEastFlag()))
133                 orbital_position = 3600 - orbital_position;
134         system = descriptor.getModulationSystem();
135         modulation = descriptor.getModulation();
136         if (system == System::DVB_S && modulation == Modulation::M8PSK)
137         {
138                 eDebug("satellite_delivery_descriptor non valid modulation type.. force QPSK");
139                 modulation=QPSK;
140         }
141         roll_off = descriptor.getRollOff();
142         if (system == System::DVB_S2)
143         {
144                 eDebug("SAT DVB-S2 freq %d, %s, pos %d, sr %d, fec %d, modulation %d, roll_off %d",
145                         frequency,
146                         polarisation ? "hor" : "vert",
147                         orbital_position,
148                         symbol_rate, fec,
149                         modulation,
150                         roll_off);
151         }
152         else
153         {
154                 eDebug("SAT DVB-S freq %d, %s, pos %d, sr %d, fec %d",
155                         frequency,
156                         polarisation ? "hor" : "vert",
157                         orbital_position,
158                         symbol_rate, fec);
159         }
160 }
161
162 void eDVBFrontendParametersCable::set(const CableDeliverySystemDescriptor &descriptor)
163 {
164         frequency = descriptor.getFrequency() / 10;
165         symbol_rate = descriptor.getSymbolRate() * 100;
166         fec_inner = descriptor.getFecInner();
167         if ( fec_inner == 0xF )
168                 fec_inner = FEC::fNone;
169         modulation = descriptor.getModulation();
170         if ( modulation > 0x5 )
171                 modulation = Modulation::Auto;
172         inversion = Inversion::Unknown;
173         eDebug("Cable freq %d, mod %d, sr %d, fec %d",
174                 frequency,
175                 modulation, symbol_rate, fec_inner);
176 }
177
178 void eDVBFrontendParametersTerrestrial::set(const TerrestrialDeliverySystemDescriptor &descriptor)
179 {
180         frequency = descriptor.getCentreFrequency() * 10;
181         bandwidth = descriptor.getBandwidth();
182         if ( bandwidth > 2 ) // 5Mhz forced to auto
183                 bandwidth = Bandwidth::BwAuto;
184         code_rate_HP = descriptor.getCodeRateHpStream();
185         if (code_rate_HP > 4)
186                 code_rate_HP = FEC::fAuto;
187         code_rate_LP = descriptor.getCodeRateLpStream();
188         if (code_rate_LP > 4)
189                 code_rate_LP = FEC::fAuto;
190         transmission_mode = descriptor.getTransmissionMode();
191         if (transmission_mode > 1) // TM4k forced to auto
192                 transmission_mode = TransmissionMode::TMAuto;
193         guard_interval = descriptor.getGuardInterval();
194         if (guard_interval > 3)
195                 guard_interval = GuardInterval::GI_Auto;
196         hierarchy = descriptor.getHierarchyInformation()&3;
197         modulation = descriptor.getConstellation();
198         if (modulation > 2)
199                 modulation = Modulation::Auto;
200         inversion = Inversion::Unknown;
201         eDebug("Terr freq %d, bw %d, cr_hp %d, cr_lp %d, tm_mode %d, guard %d, hierarchy %d, const %d",
202                 frequency, bandwidth, code_rate_HP, code_rate_LP, transmission_mode,
203                 guard_interval, hierarchy, modulation);
204 }
205
206 eDVBFrontendParameters::eDVBFrontendParameters(): m_type(-1)
207 {
208 }
209
210 DEFINE_REF(eDVBFrontendParameters);
211
212 RESULT eDVBFrontendParameters::getSystem(int &t) const
213 {
214         if (m_type == -1)
215                 return -1;
216         t = m_type;
217         return 0;
218 }
219
220 RESULT eDVBFrontendParameters::getDVBS(eDVBFrontendParametersSatellite &p) const
221 {
222         if (m_type != iDVBFrontend::feSatellite)
223                 return -1;
224         p = sat;
225         return 0;
226 }
227
228 RESULT eDVBFrontendParameters::getDVBC(eDVBFrontendParametersCable &p) const
229 {
230         if (m_type != iDVBFrontend::feCable)
231                 return -1;
232         p = cable;
233         return 0;
234 }
235
236 RESULT eDVBFrontendParameters::getDVBT(eDVBFrontendParametersTerrestrial &p) const
237 {
238         if (m_type != iDVBFrontend::feTerrestrial)
239                 return -1;
240         p = terrestrial;
241         return 0;
242 }
243
244 RESULT eDVBFrontendParameters::setDVBS(const eDVBFrontendParametersSatellite &p, bool no_rotor_command_on_tune)
245 {
246         sat = p;
247         sat.no_rotor_command_on_tune = no_rotor_command_on_tune;
248         m_type = iDVBFrontend::feSatellite;
249         return 0;
250 }
251
252 RESULT eDVBFrontendParameters::setDVBC(const eDVBFrontendParametersCable &p)
253 {
254         cable = p;
255         m_type = iDVBFrontend::feCable;
256         return 0;
257 }
258
259 RESULT eDVBFrontendParameters::setDVBT(const eDVBFrontendParametersTerrestrial &p)
260 {
261         terrestrial = p;
262         m_type = iDVBFrontend::feTerrestrial;
263         return 0;
264 }
265
266 RESULT eDVBFrontendParameters::calculateDifference(const iDVBFrontendParameters *parm, int &diff, bool exact) const
267 {
268         if (!parm)
269                 return -1;
270         int type;
271         if (parm->getSystem(type))
272                 return -1;
273         if (type != m_type)
274         {
275                 diff = 1<<30; // big difference
276                 return 0;
277         }
278
279         switch (type)
280         {
281         case iDVBFrontend::feSatellite:
282         {
283                 eDVBFrontendParametersSatellite osat;
284                 if (parm->getDVBS(osat))
285                         return -2;
286
287                 if (sat.orbital_position != osat.orbital_position)
288                         diff = 1<<29;
289                 else if (sat.polarisation != osat.polarisation)
290                         diff = 1<<28;
291                 else if (exact && sat.fec != osat.fec && sat.fec != eDVBFrontendParametersSatellite::FEC::fAuto && osat.fec != eDVBFrontendParametersSatellite::FEC::fAuto)
292                         diff = 1<<27;
293                 else if (exact && sat.modulation != osat.modulation && sat.modulation != eDVBFrontendParametersSatellite::Modulation::Auto && osat.modulation != eDVBFrontendParametersSatellite::Modulation::Auto)
294                         diff = 1<<27;
295                 else
296                 {
297                         diff = abs(sat.frequency - osat.frequency);
298                         diff += abs(sat.symbol_rate - osat.symbol_rate);
299                 }
300                 return 0;
301         }
302         case iDVBFrontend::feCable:
303                 eDVBFrontendParametersCable ocable;
304                 if (parm->getDVBC(ocable))
305                         return -2;
306
307                 if (exact && cable.modulation != ocable.modulation
308                         && cable.modulation != eDVBFrontendParametersCable::Modulation::Auto
309                         && ocable.modulation != eDVBFrontendParametersCable::Modulation::Auto)
310                         diff = 1 << 29;
311                 else if (exact && cable.fec_inner != ocable.fec_inner && cable.fec_inner != eDVBFrontendParametersCable::FEC::fAuto && ocable.fec_inner != eDVBFrontendParametersCable::FEC::fAuto)
312                         diff = 1 << 27;
313                 else
314                 {
315                         diff = abs(cable.frequency - ocable.frequency);
316                         diff += abs(cable.symbol_rate - ocable.symbol_rate);
317                 }
318                 return 0;
319         case iDVBFrontend::feTerrestrial:
320                 eDVBFrontendParametersTerrestrial oterrestrial;
321                 if (parm->getDVBT(oterrestrial))
322                         return -2;
323
324
325                 if (exact && oterrestrial.bandwidth != terrestrial.bandwidth &&
326                         oterrestrial.bandwidth != eDVBFrontendParametersTerrestrial::Bandwidth::BwAuto &&
327                         terrestrial.bandwidth != eDVBFrontendParametersTerrestrial::Bandwidth::BwAuto)
328                         diff = 1 << 30;
329                 else if (exact && oterrestrial.modulation != terrestrial.modulation &&
330                         oterrestrial.modulation != eDVBFrontendParametersTerrestrial::Modulation::Auto &&
331                         terrestrial.modulation != eDVBFrontendParametersTerrestrial::Modulation::Auto)
332                         diff = 1 << 30;
333                 else if (exact && oterrestrial.transmission_mode != terrestrial.transmission_mode &&
334                         oterrestrial.transmission_mode != eDVBFrontendParametersTerrestrial::TransmissionMode::TMAuto &&
335                         terrestrial.transmission_mode != eDVBFrontendParametersTerrestrial::TransmissionMode::TMAuto)
336                         diff = 1 << 30;
337                 else if (exact && oterrestrial.guard_interval != terrestrial.guard_interval &&
338                         oterrestrial.guard_interval != eDVBFrontendParametersTerrestrial::GuardInterval::GI_Auto &&
339                         terrestrial.guard_interval != eDVBFrontendParametersTerrestrial::GuardInterval::GI_Auto)
340                         diff = 1 << 30;
341                 else if (exact && oterrestrial.hierarchy != terrestrial.hierarchy &&
342                         oterrestrial.hierarchy != eDVBFrontendParametersTerrestrial::Hierarchy::HAuto &&
343                         terrestrial.hierarchy != eDVBFrontendParametersTerrestrial::Hierarchy::HAuto)
344                         diff = 1 << 30;
345                 else if (exact && oterrestrial.code_rate_LP != terrestrial.code_rate_LP &&
346                         oterrestrial.code_rate_LP != eDVBFrontendParametersTerrestrial::FEC::fAuto &&
347                         terrestrial.code_rate_LP != eDVBFrontendParametersTerrestrial::FEC::fAuto)
348                         diff = 1 << 30;
349                 else if (exact && oterrestrial.code_rate_HP != terrestrial.code_rate_HP &&
350                         oterrestrial.code_rate_HP != eDVBFrontendParametersTerrestrial::FEC::fAuto &&
351                         terrestrial.code_rate_HP != eDVBFrontendParametersTerrestrial::FEC::fAuto)
352                         diff = 1 << 30;
353                 else
354                         diff = abs(terrestrial.frequency - oterrestrial.frequency);
355                 return 0;
356         default:
357                 return -1;
358         }
359         return 0;
360 }
361
362 RESULT eDVBFrontendParameters::getHash(unsigned long &hash) const
363 {
364         switch (m_type)
365         {
366         case iDVBFrontend::feSatellite:
367         {
368                 hash = (sat.orbital_position << 16);
369                 hash |= ((sat.frequency/1000)&0xFFFF)|((sat.polarisation&1) << 15);
370                 return 0;
371         }
372         case iDVBFrontend::feCable:
373                 hash = 0xFFFF0000;
374                 return 0;
375         case iDVBFrontend::feTerrestrial:
376                 hash = 0xEEEE0000;
377                 return 0;
378         default:
379                 return -1;
380         }
381 }
382
383 DEFINE_REF(eDVBFrontend);
384
385 eDVBFrontend::eDVBFrontend(int adap, int fe, int &ok)
386         :m_type(-1), m_fe(fe), m_fd(-1), m_sn(0), m_timeout(0), m_tuneTimer(0)
387 #if HAVE_DVB_API_VERSION < 3
388         ,m_secfd(-1)
389 #endif
390 {
391 #if HAVE_DVB_API_VERSION < 3
392         sprintf(m_filename, "/dev/dvb/card%d/frontend%d", adap, fe);
393         sprintf(m_sec_filename, "/dev/dvb/card%d/sec%d", adap, fe);
394 #else
395         sprintf(m_filename, "/dev/dvb/adapter%d/frontend%d", adap, fe);
396 #endif
397         m_timeout = new eTimer(eApp);
398         CONNECT(m_timeout->timeout, eDVBFrontend::timeout);
399
400         m_tuneTimer = new eTimer(eApp);
401         CONNECT(m_tuneTimer->timeout, eDVBFrontend::tuneLoop);
402
403         for (int i=0; i<eDVBFrontend::NUM_DATA_ENTRIES; ++i)
404                 m_data[i] = -1;
405
406         m_idleInputpower[0]=m_idleInputpower[1]=0;
407
408         ok = !openFrontend();
409         closeFrontend();
410 }
411
412 int eDVBFrontend::openFrontend()
413 {
414         if (m_sn)
415                 return -1;  // already opened
416
417         m_state=0;
418         m_tuning=0;
419
420 #if HAVE_DVB_API_VERSION < 3
421         if (m_secfd < 0)
422         {
423                 m_secfd = ::open(m_sec_filename, O_RDWR);
424                 if (m_secfd < 0)
425                 {
426                         eWarning("failed! (%s) %m", m_sec_filename);
427                         return -1;
428                 }
429         }
430         else
431                 eWarning("sec %d already opened", m_fe);
432         FrontendInfo fe_info;
433 #else
434         dvb_frontend_info fe_info;
435 #endif
436         eDebug("opening frontend %d", m_fe);
437         if (m_fd < 0)
438         {
439                 m_fd = ::open(m_filename, O_RDWR|O_NONBLOCK);
440                 if (m_fd < 0)
441                 {
442                         eWarning("failed! (%s) %m", m_filename);
443 #if HAVE_DVB_API_VERSION < 3
444                         ::close(m_secfd);
445                         m_secfd=-1;
446 #endif
447                         return -1;
448                 }
449         }
450         else
451                 eWarning("frontend %d already opened", m_fe);
452         if (m_type == -1)
453         {
454                 if (::ioctl(m_fd, FE_GET_INFO, &fe_info) < 0)
455                 {
456                         eWarning("ioctl FE_GET_INFO failed");
457                         ::close(m_fd);
458                         m_fd = -1;
459 #if HAVE_DVB_API_VERSION < 3
460                         ::close(m_secfd);
461                         m_secfd=-1;
462 #endif
463                         return -1;
464                 }
465
466                 switch (fe_info.type)
467                 {
468                 case FE_QPSK:
469                         m_type = iDVBFrontend::feSatellite;
470                         break;
471                 case FE_QAM:
472                         m_type = iDVBFrontend::feCable;
473                         break;
474                 case FE_OFDM:
475                         m_type = iDVBFrontend::feTerrestrial;
476                         break;
477                 default:
478                         eWarning("unknown frontend type.");
479                         ::close(m_fd);
480                         m_fd = -1;
481 #if HAVE_DVB_API_VERSION < 3
482                         ::close(m_secfd);
483                         m_secfd=-1;
484 #endif
485                         return -1;
486                 }
487                 eDebug("detected %s frontend", "satellite\0cable\0    terrestrial"+fe_info.type*10);
488         }
489
490         setTone(iDVBFrontend::toneOff);
491         setVoltage(iDVBFrontend::voltageOff);
492
493         m_sn = new eSocketNotifier(eApp, m_fd, eSocketNotifier::Read);
494         CONNECT(m_sn->activated, eDVBFrontend::feEvent);
495
496         return 0;
497 }
498
499 int eDVBFrontend::closeFrontend()
500 {
501         eDVBRegisteredFrontend *linked_fe = (eDVBRegisteredFrontend*)m_data[LINKED_NEXT_PTR];
502         while (linked_fe != (eDVBRegisteredFrontend*)-1)
503         {
504                 if (linked_fe->m_inuse)
505                 {
506                         eDebug("dont close frontend %d until the linked frontend %d is still in use",
507                                 m_fe, linked_fe->m_frontend->getID());
508                         return -1;
509                 }
510                 linked_fe->m_frontend->getData(LINKED_NEXT_PTR, (int&)linked_fe);
511         }
512         if (m_fd >= 0)
513         {
514                 eDebug("close frontend %d", m_fe);
515                 m_tuneTimer->stop();
516                 setTone(iDVBFrontend::toneOff);
517                 setVoltage(iDVBFrontend::voltageOff);
518                 if (m_sec)
519                         m_sec->setRotorMoving(false);
520                 if (!::close(m_fd))
521                         m_fd=-1;
522                 else
523                         eWarning("couldnt close frontend %d", m_fe);
524                 m_data[CSW] = m_data[UCSW] = m_data[TONEBURST] = -1;
525         }
526 #if HAVE_DVB_API_VERSION < 3
527         if (m_secfd >= 0)
528         {
529                 if (!::close(m_secfd))
530                         m_secfd=-1;
531                 else
532                         eWarning("couldnt close sec %d", m_fe);
533         }
534 #endif
535         delete m_sn;
536         m_sn=0;
537
538         return 0;
539 }
540
541 eDVBFrontend::~eDVBFrontend()
542 {
543         closeFrontend();
544         delete m_timeout;
545         delete m_tuneTimer;
546 }
547
548 void eDVBFrontend::feEvent(int w)
549 {
550         while (1)
551         {
552 #if HAVE_DVB_API_VERSION < 3
553                 FrontendEvent event;
554 #else
555                 dvb_frontend_event event;
556 #endif
557                 int res;
558                 int state;
559                 res = ::ioctl(m_fd, FE_GET_EVENT, &event);
560
561                 if (res && (errno == EAGAIN))
562                         break;
563
564                 if (res)
565                 {
566                         eWarning("FE_GET_EVENT failed! %m");
567                         return;
568                 }
569
570                 if (w < 0)
571                         continue;
572
573 #if HAVE_DVB_API_VERSION < 3
574                 if (event.type == FE_COMPLETION_EV)
575 #else
576                 eDebug("(%d)fe event: status %x, inversion %s", m_fe, event.status, (event.parameters.inversion == INVERSION_ON) ? "on" : "off");
577                 if (event.status & FE_HAS_LOCK)
578 #endif
579                 {
580                         state = stateLock;
581                 } else
582                 {
583                         if (m_tuning)
584                                 state = stateTuning;
585                         else
586                         {
587                                 eDebug("stateLostLock");
588                                 state = stateLostLock;
589                                 m_data[CSW] = m_data[UCSW] = m_data[TONEBURST] = -1; // reset diseqc
590                         }
591                 }
592                 if (m_state != state)
593                 {
594                         m_state = state;
595                         m_stateChanged(this);
596                 }
597         }
598 }
599
600 void eDVBFrontend::timeout()
601 {
602         m_tuning = 0;
603         if (m_state == stateTuning)
604         {
605                 m_state = stateFailed;
606                 m_stateChanged(this);
607         }
608 }
609
610 int eDVBFrontend::readFrontendData(int type)
611 {
612         switch(type)
613         {
614                 case bitErrorRate:
615                 {
616                         uint32_t ber=0;
617                         if (ioctl(m_fd, FE_READ_BER, &ber) < 0 && errno != ERANGE)
618                                 eDebug("FE_READ_BER failed (%m)");
619                         return ber;
620                 }
621                 case signalPower:
622                 {
623                         uint16_t snr=0;
624                         if (ioctl(m_fd, FE_READ_SNR, &snr) < 0 && errno != ERANGE)
625                                 eDebug("FE_READ_SNR failed (%m)");
626                         return snr;
627                 }
628                 case signalQuality:
629                 {
630                         uint16_t strength=0;
631                         if (ioctl(m_fd, FE_READ_SIGNAL_STRENGTH, &strength) < 0 && errno != ERANGE)
632                                 eDebug("FE_READ_SIGNAL_STRENGTH failed (%m)");
633                         return strength;
634                 }
635                 case locked:
636                 {
637 #if HAVE_DVB_API_VERSION < 3
638                         FrontendStatus status=0;
639 #else
640                         fe_status_t status;
641 #endif
642                         if ( ioctl(m_fd, FE_READ_STATUS, &status) < 0 && errno != ERANGE )
643                                 eDebug("FE_READ_STATUS failed (%m)");
644                         return !!(status&FE_HAS_LOCK);
645                 }
646                 case synced:
647                 {
648 #if HAVE_DVB_API_VERSION < 3
649                         FrontendStatus status=0;
650 #else
651                         fe_status_t status;
652 #endif
653                         if ( ioctl(m_fd, FE_READ_STATUS, &status) < 0 && errno != ERANGE )
654                                 eDebug("FE_READ_STATUS failed (%m)");
655                         return !!(status&FE_HAS_SYNC);
656                 }
657                 case frontendNumber:
658                         return m_fe;
659         }
660         return 0;
661 }
662
663 void PutToDict(ePyObject &dict, const char*key, long value)
664 {
665         ePyObject item = PyInt_FromLong(value);
666         if (item)
667         {
668                 if (PyDict_SetItemString(dict, key, item))
669                         eDebug("put %s to dict failed", key);
670                 Py_DECREF(item);
671         }
672         else
673                 eDebug("could not create PyObject for %s", key);
674 }
675
676 void PutToDict(ePyObject &dict, const char*key, const char *value)
677 {
678         ePyObject item = PyString_FromString(value);
679         if (item)
680         {
681                 if (PyDict_SetItemString(dict, key, item))
682                         eDebug("put %s to dict failed", key);
683                 Py_DECREF(item);
684         }
685         else
686                 eDebug("could not create PyObject for %s", key);
687 }
688
689 void fillDictWithSatelliteData(ePyObject dict, const FRONTENDPARAMETERS &parm, eDVBFrontend *fe)
690 {
691         int freq_offset=0;
692         int csw=0;
693         const char *tmp=0;
694         fe->getData(eDVBFrontend::CSW, csw);
695         fe->getData(eDVBFrontend::FREQ_OFFSET, freq_offset);
696         int frequency = parm_frequency + freq_offset;
697         PutToDict(dict, "frequency", frequency);
698         PutToDict(dict, "symbol_rate", parm_u_qpsk_symbol_rate);
699         switch(parm_u_qpsk_fec_inner)
700         {
701         case FEC_1_2:
702                 tmp = "FEC_1_2";
703                 break;
704         case FEC_2_3:
705                 tmp = "FEC_2_3";
706                 break;
707         case FEC_3_4:
708                 tmp = "FEC_3_4";
709                 break;
710         case FEC_5_6:
711                 tmp = "FEC_5_6";
712                 break;
713         case FEC_7_8:
714                 tmp = "FEC_7_8";
715                 break;
716         case FEC_NONE:
717                 tmp = "FEC_NONE";
718         default:
719         case FEC_AUTO:
720                 tmp = "FEC_AUTO";
721                 break;
722 #if HAVE_DVB_API_VERSION >=3
723         case FEC_S2_8PSK_1_2:
724         case FEC_S2_QPSK_1_2:
725                 tmp = "FEC_1_2";
726                 break;
727         case FEC_S2_8PSK_2_3:
728         case FEC_S2_QPSK_2_3:
729                 tmp = "FEC_2_3";
730                 break;
731         case FEC_S2_8PSK_3_4:
732         case FEC_S2_QPSK_3_4:
733                 tmp = "FEC_3_4";
734                 break;
735         case FEC_S2_8PSK_5_6:
736         case FEC_S2_QPSK_5_6:
737                 tmp = "FEC_5_6";
738                 break;
739         case FEC_S2_8PSK_7_8:
740         case FEC_S2_QPSK_7_8:
741                 tmp = "FEC_7_8";
742                 break;
743         case FEC_S2_8PSK_8_9:
744         case FEC_S2_QPSK_8_9:
745                 tmp = "FEC_8_9";
746                 break;
747         case FEC_S2_8PSK_3_5:
748         case FEC_S2_QPSK_3_5:
749                 tmp = "FEC_3_5";
750                 break;
751         case FEC_S2_8PSK_4_5:
752         case FEC_S2_QPSK_4_5:
753                 tmp = "FEC_4_5";
754                 break;
755         case FEC_S2_8PSK_9_10:
756         case FEC_S2_QPSK_9_10:
757                 tmp = "FEC_9_10";
758                 break;
759 #endif
760         }
761 #if HAVE_DVB_API_VERSION >=3
762         PutToDict(dict, "modulation",
763                 parm_u_qpsk_fec_inner > FEC_S2_QPSK_9_10 ? "8PSK": "QPSK" );
764 #else
765         PutToDict(dict, "modulation", "QPSK" );
766 #endif
767         PutToDict(dict, "fec_inner", tmp);
768         tmp = parm_u_qpsk_fec_inner > FEC_AUTO ?
769                 "DVB-S2" : "DVB-S";
770         PutToDict(dict, "system", tmp);
771 }
772
773 void fillDictWithCableData(ePyObject dict, const FRONTENDPARAMETERS &parm)
774 {
775         const char *tmp=0;
776         PutToDict(dict, "frequency", parm_frequency/1000);
777         PutToDict(dict, "symbol_rate", parm_u_qam_symbol_rate);
778         switch(parm_u_qam_fec_inner)
779         {
780         case FEC_NONE:
781                 tmp = "FEC_NONE";
782                 break;
783         case FEC_1_2:
784                 tmp = "FEC_1_2";
785                 break;
786         case FEC_2_3:
787                 tmp = "FEC_2_3";
788                 break;
789         case FEC_3_4:
790                 tmp = "FEC_3_4";
791                 break;
792         case FEC_5_6:
793                 tmp = "FEC_5_6";
794                 break;
795         case FEC_7_8:
796                 tmp = "FEC_7_8";
797                 break;
798 #if HAVE_DVB_API_VERSION >= 3
799         case FEC_8_9:
800                 tmp = "FEC_8_9";
801                 break;
802 #endif
803         default:
804         case FEC_AUTO:
805                 tmp = "FEC_AUTO";
806                 break;
807         }
808         PutToDict(dict, "fec_inner", tmp);
809         switch(parm_u_qam_modulation)
810         {
811         case QAM_16:
812                 tmp = "QAM_16";
813                 break;
814         case QAM_32:
815                 tmp = "QAM_32";
816                 break;
817         case QAM_64:
818                 tmp = "QAM_64";
819                 break;
820         case QAM_128:
821                 tmp = "QAM_128";
822                 break;
823         case QAM_256:
824                 tmp = "QAM_256";
825                 break;
826         default:
827         case QAM_AUTO:
828                 tmp = "QAM_AUTO";
829                 break;
830         }
831         PutToDict(dict, "modulation", tmp);
832 }
833
834 void fillDictWithTerrestrialData(ePyObject dict, const FRONTENDPARAMETERS &parm)
835 {
836         const char *tmp=0;
837         PutToDict(dict, "frequency", parm_frequency);
838         switch (parm_u_ofdm_bandwidth)
839         {
840         case BANDWIDTH_8_MHZ:
841                 tmp = "BANDWIDTH_8_MHZ";
842                 break;
843         case BANDWIDTH_7_MHZ:
844                 tmp = "BANDWIDTH_7_MHZ";
845                 break;
846         case BANDWIDTH_6_MHZ:
847                 tmp = "BANDWIDTH_6_MHZ";
848                 break;
849         default:
850         case BANDWIDTH_AUTO:
851                 tmp = "BANDWIDTH_AUTO";
852                 break;
853         }
854         PutToDict(dict, "bandwidth", tmp);
855         switch (parm_u_ofdm_code_rate_LP)
856         {
857         case FEC_1_2:
858                 tmp = "FEC_1_2";
859                 break;
860         case FEC_2_3:
861                 tmp = "FEC_2_3";
862                 break;
863         case FEC_3_4:
864                 tmp = "FEC_3_4";
865                 break;
866         case FEC_5_6:
867                 tmp = "FEC_5_6";
868                 break;
869         case FEC_7_8:
870                 tmp = "FEC_7_8";
871                 break;
872         default:
873         case FEC_AUTO:
874                 tmp = "FEC_AUTO";
875                 break;
876         }
877         PutToDict(dict, "code_rate_lp", tmp);
878         switch (parm_u_ofdm_code_rate_HP)
879         {
880         case FEC_1_2:
881                 tmp = "FEC_1_2";
882                 break;
883         case FEC_2_3:
884                 tmp = "FEC_2_3";
885                 break;
886         case FEC_3_4:
887                 tmp = "FEC_3_4";
888                 break;
889         case FEC_5_6:
890                 tmp = "FEC_5_6";
891                 break;
892         case FEC_7_8:
893                 tmp = "FEC_7_8";
894                 break;
895         default:
896         case FEC_AUTO:
897                 tmp = "FEC_AUTO";
898                 break;
899         }
900         PutToDict(dict, "code_rate_hp", tmp);
901         switch (parm_u_ofdm_constellation)
902         {
903         case QPSK:
904                 tmp = "QPSK";
905                 break;
906         case QAM_16:
907                 tmp = "QAM_16";
908                 break;
909         case QAM_64:
910                 tmp = "QAM_64";
911                 break;
912         default:
913         case QAM_AUTO:
914                 tmp = "QAM_AUTO";
915                 break;
916         }
917         PutToDict(dict, "constellation", tmp);
918         switch (parm_u_ofdm_transmission_mode)
919         {
920         case TRANSMISSION_MODE_2K:
921                 tmp = "TRANSMISSION_MODE_2K";
922                 break;
923         case TRANSMISSION_MODE_8K:
924                 tmp = "TRANSMISSION_MODE_8K";
925                 break;
926         default:
927         case TRANSMISSION_MODE_AUTO:
928                 tmp = "TRANSMISSION_MODE_AUTO";
929                 break;
930         }
931         PutToDict(dict, "transmission_mode", tmp);
932         switch (parm_u_ofdm_guard_interval)
933         {
934                 case GUARD_INTERVAL_1_32:
935                         tmp = "GUARD_INTERVAL_1_32";
936                         break;
937                 case GUARD_INTERVAL_1_16:
938                         tmp = "GUARD_INTERVAL_1_16";
939                         break;
940                 case GUARD_INTERVAL_1_8:
941                         tmp = "GUARD_INTERVAL_1_8";
942                         break;
943                 case GUARD_INTERVAL_1_4:
944                         tmp = "GUARD_INTERVAL_1_4";
945                         break;
946                 default:
947                 case GUARD_INTERVAL_AUTO:
948                         tmp = "GUARD_INTERVAL_AUTO";
949                         break;
950         }
951         PutToDict(dict, "guard_interval", tmp);
952         switch (parm_u_ofdm_hierarchy_information)
953         {
954                 case HIERARCHY_NONE:
955                         tmp = "HIERARCHY_NONE";
956                         break;
957                 case HIERARCHY_1:
958                         tmp = "HIERARCHY_1";
959                         break;
960                 case HIERARCHY_2:
961                         tmp = "HIERARCHY_2";
962                         break;
963                 case HIERARCHY_4:
964                         tmp = "HIERARCHY_4";
965                         break;
966                 default:
967                 case HIERARCHY_AUTO:
968                         tmp = "HIERARCHY_AUTO";
969                         break;
970         }
971         PutToDict(dict, "hierarchy_information", tmp);
972 }
973
974 void eDVBFrontend::getFrontendStatus(ePyObject dest)
975 {
976         if (dest && PyDict_Check(dest))
977         {
978                 const char *tmp = "UNKNOWN";
979                 switch(m_state)
980                 {
981                         case stateIdle:
982                                 tmp="IDLE";
983                                 break;
984                         case stateTuning:
985                                 tmp="TUNING";
986                                 break;
987                         case stateFailed:
988                                 tmp="FAILED";
989                                 break;
990                         case stateLock:
991                                 tmp="LOCKED";
992                                 break;
993                         case stateLostLock:
994                                 tmp="LOSTLOCK";
995                                 break;
996                         default:
997                                 break;
998                 }
999                 PutToDict(dest, "tuner_state", tmp);
1000                 PutToDict(dest, "tuner_locked", readFrontendData(locked));
1001                 PutToDict(dest, "tuner_synced", readFrontendData(synced));
1002                 PutToDict(dest, "tuner_bit_error_rate", readFrontendData(bitErrorRate));
1003                 PutToDict(dest, "tuner_signal_power", readFrontendData(signalPower));
1004                 PutToDict(dest, "tuner_signal_quality", readFrontendData(signalQuality));
1005         }
1006 }
1007
1008 void eDVBFrontend::getTransponderData(ePyObject dest, bool original)
1009 {
1010         if (m_fd != -1 && dest && PyDict_Check(dest))
1011         {
1012                 switch(m_type)
1013                 {
1014                         case feSatellite:
1015                         case feCable:
1016                         case feTerrestrial:
1017                         {
1018                                 FRONTENDPARAMETERS front;
1019                                 if (!original && ioctl(m_fd, FE_GET_FRONTEND, &front)<0)
1020                                         eDebug("FE_GET_FRONTEND (%m)");
1021                                 else
1022                                 {
1023                                         const FRONTENDPARAMETERS &parm = original ? this->parm : front;
1024                                         const char *tmp = "INVERSION_AUTO";
1025                                         switch(parm_inversion)
1026                                         {
1027                                                 case INVERSION_ON:
1028                                                         tmp = "INVERSION_ON";
1029                                                         break;
1030                                                 case INVERSION_OFF:
1031                                                         tmp = "INVERSION_OFF";
1032                                                         break;
1033                                                 default:
1034                                                         break;
1035                                         }
1036                                         if (tmp)
1037                                                 PutToDict(dest, "inversion", tmp);
1038
1039                                         switch(m_type)
1040                                         {
1041                                                 case feSatellite:
1042                                                         fillDictWithSatelliteData(dest, original?parm:front, this);
1043                                                         break;
1044                                                 case feCable:
1045                                                         fillDictWithCableData(dest, original?parm:front);
1046                                                         break;
1047                                                 case feTerrestrial:
1048                                                         fillDictWithTerrestrialData(dest, original?parm:front);
1049                                                         break;
1050                                         }
1051                                 }
1052                         }
1053                         default:
1054                                 break;
1055                 }
1056         }
1057 }
1058
1059 void eDVBFrontend::getFrontendData(ePyObject dest)
1060 {
1061         if (dest && PyDict_Check(dest))
1062         {
1063                 const char *tmp=0;
1064                 PutToDict(dest, "tuner_number", m_fe);
1065                 switch(m_type)
1066                 {
1067                         case feSatellite:
1068                                 tmp = "DVB-S";
1069                                 break;
1070                         case feCable:
1071                                 tmp = "DVB-C";
1072                                 break;
1073                         case feTerrestrial:
1074                                 tmp = "DVB-T";
1075                                 break;
1076                         default:
1077                                 tmp = "UNKNOWN";
1078                                 break;
1079                 }
1080                 PutToDict(dest, "tuner_type", tmp);
1081         }
1082 }
1083
1084 #ifndef FP_IOCTL_GET_ID
1085 #define FP_IOCTL_GET_ID 0
1086 #endif
1087 int eDVBFrontend::readInputpower()
1088 {
1089         int power=m_fe;  // this is needed for read inputpower from the correct tuner !
1090
1091         // open front prozessor
1092         int fp=::open("/dev/dbox/fp0", O_RDWR);
1093         if (fp < 0)
1094         {
1095                 eDebug("couldn't open fp");
1096                 return -1;
1097         }
1098         static bool old_fp = (::ioctl(fp, FP_IOCTL_GET_ID) < 0);
1099         if ( ioctl( fp, old_fp ? 9 : 0x100, &power ) < 0 )
1100         {
1101                 eDebug("FP_IOCTL_GET_LNB_CURRENT failed (%m)");
1102                 return -1;
1103         }
1104         ::close(fp);
1105
1106         return power;
1107 }
1108
1109 bool eDVBFrontend::setSecSequencePos(int steps)
1110 {
1111         eDebug("set sequence pos %d", steps);
1112         if (!steps)
1113                 return false;
1114         while( steps > 0 )
1115         {
1116                 if (m_sec_sequence.current() != m_sec_sequence.end())
1117                         ++m_sec_sequence.current();
1118                 --steps;
1119         }
1120         while( steps < 0 )
1121         {
1122                 if (m_sec_sequence.current() != m_sec_sequence.begin() && m_sec_sequence.current() != m_sec_sequence.end())
1123                         --m_sec_sequence.current();
1124                 ++steps;
1125         }
1126         return true;
1127 }
1128
1129 void eDVBFrontend::tuneLoop()  // called by m_tuneTimer
1130 {
1131         int delay=0;
1132         if ( m_sec_sequence && m_sec_sequence.current() != m_sec_sequence.end() )
1133         {
1134 //              eDebug("tuneLoop %d\n", m_sec_sequence.current()->cmd);
1135                 switch (m_sec_sequence.current()->cmd)
1136                 {
1137                         case eSecCommand::SLEEP:
1138                                 delay = m_sec_sequence.current()++->msec;
1139                                 eDebug("[SEC] sleep %dms", delay);
1140                                 break;
1141                         case eSecCommand::GOTO:
1142                                 if ( !setSecSequencePos(m_sec_sequence.current()->steps) )
1143                                         ++m_sec_sequence.current();
1144                                 break;
1145                         case eSecCommand::SET_VOLTAGE:
1146                         {
1147                                 int voltage = m_sec_sequence.current()++->voltage;
1148                                 eDebug("[SEC] setVoltage %d", voltage);
1149                                 setVoltage(voltage);
1150                                 break;
1151                         }
1152                         case eSecCommand::IF_VOLTAGE_GOTO:
1153                         {
1154                                 eSecCommand::pair &compare = m_sec_sequence.current()->compare;
1155                                 if ( compare.voltage == m_data[CUR_VOLTAGE] && setSecSequencePos(compare.steps) )
1156                                         break;
1157                                 ++m_sec_sequence.current();
1158                                 break;
1159                         }
1160                         case eSecCommand::IF_NOT_VOLTAGE_GOTO:
1161                         {
1162                                 eSecCommand::pair &compare = m_sec_sequence.current()->compare;
1163                                 if ( compare.voltage != m_data[CUR_VOLTAGE] && setSecSequencePos(compare.steps) )
1164                                         break;
1165                                 ++m_sec_sequence.current();
1166                                 break;
1167                         }
1168                         case eSecCommand::IF_TONE_GOTO:
1169                         {
1170                                 eSecCommand::pair &compare = m_sec_sequence.current()->compare;
1171                                 if ( compare.tone == m_data[CUR_TONE] && setSecSequencePos(compare.steps) )
1172                                         break;
1173                                 ++m_sec_sequence.current();
1174                                 break;
1175                         }
1176                         case eSecCommand::IF_NOT_TONE_GOTO:
1177                         {
1178                                 eSecCommand::pair &compare = m_sec_sequence.current()->compare;
1179                                 if ( compare.tone != m_data[CUR_TONE] && setSecSequencePos(compare.steps) )
1180                                         break;
1181                                 ++m_sec_sequence.current();
1182                                 break;
1183                         }
1184                         case eSecCommand::SET_TONE:
1185                                 eDebug("[SEC] setTone %d", m_sec_sequence.current()->tone);
1186                                 setTone(m_sec_sequence.current()++->tone);
1187                                 break;
1188                         case eSecCommand::SEND_DISEQC:
1189                                 sendDiseqc(m_sec_sequence.current()->diseqc);
1190                                 eDebugNoNewLine("[SEC] sendDiseqc: ");
1191                                 for (int i=0; i < m_sec_sequence.current()->diseqc.len; ++i)
1192                                     eDebugNoNewLine("%02x", m_sec_sequence.current()->diseqc.data[i]);
1193                                 eDebug("");
1194                                 ++m_sec_sequence.current();
1195                                 break;
1196                         case eSecCommand::SEND_TONEBURST:
1197                                 eDebug("[SEC] sendToneburst: %d", m_sec_sequence.current()->toneburst);
1198                                 sendToneburst(m_sec_sequence.current()++->toneburst);
1199                                 break;
1200                         case eSecCommand::SET_FRONTEND:
1201                                 eDebug("[SEC] setFrontend");
1202                                 setFrontend();
1203                                 ++m_sec_sequence.current();
1204                                 break;
1205                         case eSecCommand::START_TUNE_TIMEOUT:
1206                                 m_timeout->start(5000, 1); // 5 sec timeout. TODO: symbolrate dependent
1207                                 ++m_sec_sequence.current();
1208                                 break;
1209                         case eSecCommand::SET_TIMEOUT:
1210                                 m_timeoutCount = m_sec_sequence.current()++->val;
1211                                 eDebug("[SEC] set timeout %d", m_timeoutCount);
1212                                 break;
1213                         case eSecCommand::IF_TIMEOUT_GOTO:
1214                                 if (!m_timeoutCount)
1215                                 {
1216                                         eDebug("[SEC] rotor timout");
1217                                         m_sec->setRotorMoving(false);
1218                                         setSecSequencePos(m_sec_sequence.current()->steps);
1219                                 }
1220                                 else
1221                                         ++m_sec_sequence.current();
1222                                 break;
1223                         case eSecCommand::MEASURE_IDLE_INPUTPOWER:
1224                         {
1225                                 int idx = m_sec_sequence.current()++->val;
1226                                 if ( idx == 0 || idx == 1 )
1227                                 {
1228                                         m_idleInputpower[idx] = readInputpower();
1229                                         eDebug("[SEC] idleInputpower[%d] is %d", idx, m_idleInputpower[idx]);
1230                                 }
1231                                 else
1232                                         eDebug("[SEC] idleInputpower measure index(%d) out of bound !!!", idx);
1233                                 break;
1234                         }
1235                         case eSecCommand::IF_MEASURE_IDLE_WAS_NOT_OK_GOTO:
1236                         {
1237                                 eSecCommand::pair &compare = m_sec_sequence.current()->compare;
1238                                 int idx = compare.val;
1239                                 if ( idx == 0 || idx == 1 )
1240                                 {
1241                                         int idle = readInputpower();
1242                                         int diff = abs(idle-m_idleInputpower[idx]);
1243                                         if ( diff > 0)
1244                                         {
1245                                                 eDebug("measure idle(%d) was not okay.. (%d - %d = %d) retry", idx, m_idleInputpower[idx], idle, diff);
1246                                                 setSecSequencePos(compare.steps);
1247                                                 break;
1248                                         }
1249                                 }
1250                                 ++m_sec_sequence.current();
1251                                 break;
1252                         }
1253                         case eSecCommand::IF_TUNER_LOCKED_GOTO:
1254                         {
1255                                 eSecCommand::rotor &cmd = m_sec_sequence.current()->measure;
1256                                 if (readFrontendData(locked))
1257                                 {
1258                                         eDebug("[SEC] locked step %d ok", cmd.okcount);
1259                                         ++cmd.okcount;
1260                                         if (cmd.okcount > 12)
1261                                         {
1262                                                 eDebug("ok > 12 .. goto %d\n",m_sec_sequence.current()->steps);
1263                                                 setSecSequencePos(cmd.steps);
1264                                                 break;
1265                                         }
1266                                 }
1267                                 else
1268                                 {
1269                                         eDebug("[SEC] rotor locked step %d failed", cmd.okcount);
1270                                         --m_timeoutCount;
1271                                         if (!m_timeoutCount && m_retryCount > 0)
1272                                                 --m_retryCount;
1273                                         cmd.okcount=0;
1274                                 }
1275                                 ++m_sec_sequence.current();
1276                                 break;
1277                         }
1278                         case eSecCommand::MEASURE_RUNNING_INPUTPOWER:
1279                                 m_runningInputpower = readInputpower();
1280                                 eDebug("[SEC] runningInputpower is %d", m_runningInputpower);
1281                                 ++m_sec_sequence.current();
1282                                 break;
1283                         case eSecCommand::IF_INPUTPOWER_DELTA_GOTO:
1284                         {
1285                                 int idleInputpower = m_idleInputpower[ (m_data[CUR_VOLTAGE]&1) ? 0 : 1];
1286                                 eSecCommand::rotor &cmd = m_sec_sequence.current()->measure;
1287                                 const char *txt = cmd.direction ? "running" : "stopped";
1288                                 eDebug("[SEC] waiting for rotor %s %d, idle %d, delta %d",
1289                                         txt,
1290                                         m_runningInputpower,
1291                                         idleInputpower,
1292                                         cmd.deltaA);
1293                                 if ( (cmd.direction && abs(m_runningInputpower - idleInputpower) >= cmd.deltaA)
1294                                         || (!cmd.direction && abs(m_runningInputpower - idleInputpower) <= cmd.deltaA) )
1295                                 {
1296                                         ++cmd.okcount;
1297                                         eDebug("[SEC] rotor %s step %d ok", txt, cmd.okcount);
1298                                         if ( cmd.okcount > 6 )
1299                                         {
1300                                                 m_sec->setRotorMoving(cmd.direction);
1301                                                 eDebug("[SEC] rotor is %s", txt);
1302                                                 if (setSecSequencePos(cmd.steps))
1303                                                         break;
1304                                         }
1305                                 }
1306                                 else
1307                                 {
1308                                         eDebug("[SEC] rotor not %s... reset counter.. increase timeout", txt);
1309                                         --m_timeoutCount;
1310                                         if (!m_timeoutCount && m_retryCount > 0)
1311                                                 --m_retryCount;
1312                                         cmd.okcount=0;
1313                                 }
1314                                 ++m_sec_sequence.current();
1315                                 break;
1316                         }
1317                         case eSecCommand::IF_ROTORPOS_VALID_GOTO:
1318                                 if (m_data[ROTOR_CMD] != -1 && m_data[ROTOR_POS] != -1)
1319                                         setSecSequencePos(m_sec_sequence.current()->steps);
1320                                 else
1321                                         ++m_sec_sequence.current();
1322                                 break;
1323                         case eSecCommand::INVALIDATE_CURRENT_ROTORPARMS:
1324                                 m_data[ROTOR_CMD] = m_data[ROTOR_POS] = -1;
1325                                 eDebug("[SEC] invalidate current rotorparams");
1326                                 ++m_sec_sequence.current();
1327                                 break;
1328                         case eSecCommand::UPDATE_CURRENT_ROTORPARAMS:
1329                                 m_data[ROTOR_CMD] = m_data[NEW_ROTOR_CMD];
1330                                 m_data[ROTOR_POS] = m_data[NEW_ROTOR_POS];
1331                                 eDebug("[SEC] update current rotorparams %d %04x %d", m_timeoutCount, m_data[5], m_data[6]);
1332                                 ++m_sec_sequence.current();
1333                                 break;
1334                         case eSecCommand::SET_ROTOR_DISEQC_RETRYS:
1335                                 m_retryCount = m_sec_sequence.current()++->val;
1336                                 eDebug("[SEC] set rotor retries %d", m_retryCount);
1337                                 break;
1338                         case eSecCommand::IF_NO_MORE_ROTOR_DISEQC_RETRYS_GOTO:
1339                                 if (!m_retryCount)
1340                                 {
1341                                         eDebug("[SEC] no more rotor retrys");
1342                                         setSecSequencePos(m_sec_sequence.current()->steps);
1343                                 }
1344                                 else
1345                                         ++m_sec_sequence.current();
1346                                 break;
1347                         case eSecCommand::SET_POWER_LIMITING_MODE:
1348                         {
1349                                 int fd = m_fe ?
1350                                         ::open("/dev/i2c/1", O_RDWR) :
1351                                         ::open("/dev/i2c/0", O_RDWR);
1352
1353                                 unsigned char data[2];
1354                                 ::ioctl(fd, I2C_SLAVE_FORCE, 0x10 >> 1);
1355                                 if(::read(fd, data, 1) != 1)
1356                                         eDebug("[SEC] error read lnbp (%m)");
1357                                 if ( m_sec_sequence.current()->mode == eSecCommand::modeStatic )
1358                                 {
1359                                         data[0] |= 0x80;  // enable static current limiting
1360                                         eDebug("[SEC] set static current limiting");
1361                                 }
1362                                 else
1363                                 {
1364                                         data[0] &= ~0x80;  // enable dynamic current limiting
1365                                         eDebug("[SEC] set dynamic current limiting");
1366                                 }
1367                                 if(::write(fd, data, 1) != 1)
1368                                         eDebug("[SEC] error write lnbp (%m)");
1369                                 ::close(fd);
1370                                 ++m_sec_sequence.current();
1371                                 break;
1372                         }
1373                         default:
1374                                 eDebug("[SEC] unhandled sec command %d",
1375                                         ++m_sec_sequence.current()->cmd);
1376                                 ++m_sec_sequence.current();
1377                 }
1378                 m_tuneTimer->start(delay,true);
1379         }
1380 }
1381
1382 void eDVBFrontend::setFrontend()
1383 {
1384         eDebug("setting frontend %d", m_fe);
1385         m_sn->start();
1386         feEvent(-1);
1387         if (ioctl(m_fd, FE_SET_FRONTEND, &parm) == -1)
1388         {
1389                 perror("FE_SET_FRONTEND failed");
1390                 return;
1391         }
1392 }
1393
1394 RESULT eDVBFrontend::getFrontendType(int &t)
1395 {
1396         if (m_type == -1)
1397                 return -ENODEV;
1398         t = m_type;
1399         return 0;
1400 }
1401
1402 RESULT eDVBFrontend::prepare_sat(const eDVBFrontendParametersSatellite &feparm)
1403 {
1404         int res;
1405         if (!m_sec)
1406         {
1407                 eWarning("no SEC module active!");
1408                 return -ENOENT;
1409         }
1410         res = m_sec->prepare(*this, parm, feparm, 1 << m_fe);
1411         if (!res)
1412         {
1413                 eDebug("prepare_sat System %d Freq %d Pol %d SR %d INV %d FEC %d orbpos %d",
1414                         feparm.system,
1415                         feparm.frequency,
1416                         feparm.polarisation,
1417                         feparm.symbol_rate,
1418                         feparm.inversion,
1419                         feparm.fec,
1420                         feparm.orbital_position);
1421                 parm_u_qpsk_symbol_rate = feparm.symbol_rate;
1422                 switch (feparm.inversion)
1423                 {
1424                         case eDVBFrontendParametersSatellite::Inversion::On:
1425                                 parm_inversion = INVERSION_ON;
1426                                 break;
1427                         case eDVBFrontendParametersSatellite::Inversion::Off:
1428                                 parm_inversion = INVERSION_OFF;
1429                                 break;
1430                         default:
1431                         case eDVBFrontendParametersSatellite::Inversion::Unknown:
1432                                 parm_inversion = INVERSION_AUTO;
1433                                 break;
1434                 }
1435                 if (feparm.system == eDVBFrontendParametersSatellite::System::DVB_S)
1436                         switch (feparm.fec)
1437                         {
1438                                 case eDVBFrontendParametersSatellite::FEC::fNone:
1439                                         parm_u_qpsk_fec_inner = FEC_NONE;
1440                                         break;
1441                                 case eDVBFrontendParametersSatellite::FEC::f1_2:
1442                                         parm_u_qpsk_fec_inner = FEC_1_2;
1443                                         break;
1444                                 case eDVBFrontendParametersSatellite::FEC::f2_3:
1445                                         parm_u_qpsk_fec_inner = FEC_2_3;
1446                                         break;
1447                                 case eDVBFrontendParametersSatellite::FEC::f3_4:
1448                                         parm_u_qpsk_fec_inner = FEC_3_4;
1449                                         break;
1450                                 case eDVBFrontendParametersSatellite::FEC::f5_6:
1451                                         parm_u_qpsk_fec_inner = FEC_5_6;
1452                                         break;
1453                                 case eDVBFrontendParametersSatellite::FEC::f7_8:
1454                                         parm_u_qpsk_fec_inner = FEC_7_8;
1455                                         break;
1456                                 default:
1457                                         eDebug("no valid fec for DVB-S set.. assume auto");
1458                                 case eDVBFrontendParametersSatellite::FEC::fAuto:
1459                                         parm_u_qpsk_fec_inner = FEC_AUTO;
1460                                         break;
1461                         }
1462 #if HAVE_DVB_API_VERSION >= 3
1463                 else // DVB_S2
1464                 {
1465                         switch (feparm.fec)
1466                         {
1467                                 case eDVBFrontendParametersSatellite::FEC::f1_2:
1468                                         parm_u_qpsk_fec_inner = FEC_S2_QPSK_1_2;
1469                                         break;
1470                                 case eDVBFrontendParametersSatellite::FEC::f2_3:
1471                                         parm_u_qpsk_fec_inner = FEC_S2_QPSK_2_3;
1472                                         break;
1473                                 case eDVBFrontendParametersSatellite::FEC::f3_4:
1474                                         parm_u_qpsk_fec_inner = FEC_S2_QPSK_3_4;
1475                                         break;
1476                                 case eDVBFrontendParametersSatellite::FEC::f3_5:
1477                                         parm_u_qpsk_fec_inner = FEC_S2_QPSK_3_5;
1478                                         break;
1479                                 case eDVBFrontendParametersSatellite::FEC::f4_5:
1480                                         parm_u_qpsk_fec_inner = FEC_S2_QPSK_4_5;
1481                                         break;
1482                                 case eDVBFrontendParametersSatellite::FEC::f5_6:
1483                                         parm_u_qpsk_fec_inner = FEC_S2_QPSK_5_6;
1484                                         break;
1485                                 case eDVBFrontendParametersSatellite::FEC::f7_8:
1486                                         parm_u_qpsk_fec_inner = FEC_S2_QPSK_7_8;
1487                                         break;
1488                                 case eDVBFrontendParametersSatellite::FEC::f8_9:
1489                                         parm_u_qpsk_fec_inner = FEC_S2_QPSK_8_9;
1490                                         break;
1491                                 case eDVBFrontendParametersSatellite::FEC::f9_10:
1492                                         parm_u_qpsk_fec_inner = FEC_S2_QPSK_9_10;
1493                                         break;
1494                                 default:
1495                                         eDebug("no valid fec for DVB-S2 set.. abort !!");
1496                                         return -EINVAL;
1497                         }
1498                         if (feparm.modulation == eDVBFrontendParametersSatellite::Modulation::M8PSK)
1499                                 parm_u_qpsk_fec_inner = (fe_code_rate_t)((int)parm_u_qpsk_fec_inner+9);
1500                                 // 8PSK fec driver values are decimal 9 bigger
1501                 }
1502 #endif
1503                 // FIXME !!! get frequency range from tuner
1504                 if ( parm_frequency < 900000 || parm_frequency > 2200000 )
1505                 {
1506                         eDebug("%d mhz out of tuner range.. dont tune", parm_frequency/1000);
1507                         return -EINVAL;
1508                 }
1509                 eDebug("tuning to %d mhz", parm_frequency/1000);
1510         }
1511         return res;
1512 }
1513
1514 RESULT eDVBFrontend::prepare_cable(const eDVBFrontendParametersCable &feparm)
1515 {
1516         parm_frequency = feparm.frequency * 1000;
1517         parm_u_qam_symbol_rate = feparm.symbol_rate;
1518         switch (feparm.modulation)
1519         {
1520         case eDVBFrontendParametersCable::Modulation::QAM16:
1521                 parm_u_qam_modulation = QAM_16;
1522                 break;
1523         case eDVBFrontendParametersCable::Modulation::QAM32:
1524                 parm_u_qam_modulation = QAM_32;
1525                 break;
1526         case eDVBFrontendParametersCable::Modulation::QAM64:
1527                 parm_u_qam_modulation = QAM_64;
1528                 break;
1529         case eDVBFrontendParametersCable::Modulation::QAM128:
1530                 parm_u_qam_modulation = QAM_128;
1531                 break;
1532         case eDVBFrontendParametersCable::Modulation::QAM256:
1533                 parm_u_qam_modulation = QAM_256;
1534                 break;
1535         default:
1536         case eDVBFrontendParametersCable::Modulation::Auto:
1537                 parm_u_qam_modulation = QAM_AUTO;
1538                 break;
1539         }
1540         switch (feparm.inversion)
1541         {
1542         case eDVBFrontendParametersCable::Inversion::On:
1543                 parm_inversion = INVERSION_ON;
1544                 break;
1545         case eDVBFrontendParametersCable::Inversion::Off:
1546                 parm_inversion = INVERSION_OFF;
1547                 break;
1548         default:
1549         case eDVBFrontendParametersCable::Inversion::Unknown:
1550                 parm_inversion = INVERSION_AUTO;
1551                 break;
1552         }
1553         switch (feparm.fec_inner)
1554         {
1555         case eDVBFrontendParametersCable::FEC::fNone:
1556                 parm_u_qam_fec_inner = FEC_NONE;
1557                 break;
1558         case eDVBFrontendParametersCable::FEC::f1_2:
1559                 parm_u_qam_fec_inner = FEC_1_2;
1560                 break;
1561         case eDVBFrontendParametersCable::FEC::f2_3:
1562                 parm_u_qam_fec_inner = FEC_2_3;
1563                 break;
1564         case eDVBFrontendParametersCable::FEC::f3_4:
1565                 parm_u_qam_fec_inner = FEC_3_4;
1566                 break;
1567         case eDVBFrontendParametersCable::FEC::f5_6:
1568                 parm_u_qam_fec_inner = FEC_5_6;
1569                 break;
1570         case eDVBFrontendParametersCable::FEC::f7_8:
1571                 parm_u_qam_fec_inner = FEC_7_8;
1572                 break;
1573 #if HAVE_DVB_API_VERSION >= 3
1574         case eDVBFrontendParametersCable::FEC::f8_9:
1575                 parm_u_qam_fec_inner = FEC_8_9;
1576                 break;
1577 #endif
1578         default:
1579         case eDVBFrontendParametersCable::FEC::fAuto:
1580                 parm_u_qam_fec_inner = FEC_AUTO;
1581                 break;
1582         }
1583         eDebug("tuning to %d khz, sr %d, fec %d, modulation %d, inversion %d",
1584                 parm_frequency/1000,
1585                 parm_u_qam_symbol_rate,
1586                 parm_u_qam_fec_inner,
1587                 parm_u_qam_modulation,
1588                 parm_inversion);
1589         return 0;
1590 }
1591
1592 RESULT eDVBFrontend::prepare_terrestrial(const eDVBFrontendParametersTerrestrial &feparm)
1593 {
1594         parm_frequency = feparm.frequency;
1595
1596         switch (feparm.bandwidth)
1597         {
1598         case eDVBFrontendParametersTerrestrial::Bandwidth::Bw8MHz:
1599                 parm_u_ofdm_bandwidth = BANDWIDTH_8_MHZ;
1600                 break;
1601         case eDVBFrontendParametersTerrestrial::Bandwidth::Bw7MHz:
1602                 parm_u_ofdm_bandwidth = BANDWIDTH_7_MHZ;
1603                 break;
1604         case eDVBFrontendParametersTerrestrial::Bandwidth::Bw6MHz:
1605                 parm_u_ofdm_bandwidth = BANDWIDTH_6_MHZ;
1606                 break;
1607         default:
1608         case eDVBFrontendParametersTerrestrial::Bandwidth::BwAuto:
1609                 parm_u_ofdm_bandwidth = BANDWIDTH_AUTO;
1610                 break;
1611         }
1612         switch (feparm.code_rate_LP)
1613         {
1614         case eDVBFrontendParametersTerrestrial::FEC::f1_2:
1615                 parm_u_ofdm_code_rate_LP = FEC_1_2;
1616                 break;
1617         case eDVBFrontendParametersTerrestrial::FEC::f2_3:
1618                 parm_u_ofdm_code_rate_LP = FEC_2_3;
1619                 break;
1620         case eDVBFrontendParametersTerrestrial::FEC::f3_4:
1621                 parm_u_ofdm_code_rate_LP = FEC_3_4;
1622                 break;
1623         case eDVBFrontendParametersTerrestrial::FEC::f5_6:
1624                 parm_u_ofdm_code_rate_LP = FEC_5_6;
1625                 break;
1626         case eDVBFrontendParametersTerrestrial::FEC::f7_8:
1627                 parm_u_ofdm_code_rate_LP = FEC_7_8;
1628                 break;
1629         default:
1630         case eDVBFrontendParametersTerrestrial::FEC::fAuto:
1631                 parm_u_ofdm_code_rate_LP = FEC_AUTO;
1632                 break;
1633         }
1634         switch (feparm.code_rate_HP)
1635         {
1636         case eDVBFrontendParametersTerrestrial::FEC::f1_2:
1637                 parm_u_ofdm_code_rate_HP = FEC_1_2;
1638                 break;
1639         case eDVBFrontendParametersTerrestrial::FEC::f2_3:
1640                 parm_u_ofdm_code_rate_HP = FEC_2_3;
1641                 break;
1642         case eDVBFrontendParametersTerrestrial::FEC::f3_4:
1643                 parm_u_ofdm_code_rate_HP = FEC_3_4;
1644                 break;
1645         case eDVBFrontendParametersTerrestrial::FEC::f5_6:
1646                 parm_u_ofdm_code_rate_HP = FEC_5_6;
1647                 break;
1648         case eDVBFrontendParametersTerrestrial::FEC::f7_8:
1649                 parm_u_ofdm_code_rate_HP = FEC_7_8;
1650                 break;
1651         default:
1652         case eDVBFrontendParametersTerrestrial::FEC::fAuto:
1653                 parm_u_ofdm_code_rate_HP = FEC_AUTO;
1654                 break;
1655         }
1656         switch (feparm.modulation)
1657         {
1658         case eDVBFrontendParametersTerrestrial::Modulation::QPSK:
1659                 parm_u_ofdm_constellation = QPSK;
1660                 break;
1661         case eDVBFrontendParametersTerrestrial::Modulation::QAM16:
1662                 parm_u_ofdm_constellation = QAM_16;
1663                 break;
1664         case eDVBFrontendParametersTerrestrial::Modulation::QAM64:
1665                 parm_u_ofdm_constellation = QAM_64;
1666                 break;
1667         default:
1668         case eDVBFrontendParametersTerrestrial::Modulation::Auto:
1669                 parm_u_ofdm_constellation = QAM_AUTO;
1670                 break;
1671         }
1672         switch (feparm.transmission_mode)
1673         {
1674         case eDVBFrontendParametersTerrestrial::TransmissionMode::TM2k:
1675                 parm_u_ofdm_transmission_mode = TRANSMISSION_MODE_2K;
1676                 break;
1677         case eDVBFrontendParametersTerrestrial::TransmissionMode::TM8k:
1678                 parm_u_ofdm_transmission_mode = TRANSMISSION_MODE_8K;
1679                 break;
1680         default:
1681         case eDVBFrontendParametersTerrestrial::TransmissionMode::TMAuto:
1682                 parm_u_ofdm_transmission_mode = TRANSMISSION_MODE_AUTO;
1683                 break;
1684         }
1685         switch (feparm.guard_interval)
1686         {
1687                 case eDVBFrontendParametersTerrestrial::GuardInterval::GI_1_32:
1688                         parm_u_ofdm_guard_interval = GUARD_INTERVAL_1_32;
1689                         break;
1690                 case eDVBFrontendParametersTerrestrial::GuardInterval::GI_1_16:
1691                         parm_u_ofdm_guard_interval = GUARD_INTERVAL_1_16;
1692                         break;
1693                 case eDVBFrontendParametersTerrestrial::GuardInterval::GI_1_8:
1694                         parm_u_ofdm_guard_interval = GUARD_INTERVAL_1_8;
1695                         break;
1696                 case eDVBFrontendParametersTerrestrial::GuardInterval::GI_1_4:
1697                         parm_u_ofdm_guard_interval = GUARD_INTERVAL_1_4;
1698                         break;
1699                 default:
1700                 case eDVBFrontendParametersTerrestrial::GuardInterval::GI_Auto:
1701                         parm_u_ofdm_guard_interval = GUARD_INTERVAL_AUTO;
1702                         break;
1703         }
1704         switch (feparm.hierarchy)
1705         {
1706                 case eDVBFrontendParametersTerrestrial::Hierarchy::HNone:
1707                         parm_u_ofdm_hierarchy_information = HIERARCHY_NONE;
1708                         break;
1709                 case eDVBFrontendParametersTerrestrial::Hierarchy::H1:
1710                         parm_u_ofdm_hierarchy_information = HIERARCHY_1;
1711                         break;
1712                 case eDVBFrontendParametersTerrestrial::Hierarchy::H2:
1713                         parm_u_ofdm_hierarchy_information = HIERARCHY_2;
1714                         break;
1715                 case eDVBFrontendParametersTerrestrial::Hierarchy::H4:
1716                         parm_u_ofdm_hierarchy_information = HIERARCHY_4;
1717                         break;
1718                 default:
1719                 case eDVBFrontendParametersTerrestrial::Hierarchy::HAuto:
1720                         parm_u_ofdm_hierarchy_information = HIERARCHY_AUTO;
1721                         break;
1722         }
1723         switch (feparm.inversion)
1724         {
1725         case eDVBFrontendParametersTerrestrial::Inversion::On:
1726                 parm_inversion = INVERSION_ON;
1727                 break;
1728         case eDVBFrontendParametersTerrestrial::Inversion::Off:
1729                 parm_inversion = INVERSION_OFF;
1730                 break;
1731         default:
1732         case eDVBFrontendParametersTerrestrial::Inversion::Unknown:
1733                 parm_inversion = INVERSION_AUTO;
1734                 break;
1735         }
1736         return 0;
1737 }
1738
1739 RESULT eDVBFrontend::tune(const iDVBFrontendParameters &where)
1740 {
1741         eDebug("(%d)tune", m_fe);
1742
1743         m_timeout->stop();
1744
1745         int res=0;
1746
1747         if (!m_sn)
1748         {
1749                 eDebug("no frontend device opened... do not try to tune !!!");
1750                 res = -ENODEV;
1751                 goto tune_error;
1752         }
1753
1754         if (m_type == -1)
1755         {
1756                 res = -ENODEV;
1757                 goto tune_error;
1758         }
1759
1760         m_sn->stop();
1761         m_sec_sequence.clear();
1762
1763         switch (m_type)
1764         {
1765         case feSatellite:
1766         {
1767                 eDVBFrontendParametersSatellite feparm;
1768                 if (where.getDVBS(feparm))
1769                 {
1770                         eDebug("no dvbs data!");
1771                         res = -EINVAL;
1772                         goto tune_error;
1773                 }
1774                 m_sec->setRotorMoving(false);
1775                 res=prepare_sat(feparm);
1776                 if (res)
1777                         goto tune_error;
1778
1779                 break;
1780         }
1781         case feCable:
1782         {
1783                 eDVBFrontendParametersCable feparm;
1784                 if (where.getDVBC(feparm))
1785                 {
1786                         res = -EINVAL;
1787                         goto tune_error;
1788                 }
1789                 res=prepare_cable(feparm);
1790                 if (res)
1791                         goto tune_error;
1792
1793                 m_sec_sequence.push_back( eSecCommand(eSecCommand::START_TUNE_TIMEOUT) );
1794                 m_sec_sequence.push_back( eSecCommand(eSecCommand::SET_FRONTEND) );
1795                 break;
1796         }
1797         case feTerrestrial:
1798         {
1799                 eDVBFrontendParametersTerrestrial feparm;
1800                 if (where.getDVBT(feparm))
1801                 {
1802                         eDebug("no -T data");
1803                         res = -EINVAL;
1804                         goto tune_error;
1805                 }
1806                 res=prepare_terrestrial(feparm);
1807                 if (res)
1808                         goto tune_error;
1809
1810                 std::string enable_5V;
1811                 char configStr[255];
1812                 snprintf(configStr, 255, "config.Nims.%d.terrestrial_5V", m_fe);
1813                 m_sec_sequence.push_back( eSecCommand(eSecCommand::START_TUNE_TIMEOUT) );
1814                 ePythonConfigQuery::getConfigValue(configStr, enable_5V);
1815                 if (enable_5V == "True")
1816                         m_sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, iDVBFrontend::voltage13) );
1817                 else
1818                         m_sec_sequence.push_back( eSecCommand(eSecCommand::SET_VOLTAGE, iDVBFrontend::voltageOff) );
1819                 m_sec_sequence.push_back( eSecCommand(eSecCommand::SET_FRONTEND) );
1820
1821                 break;
1822         }
1823         }
1824
1825         m_tuneTimer->start(0,true);
1826         m_sec_sequence.current() = m_sec_sequence.begin();
1827
1828         if (m_state != stateTuning)
1829         {
1830                 m_tuning = 1;
1831                 m_state = stateTuning;
1832                 m_stateChanged(this);
1833         }
1834
1835         return res;
1836
1837 tune_error:
1838         m_tuneTimer->stop();
1839         return res;
1840 }
1841
1842 RESULT eDVBFrontend::connectStateChange(const Slot1<void,iDVBFrontend*> &stateChange, ePtr<eConnection> &connection)
1843 {
1844         connection = new eConnection(this, m_stateChanged.connect(stateChange));
1845         return 0;
1846 }
1847
1848 RESULT eDVBFrontend::setVoltage(int voltage)
1849 {
1850         if (m_type == feCable)
1851                 return -1;
1852 #if HAVE_DVB_API_VERSION < 3
1853         secVoltage vlt;
1854 #else
1855         bool increased=false;
1856         fe_sec_voltage_t vlt;
1857 #endif
1858         m_data[CUR_VOLTAGE]=voltage;
1859         switch (voltage)
1860         {
1861         case voltageOff:
1862                 for (int i=0; i < 3; ++i)  // reset diseqc
1863                         m_data[i]=-1;
1864                 vlt = SEC_VOLTAGE_OFF;
1865                 break;
1866         case voltage13_5:
1867 #if HAVE_DVB_API_VERSION < 3
1868                 vlt = SEC_VOLTAGE_13_5;
1869                 break;
1870 #else
1871                 increased = true;
1872 #endif
1873         case voltage13:
1874                 vlt = SEC_VOLTAGE_13;
1875                 break;
1876         case voltage18_5:
1877 #if HAVE_DVB_API_VERSION < 3
1878                 vlt = SEC_VOLTAGE_18_5;
1879                 break;
1880 #else
1881                 increased = true;
1882 #endif
1883         case voltage18:
1884                 vlt = SEC_VOLTAGE_18;
1885                 break;
1886         default:
1887                 return -ENODEV;
1888         }
1889 #if HAVE_DVB_API_VERSION < 3
1890         return ::ioctl(m_secfd, SEC_SET_VOLTAGE, vlt);
1891 #else
1892         if (m_type == feSatellite && ::ioctl(m_fd, FE_ENABLE_HIGH_LNB_VOLTAGE, increased) < 0)
1893                 perror("FE_ENABLE_HIGH_LNB_VOLTAGE");
1894         return ::ioctl(m_fd, FE_SET_VOLTAGE, vlt);
1895 #endif
1896 }
1897
1898 RESULT eDVBFrontend::getState(int &state)
1899 {
1900         state = m_state;
1901         return 0;
1902 }
1903
1904 RESULT eDVBFrontend::setTone(int t)
1905 {
1906         if (m_type != feSatellite)
1907                 return -1;
1908 #if HAVE_DVB_API_VERSION < 3
1909         secToneMode_t tone;
1910 #else
1911         fe_sec_tone_mode_t tone;
1912 #endif
1913         m_data[CUR_TONE]=t;
1914         switch (t)
1915         {
1916         case toneOn:
1917                 tone = SEC_TONE_ON;
1918                 break;
1919         case toneOff:
1920                 tone = SEC_TONE_OFF;
1921                 break;
1922         default:
1923                 return -ENODEV;
1924         }
1925 #if HAVE_DVB_API_VERSION < 3    
1926         return ::ioctl(m_secfd, SEC_SET_TONE, tone);
1927 #else   
1928         return ::ioctl(m_fd, FE_SET_TONE, tone);
1929 #endif
1930 }
1931
1932 #if HAVE_DVB_API_VERSION < 3 && !defined(SEC_DISEQC_SEND_MASTER_CMD)
1933         #define SEC_DISEQC_SEND_MASTER_CMD _IOW('o', 97, struct secCommand *)
1934 #endif
1935
1936 RESULT eDVBFrontend::sendDiseqc(const eDVBDiseqcCommand &diseqc)
1937 {
1938 #if HAVE_DVB_API_VERSION < 3
1939         struct secCommand cmd;
1940         cmd.type = SEC_CMDTYPE_DISEQC_RAW;
1941         cmd.u.diseqc.cmdtype = diseqc.data[0];
1942         cmd.u.diseqc.addr = diseqc.data[1];
1943         cmd.u.diseqc.cmd = diseqc.data[2];
1944         cmd.u.diseqc.numParams = diseqc.len-3;
1945         memcpy(cmd.u.diseqc.params, diseqc.data+3, diseqc.len-3);
1946         if (::ioctl(m_secfd, SEC_DISEQC_SEND_MASTER_CMD, &cmd))
1947 #else
1948         struct dvb_diseqc_master_cmd cmd;
1949         memcpy(cmd.msg, diseqc.data, diseqc.len);
1950         cmd.msg_len = diseqc.len;
1951         if (::ioctl(m_fd, FE_DISEQC_SEND_MASTER_CMD, &cmd))
1952 #endif
1953                 return -EINVAL;
1954         return 0;
1955 }
1956
1957 #if HAVE_DVB_API_VERSION < 3 && !defined(SEC_DISEQC_SEND_BURST)
1958         #define SEC_DISEQC_SEND_BURST _IO('o', 96)
1959 #endif
1960 RESULT eDVBFrontend::sendToneburst(int burst)
1961 {
1962 #if HAVE_DVB_API_VERSION < 3
1963         secMiniCmd cmd = SEC_MINI_NONE;
1964 #else
1965         fe_sec_mini_cmd_t cmd = SEC_MINI_A;
1966 #endif
1967         if ( burst == eDVBSatelliteDiseqcParameters::A )
1968                 cmd = SEC_MINI_A;
1969         else if ( burst == eDVBSatelliteDiseqcParameters::B )
1970                 cmd = SEC_MINI_B;
1971 #if HAVE_DVB_API_VERSION < 3
1972         if (::ioctl(m_secfd, SEC_DISEQC_SEND_BURST, cmd))
1973                 return -EINVAL;
1974 #else
1975         if (::ioctl(m_fd, FE_DISEQC_SEND_BURST, cmd))
1976                 return -EINVAL;
1977 #endif
1978         return 0;
1979 }
1980
1981 RESULT eDVBFrontend::setSEC(iDVBSatelliteEquipmentControl *sec)
1982 {
1983         m_sec = sec;
1984         return 0;
1985 }
1986
1987 RESULT eDVBFrontend::setSecSequence(const eSecCommandList &list)
1988 {
1989         m_sec_sequence = list;
1990         return 0;
1991 }
1992
1993 RESULT eDVBFrontend::getData(int num, int &data)
1994 {
1995         if ( num < NUM_DATA_ENTRIES )
1996         {
1997                 data = m_data[num];
1998                 return 0;
1999         }
2000         return -EINVAL;
2001 }
2002
2003 RESULT eDVBFrontend::setData(int num, int val)
2004 {
2005         if ( num < NUM_DATA_ENTRIES )
2006         {
2007                 m_data[num] = val;
2008                 return 0;
2009         }
2010         return -EINVAL;
2011 }
2012
2013 int eDVBFrontend::isCompatibleWith(ePtr<iDVBFrontendParameters> &feparm)
2014 {
2015         int type;
2016         if (feparm->getSystem(type) || type != m_type)
2017                 return 0;
2018
2019         if (m_type == eDVBFrontend::feSatellite)
2020         {
2021                 ASSERT(m_sec);
2022                 eDVBFrontendParametersSatellite sat_parm;
2023                 int ret = feparm->getDVBS(sat_parm);
2024                 ASSERT(!ret);
2025                 return m_sec->canTune(sat_parm, this, 1 << m_fe);
2026         }
2027         else if (m_type == eDVBFrontend::feCable)
2028                 return 2;  // more prio for cable frontends
2029         return 1;
2030 }