+ case BANDWIDTH_8_MHZ: tmp = eDVBFrontendParametersTerrestrial::Bandwidth_8MHz; break;
+ case BANDWIDTH_7_MHZ: tmp = eDVBFrontendParametersTerrestrial::Bandwidth_7MHz; break;
+ case BANDWIDTH_6_MHZ: tmp = eDVBFrontendParametersTerrestrial::Bandwidth_6MHz; break;
+ default:
+ case BANDWIDTH_AUTO: tmp = eDVBFrontendParametersTerrestrial::Bandwidth_Auto; break;
+ }
+ PutToDict(dict, "bandwidth", tmp);
+ switch (parm_u_ofdm_code_rate_LP)
+ {
+ case FEC_1_2: tmp = eDVBFrontendParametersTerrestrial::FEC_1_2; break;
+ case FEC_2_3: tmp = eDVBFrontendParametersTerrestrial::FEC_2_3; break;
+ case FEC_3_4: tmp = eDVBFrontendParametersTerrestrial::FEC_3_4; break;
+ case FEC_5_6: tmp = eDVBFrontendParametersTerrestrial::FEC_5_6; break;
+ case FEC_7_8: tmp = eDVBFrontendParametersTerrestrial::FEC_7_8; break;
+ default:
+ case FEC_AUTO: tmp = eDVBFrontendParametersTerrestrial::FEC_Auto; break;
+ }
+ PutToDict(dict, "code_rate_lp", tmp);
+ switch (parm_u_ofdm_code_rate_HP)
+ {
+ case FEC_1_2: tmp = eDVBFrontendParametersTerrestrial::FEC_1_2; break;
+ case FEC_2_3: tmp = eDVBFrontendParametersTerrestrial::FEC_2_3; break;
+ case FEC_3_4: tmp = eDVBFrontendParametersTerrestrial::FEC_3_4; break;
+ case FEC_5_6: tmp = eDVBFrontendParametersTerrestrial::FEC_5_6; break;
+ case FEC_7_8: tmp = eDVBFrontendParametersTerrestrial::FEC_7_8; break;
+ default:
+ case FEC_AUTO: tmp = eDVBFrontendParametersTerrestrial::FEC_Auto; break;
+ }
+ PutToDict(dict, "code_rate_hp", tmp);
+ switch (parm_u_ofdm_constellation)
+ {
+ case QPSK: tmp = eDVBFrontendParametersTerrestrial::Modulation_QPSK; break;
+ case QAM_16: tmp = eDVBFrontendParametersTerrestrial::Modulation_QAM16; break;
+ case QAM_64: tmp = eDVBFrontendParametersTerrestrial::Modulation_QAM64; break;
+ default:
+ case QAM_AUTO: tmp = eDVBFrontendParametersTerrestrial::Modulation_Auto; break;
+ }
+ PutToDict(dict, "constellation", tmp);
+ switch (parm_u_ofdm_transmission_mode)
+ {
+ case TRANSMISSION_MODE_2K: tmp = eDVBFrontendParametersTerrestrial::TransmissionMode_2k; break;
+ case TRANSMISSION_MODE_8K: tmp = eDVBFrontendParametersTerrestrial::TransmissionMode_8k; break;
+ default:
+ case TRANSMISSION_MODE_AUTO: tmp = eDVBFrontendParametersTerrestrial::TransmissionMode_Auto; break;
+ }
+ PutToDict(dict, "transmission_mode", tmp);
+ switch (parm_u_ofdm_guard_interval)
+ {
+ case GUARD_INTERVAL_1_32: tmp = eDVBFrontendParametersTerrestrial::GuardInterval_1_32; break;
+ case GUARD_INTERVAL_1_16: tmp = eDVBFrontendParametersTerrestrial::GuardInterval_1_16; break;
+ case GUARD_INTERVAL_1_8: tmp = eDVBFrontendParametersTerrestrial::GuardInterval_1_8; break;
+ case GUARD_INTERVAL_1_4: tmp = eDVBFrontendParametersTerrestrial::GuardInterval_1_4; break;
+ default:
+ case GUARD_INTERVAL_AUTO: tmp = eDVBFrontendParametersTerrestrial::GuardInterval_Auto; break;
+ }
+ PutToDict(dict, "guard_interval", tmp);
+ switch (parm_u_ofdm_hierarchy_information)
+ {
+ case HIERARCHY_NONE: tmp = eDVBFrontendParametersTerrestrial::Hierarchy_None; break;
+ case HIERARCHY_1: tmp = eDVBFrontendParametersTerrestrial::Hierarchy_1; break;
+ case HIERARCHY_2: tmp = eDVBFrontendParametersTerrestrial::Hierarchy_2; break;
+ case HIERARCHY_4: tmp = eDVBFrontendParametersTerrestrial::Hierarchy_4; break;
+ default:
+ case HIERARCHY_AUTO: tmp = eDVBFrontendParametersTerrestrial::Hierarchy_Auto; break;
+ }
+ PutToDict(dict, "hierarchy_information", tmp);
+}
+
+void eDVBFrontend::getFrontendStatus(ePyObject dest)
+{
+ if (dest && PyDict_Check(dest))
+ {
+ const char *tmp = "UNKNOWN";
+ switch(m_state)
+ {
+ case stateIdle:
+ tmp="IDLE";
+ break;
+ case stateTuning:
+ tmp="TUNING";
+ break;
+ case stateFailed:
+ tmp="FAILED";
+ break;
+ case stateLock:
+ tmp="LOCKED";
+ break;
+ case stateLostLock:
+ tmp="LOSTLOCK";
+ break;
+ default:
+ break;
+ }
+ PutToDict(dest, "tuner_state", tmp);
+ PutToDict(dest, "tuner_locked", readFrontendData(locked));
+ PutToDict(dest, "tuner_synced", readFrontendData(synced));
+ PutToDict(dest, "tuner_bit_error_rate", readFrontendData(bitErrorRate));
+ PutToDict(dest, "tuner_signal_quality", readFrontendData(signalQuality));
+ int sigQualitydB = readFrontendData(signalQualitydB);
+ if (sigQualitydB == 0x12345678) // not support yet
+ {
+ ePyObject obj=Py_None;
+ Py_INCREF(obj);
+ PutToDict(dest, "tuner_signal_quality_db", obj);
+ }
+ else
+ PutToDict(dest, "tuner_signal_quality_db", sigQualitydB);
+ PutToDict(dest, "tuner_signal_power", readFrontendData(signalPower));
+ }
+}
+
+void eDVBFrontend::getTransponderData(ePyObject dest, bool original)
+{
+ if (dest && PyDict_Check(dest))
+ {
+ switch(m_type)
+ {
+ case feSatellite:
+ case feCable:
+ case feTerrestrial:
+ {
+ FRONTENDPARAMETERS front;
+ if (m_fd == -1 && !original)
+ original = true;
+ else if (ioctl(m_fd, FE_GET_FRONTEND, &front)<0)
+ {
+ eDebug("FE_GET_FRONTEND failed (%m)");
+ original = true;
+ }
+ {
+ const FRONTENDPARAMETERS &parm = original || m_simulate ? this->parm : front;
+ long tmp = eDVBFrontendParametersSatellite::Inversion_Unknown;
+ switch(parm_inversion & 3)
+ {
+ case INVERSION_ON:
+ tmp = eDVBFrontendParametersSatellite::Inversion_On;
+ break;
+ case INVERSION_OFF:
+ tmp = eDVBFrontendParametersSatellite::Inversion_Off;
+ default:
+ break;
+ }
+ PutToDict(dest, "inversion", tmp);
+
+ switch(m_type)
+ {
+ case feSatellite:
+ fillDictWithSatelliteData(dest, original?parm:front, m_data[FREQ_OFFSET], m_cur_orbpos, m_cur_pol);
+ break;
+ case feCable:
+ fillDictWithCableData(dest, original?parm:front);
+ break;
+ case feTerrestrial:
+ fillDictWithTerrestrialData(dest, original?parm:front);
+ break;
+ }
+ }
+ }
+ default:
+ break;
+ }
+ }
+}
+
+void eDVBFrontend::getFrontendData(ePyObject dest)
+{
+ if (dest && PyDict_Check(dest))
+ {
+ const char *tmp=0;
+ PutToDict(dest, "tuner_number", m_slotid);
+ switch(m_type)
+ {
+ case feSatellite:
+ tmp = "DVB-S";
+ break;
+ case feCable:
+ tmp = "DVB-C";
+ break;
+ case feTerrestrial:
+ tmp = "DVB-T";
+ break;
+ default:
+ tmp = "UNKNOWN";
+ break;
+ }
+ PutToDict(dest, "tuner_type", tmp);
+ }
+}
+
+#ifndef FP_IOCTL_GET_ID
+#define FP_IOCTL_GET_ID 0
+#endif
+int eDVBFrontend::readInputpower()
+{
+ if (m_simulate)
+ return 0;
+ int power=m_slotid; // this is needed for read inputpower from the correct tuner !
+ char proc_name[64];
+ sprintf(proc_name, "/proc/stb/fp/lnb_sense%d", m_slotid);
+ FILE *f=fopen(proc_name, "r");
+ if (f)
+ {
+ if (fscanf(f, "%d", &power) != 1)
+ eDebug("read %s failed!! (%m)", proc_name);
+ else
+ eDebug("%s is %d\n", proc_name, power);
+ fclose(f);
+ }
+ else
+ {
+ // open front prozessor
+ int fp=::open("/dev/dbox/fp0", O_RDWR);
+ if (fp < 0)
+ {
+ eDebug("couldn't open fp");
+ return -1;
+ }
+ static bool old_fp = (::ioctl(fp, FP_IOCTL_GET_ID) < 0);
+ if ( ioctl( fp, old_fp ? 9 : 0x100, &power ) < 0 )
+ {
+ eDebug("FP_IOCTL_GET_LNB_CURRENT failed (%m)");
+ return -1;
+ }
+ ::close(fp);
+ }
+
+ return power;
+}
+
+bool eDVBFrontend::setSecSequencePos(int steps)
+{
+ eDebugNoSimulate("set sequence pos %d", steps);
+ if (!steps)
+ return false;
+ while( steps > 0 )
+ {
+ if (m_sec_sequence.current() != m_sec_sequence.end())
+ ++m_sec_sequence.current();
+ --steps;
+ }
+ while( steps < 0 )
+ {
+ if (m_sec_sequence.current() != m_sec_sequence.begin() && m_sec_sequence.current() != m_sec_sequence.end())
+ --m_sec_sequence.current();
+ ++steps;
+ }
+ return true;
+}
+
+void eDVBFrontend::tuneLoop() // called by m_tuneTimer
+{
+ int delay=0;
+ eDVBFrontend *sec_fe = this;
+ eDVBRegisteredFrontend *regFE = 0;
+ long tmp = m_data[LINKED_PREV_PTR];
+ while ( tmp != -1 )
+ {
+ eDVBRegisteredFrontend *prev = (eDVBRegisteredFrontend *)tmp;
+ sec_fe = prev->m_frontend;
+ tmp = prev->m_frontend->m_data[LINKED_PREV_PTR];
+ if (tmp == -1 && sec_fe != this && !prev->m_inuse) {
+ int state = sec_fe->m_state;
+ // workaround to put the kernel frontend thread into idle state!
+ if (state != eDVBFrontend::stateIdle && state != stateClosed)
+ {
+ sec_fe->closeFrontend(true);
+ state = sec_fe->m_state;
+ }
+ // sec_fe is closed... we must reopen it here..
+ if (state == eDVBFrontend::stateClosed)
+ {
+ regFE = prev;
+ prev->inc_use();
+ }
+ }
+ }
+
+ if ( m_sec_sequence && m_sec_sequence.current() != m_sec_sequence.end() )
+ {
+ long *sec_fe_data = sec_fe->m_data;
+// eDebugNoSimulate("tuneLoop %d\n", m_sec_sequence.current()->cmd);
+ switch (m_sec_sequence.current()->cmd)
+ {
+ case eSecCommand::SLEEP:
+ delay = m_sec_sequence.current()++->msec;
+ eDebugNoSimulate("[SEC] sleep %dms", delay);