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path: root/p2pvr/devices/frontends/ofdm.cpp
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#include "../frontend.h"
#include "../tuner.h"
#include <sys/ioctl.h>
#include <linux/dvb/frontend.h>

#define FREQ_OFFSET_MIN 0
#define FREQ_OFFSET_MAX 4

namespace P2PVR {
namespace DVB {
namespace Frontends {
class OFDM : public Frontend {
	public:
		OFDM(Tuner * t, int fd, const struct dvb_frontend_info & i) :
			Frontend(t, fd, i, LOGMANAGER()->getLogger<OFDM>())
		{
		}

		void TuneTo(const DVBSI::DeliveryPtr & mp) const
		{
			auto td = DVBSI::TerrestrialDeliveryPtr::dynamicCast(mp);
			if (!td) {
				throw P2PVR::IncorrectDeliveryType();
			}
			dvb_frontend_parameters feparams;
			memset(&feparams, 0, sizeof(dvb_frontend_parameters));
			feparams.frequency = td->Frequency;
			feparams.inversion = INVERSION_OFF;
			feparams.u.ofdm.bandwidth = (fe_bandwidth)td->Bandwidth;
			feparams.u.ofdm.code_rate_HP = (fe_code_rate_t)td->CodeRateHP;
			feparams.u.ofdm.code_rate_LP = (fe_code_rate_t)td->CodeRateLP;
			feparams.u.ofdm.constellation = (fe_modulation_t)td->Constellation;
			feparams.u.ofdm.transmission_mode = (fe_transmit_mode)td->TransmissionMode;
			feparams.u.ofdm.guard_interval = (fe_guard_interval_t)td->GuardInterval;
			feparams.u.ofdm.hierarchy_information = (fe_hierarchy_t)td->Hierarchy;
			SetParameters(feparams);
			WaitForLock();
		}

		dvb_frontend_parameters GetParameters() const
		{
			dvb_frontend_parameters feparams;
			memset(&feparams, 0, sizeof(dvb_frontend_parameters));
			if (ioctl(frontendFD, FE_GET_FRONTEND, &feparams) < 0) {
				logger->messagebf(LOG::ERR, "Reading frontend parameters failed (%s:%d)", tuner->Device(), strerror(errno), errno);
				throw P2PVR::DeviceError(tuner->Device(), strerror(errno), errno);
			}
			return feparams;
		}

		void WaitForLock() const
		{
			fe_status_t status = (fe_status_t)0;
			// Wait for something
			for (int x = tuner->options->TuningTimeout / 10; x > 0 && (status = GetStatus()) == 0; x -= 1) {
				usleep(10000);
			}
			// Was it useful?
			if (!(status & (FE_HAS_SIGNAL | FE_HAS_CARRIER))) {
				logger->messagebf(LOG::ERR, "Tuning of device %s failed (No signal or carrier: 0x%02x)", tuner->Device(), status);
				throw P2PVR::DeviceError(tuner->Device(), "No carrier", 0);
			}
			// Wait for lock
			for (int x = tuner->options->LockTimeout / 10; x > 0 && ((status = GetStatus()) & FE_HAS_LOCK) == 0; x -= 1) {
				usleep(10000);
			}
			if (!(status & FE_HAS_LOCK)) {
				logger->messagebf(LOG::ERR, "Tuning of device %s failed (%s)", tuner->Device(), "No lock");
				throw P2PVR::DeviceError(tuner->Device(), "No lock", 0);
			}
		}

		void SetParameters(const dvb_frontend_parameters & feparams) const
		{
			if (ioctl(frontendFD, FE_SET_FRONTEND, &feparams) < 0) {
				logger->messagebf(LOG::ERR, "Tuning of device %s failed (%s:%d)", tuner->Device(), strerror(errno), errno);
				throw P2PVR::DeviceError(tuner->Device(), strerror(errno), errno);
			}
		}

		std::string Type() const
		{
			return "OFDM (DVB-T)";
		}

		enum Country { DVBT_AU, DVBT_DE, DVBT_FR, DVBT_GB };

		static uint32_t FrequencyForCountry(Country country, int channel)
		{
			switch (country) {
				case DVBT_AU:  //AUSTRALIA, 7MHz step list
					switch (channel) {
						case  5 ... 12: return  142500000;
						case 21 ... 69: return  333500000;
					}
				case DVBT_DE:  //GERMANY
				case DVBT_FR:  //FRANCE, +/- offset 166kHz & +offset 332kHz & +offset 498kHz
				case DVBT_GB:  //UNITED KINGDOM, +/- offset
					switch (channel) {
						case  5 ... 12: return  142500000; // VHF unused in FRANCE, skip those in offset loop
						case 21 ... 69: return  306000000;
					}
			}
			return  0;
		}
		static uint32_t FrequencyStepForCountry(Country country, int channel)
		{
			switch (country) {
				case DVBT_AU:
					return  7000000; // dvb-t australia, 7MHz step
				case DVBT_DE:
				case DVBT_FR:
				case DVBT_GB:
					switch (channel) { // dvb-t europe, 7MHz VHF ch5..12, all other 8MHz
						case  5 ... 12:    return 7000000;
						case 21 ... 69:    return 8000000;
					}
			}
			return 0;
		}
		static uint32_t ChannelFrequencyForCountry(Country country, int channel, int)
		{
			return FrequencyForCountry(country, channel) + (channel * FrequencyStepForCountry(country, channel));
		}

		void FrequencyScan(const OnFrequencyFound & onFrequencyFound) const
		{
			struct dvb_frontend_parameters feparams;
			memset(&feparams, 0, sizeof(dvb_frontend_parameters));
			feparams.inversion = (fe_info.caps & FE_CAN_INVERSION_AUTO ? INVERSION_AUTO : INVERSION_OFF);
			feparams.u.ofdm.constellation = (fe_info.caps & FE_CAN_QAM_AUTO ? QAM_AUTO : QAM_64);
			feparams.u.ofdm.hierarchy_information = HIERARCHY_NONE;

			for (int channel = 0; channel < 134; channel += 1) {
				for (uint32_t offset = FREQ_OFFSET_MIN; offset <= 0/*FREQ_OFFSET_MAX*/; offset += 1) {
					feparams.frequency = ChannelFrequencyForCountry(DVBT_GB, channel, offset);
					if (feparams.frequency == 0) {
						continue;
					}
					if (fe_info.frequency_min > feparams.frequency || fe_info.frequency_max < feparams.frequency) {
						logger->messagebf(LOG::WARNING, "Channel %d, freq (%d Hz) outside card range", channel, feparams.frequency);
						continue;
					}
					try {
						logger->messagebf(LOG::DEBUG, "Channel %d, Frequency %d Hz", channel, feparams.frequency);
						SetParameters(feparams);
						WaitForLock();
						logger->messagebf(LOG::INFO, "Found multiplex at %d Hz", feparams.frequency);
						logger->messagebf(LOG::DEBUG, "frequency %d", feparams.frequency);
						if (onFrequencyFound(feparams.frequency)) {
							return;
						}
					}
					catch (const P2PVR::DeviceError &) {
						// Moving on...
					}
				}
			}
		}
};

NAMEDFACTORY(Frontend::FactoryKey(FE_OFDM), OFDM, FrontendFactory);
}
}
}