[vuplus_dvbapp] / lib / dvb / dvbtime.cpp

#include <lib/dvb/dvbtime.h>
#include <lib/dvb/dvb.h>

#include <sys/ioctl.h>
#include <stdio.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>

// defines for DM7000 / DM7020
#define FP_IOCTL_SET_RTC         0x101
#define FP_IOCTL_GET_RTC         0x102

static time_t prev_time;

void setRTC(time_t time)
{
        FILE *f = fopen("/proc/stb/fp/rtc", "w");
        if (f)
        {
                if (fprintf(f, "%u", time))
                        prev_time = time;
                else
                        eDebug("write /proc/stb/fp/rtc failed (%m)");
                fclose(f);
        }
        else
        {
                int fd = open("/dev/dbox/fp0", O_RDWR);
                if ( fd >= 0 )
                {
                        if ( ::ioctl(fd, FP_IOCTL_SET_RTC, (void*)&time ) < 0 )
                                eDebug("FP_IOCTL_SET_RTC failed(%m)");
                        else
                                prev_time = time;
                        close(fd);
                }
        }
}

time_t getRTC()
{
        time_t rtc_time=0;
        FILE *f = fopen("/proc/stb/fp/rtc", "r");
        if (f)
        {
                // sanity check to detect corrupt atmel firmware
                if (fscanf(f, "%u", &rtc_time) != 1)
                        eDebug("read /proc/stb/fp/rtc failed (%m)");
                fclose(f);
        }
        else
        {
                int fd = open("/dev/dbox/fp0", O_RDWR);
                if ( fd >= 0 )
                {
                        if ( ::ioctl(fd, FP_IOCTL_GET_RTC, (void*)&rtc_time ) < 0 )
                                eDebug("FP_IOCTL_GET_RTC failed(%m)");
                        close(fd);
                }
        }
        return rtc_time != prev_time ? rtc_time : 0;
}

time_t parseDVBtime(__u8 t1, __u8 t2, __u8 t3, __u8 t4, __u8 t5)
{
        tm t;
        t.tm_sec=fromBCD(t5);
        t.tm_min=fromBCD(t4);
        t.tm_hour=fromBCD(t3);
        int mjd=(t1<<8)|t2;
        int k;

        t.tm_year = (int) ((mjd - 15078.2) / 365.25);
        t.tm_mon = (int) ((mjd - 14956.1 - (int)(t.tm_year * 365.25)) / 30.6001);
        t.tm_mday = (int) (mjd - 14956 - (int)(t.tm_year * 365.25) - (int)(t.tm_mon * 30.6001));
        k = (t.tm_mon == 14 || t.tm_mon == 15) ? 1 : 0;
        t.tm_year = t.tm_year + k;
        t.tm_mon = t.tm_mon - 1 - k * 12;
        t.tm_mon--;

        t.tm_isdst =  0;
        t.tm_gmtoff = 0;

        return timegm(&t);
}

TDT::TDT(eDVBChannel *chan, int update_count)
        :chan(chan), m_interval_timer(eTimer::create()), update_count(update_count)
{
        CONNECT(tableReady, TDT::ready);
        CONNECT(m_interval_timer->timeout, TDT::start);
        if (chan)
                chan->getDemux(demux, 0);
}

void TDT::ready(int error)
{
        eDVBLocalTimeHandler::getInstance()->updateTime(error, chan, ++update_count);
}

int TDT::createTable(unsigned int nr, const __u8 *data, unsigned int max)
{
        if ( data && data[0] == 0x70 || data[0] == 0x73 )
        {
                int length = ((data[1] & 0x0F) << 8) | data[2];
                if ( length >= 5 )
                {
                        time_t tptime = parseDVBtime(data[3], data[4], data[5], data[6], data[7]);
                        if (tptime && tptime != -1)
                                eDVBLocalTimeHandler::getInstance()->updateTime(tptime, chan, update_count);
                        error=0;
                        return 1;
                }
        }
        return 0;
}

void TDT::start()
{
        if ( chan )
        {
                eDVBTableSpec spec;
                spec.pid = TimeAndDateSection::PID;
                spec.tid = TimeAndDateSection::TID;
                spec.tid_mask = 0xFC;
                spec.timeout = TimeAndDateSection::TIMEOUT;
                spec.flags= eDVBTableSpec::tfAnyVersion |
                                        eDVBTableSpec::tfHaveTID |
                                        eDVBTableSpec::tfHaveTIDMask |
                                        eDVBTableSpec::tfHaveTimeout;
                if ( demux )
                        eGTable::start( demux, spec );
        }
}

void TDT::startTimer( int interval )
{
        m_interval_timer->start(interval, true);
}

eDVBLocalTimeHandler *eDVBLocalTimeHandler::instance;
DEFINE_REF(eDVBLocalTimeHandler);

eDVBLocalTimeHandler::eDVBLocalTimeHandler()
        :m_time_ready(false)
{
        if ( !instance )
                instance=this;
        ePtr<eDVBResourceManager> res_mgr;
        eDVBResourceManager::getInstance(res_mgr);
        if (!res_mgr)
                eDebug("[eDVBLocalTimerHandler] no resource manager !!!!!!!");
        else
        {
                res_mgr->connectChannelAdded(slot(*this,&eDVBLocalTimeHandler::DVBChannelAdded), m_chanAddedConn);
                time_t now = time(0);
                if ( now < 1072224000 ) // 01.01.2004
                        eDebug("RTC not ready... wait for transponder time");
                else // inform all who's waiting for valid system time..
                {
                        eDebug("Use valid Linux Time :) (RTC?)");
                        m_time_ready = true;
                        /*emit*/ m_timeUpdated();
                }
        }
}

eDVBLocalTimeHandler::~eDVBLocalTimeHandler()
{
        instance=0;
        for (std::map<iDVBChannel*, channel_data>::iterator it=m_knownChannels.begin(); it != m_knownChannels.end(); ++it)
                delete it->second.tdt;
        if (ready())
        {
                eDebug("set RTC to previous valid time");
                setRTC(::time(0));
        }
}

void eDVBLocalTimeHandler::readTimeOffsetData( const char* filename )
{
        m_timeOffsetMap.clear();
        FILE *f=fopen(filename, "r");
        if (!f)
                return;
        char line[256];
        fgets(line, 256, f);
        while (true)
        {
                if (!fgets( line, 256, f ))
                        break;
                if (strstr(line, "Transponder UTC Time Offsets\n"))
                        continue;
                int dvbnamespace,tsid,onid,offs;
                if ( sscanf( line, "%08x,%04x,%04x:%d\n",&dvbnamespace,&tsid,&onid,&offs ) == 4 )
                        m_timeOffsetMap[eDVBChannelID(dvbnamespace,tsid,onid)]=offs;
        }
        fclose(f);
}

void eDVBLocalTimeHandler::writeTimeOffsetData( const char* filename )
{
        FILE *f=fopen(filename, "w+");
        if ( f )
        {
                fprintf(f, "Transponder UTC Time Offsets\n");
                for ( std::map<eDVBChannelID,int>::iterator it ( m_timeOffsetMap.begin() ); it != m_timeOffsetMap.end(); ++it )
                        fprintf(f, "%08x,%04x,%04x:%d\n",
                                it->first.dvbnamespace.get(),
                                it->first.transport_stream_id.get(), it->first.original_network_id.get(), it->second );
                fclose(f);
        }
}

void eDVBLocalTimeHandler::updateTime( time_t tp_time, eDVBChannel *chan, int update_count )
{
        int time_difference;
        bool restart_tdt = false;
        if (!tp_time)
                restart_tdt = true;
        else if (tp_time == -1)
        {
                restart_tdt = true;
                /*if ( eSystemInfo::getInstance()->getHwType() == eSystemInfo::DM7020 ||
                ( eSystemInfo::getInstance()->getHwType() == eSystemInfo::DM7000
                        && eSystemInfo::getInstance()->hasStandbyWakeupTimer() ) )     TODO !!!!!!! */
                {
                        eDebug("[eDVBLocalTimerHandler] no transponder tuned... or no TDT/TOT avail .. try to use RTC :)");
                        time_t rtc_time = getRTC();
                        if ( rtc_time ) // RTC Ready?
                        {
                                tm now;
                                localtime_r(&rtc_time, &now);
                                eDebug("[eDVBLocalTimerHandler] RTC time is %02d:%02d:%02d",
                                        now.tm_hour,
                                        now.tm_min,
                                        now.tm_sec);
                                time_t linuxTime=time(0);
                                localtime_r(&linuxTime, &now);
                                eDebug("[eDVBLocalTimerHandler] Receiver time is %02d:%02d:%02d",
                                        now.tm_hour,
                                        now.tm_min,
                                        now.tm_sec);
                                time_difference = rtc_time - linuxTime;
                                eDebug("[eDVBLocalTimerHandler] RTC to Receiver time difference is %ld seconds", linuxTime - rtc_time );
                                if ( time_difference )
                                {
                                        eDebug("[eDVBLocalTimerHandler] set Linux Time to RTC Time");
                                        timeval tnow;
                                        gettimeofday(&tnow,0);
                                        tnow.tv_sec=rtc_time;
                                        settimeofday(&tnow,0);
                                }
                                else if ( !time_difference )
                                        eDebug("[eDVBLocalTimerHandler] no change needed");
                                else
                                        eDebug("[eDVBLocalTimerHandler] set to RTC time");
                                /*emit*/ m_timeUpdated();
                        }
                        else
                                eDebug("[eDVBLocalTimerHandler] shit RTC not ready :(");
                }
        }
        else
        {
                std::map< eDVBChannelID, int >::iterator it( m_timeOffsetMap.find( chan->getChannelID() ) );

 // current linux time
                time_t linuxTime = time(0);

        // difference between current enigma time and transponder time
                int enigma_diff = tp_time-linuxTime;

                int new_diff=0;

                bool updated = m_time_ready;

                if ( m_time_ready )  // ref time ready?
                {
                        // difference between reference time (current enigma time)
                        // and the transponder time
                        eDebug("[eDVBLocalTimerHandler] diff is %d", enigma_diff);
                        if ( abs(enigma_diff) < 120 )
                        {
                                eDebug("[eDVBLocalTimerHandler] diff < 120 .. use Transponder Time");
                                m_timeOffsetMap[chan->getChannelID()] = 0;
                                new_diff = enigma_diff;
                        }
                        else if ( it != m_timeOffsetMap.end() ) // correction saved?
                        {
                                eDebug("[eDVBLocalTimerHandler] we have correction %d", it->second);
                                time_t CorrectedTpTime = tp_time+it->second;
                                int ddiff = CorrectedTpTime-linuxTime;
                                eDebug("[eDVBLocalTimerHandler] diff after add correction is %d", ddiff);
                                if ( abs(it->second) < 300 ) // stored correction < 5 min
                                {
                                        eDebug("[eDVBLocalTimerHandler] use stored correction(<5 min)");
                                        new_diff = ddiff;
                                }
                                else if ( getRTC() )
                                {
                                        time_t rtc=getRTC();
                                        m_timeOffsetMap[chan->getChannelID()] = rtc-tp_time;
                                        new_diff = rtc-linuxTime;  // set enigma time to rtc
                                        eDebug("[eDVBLocalTimerHandler] update stored correction to %ld (calced against RTC time)", rtc-tp_time );
                                }
                                else if ( abs(ddiff) <= 120 )
                                {
// with stored correction calced time difference is lower 2 min
// this don't help when a transponder have a clock running to slow or to fast
// then its better to have a DM7020 with always running RTC
                                        eDebug("[eDVBLocalTimerHandler] use stored correction(corr < 2 min)");
                                        new_diff = ddiff;
                                }
                                else  // big change in calced correction.. hold current time and update correction
                                {
                                        eDebug("[eDVBLocalTimerHandler] update stored correction to %d", -enigma_diff);
                                        m_timeOffsetMap[chan->getChannelID()] = -enigma_diff;
                                }
                        }
                        else
                        {
                                eDebug("[eDVBLocalTimerHandler] no correction found... store calced correction(%d)",-enigma_diff);
                                m_timeOffsetMap[chan->getChannelID()] = -enigma_diff;
                        }
                }
                else  // no time setted yet
                {
                        if ( it != m_timeOffsetMap.end() )
                        {
                                enigma_diff += it->second;
                                eDebug("[eDVBLocalTimerHandler] we have correction (%d)... use", it->second );
                        }
                        else
                                eDebug("[eDVBLocalTimerHandler] dont have correction.. set Transponder Diff");
                        new_diff=enigma_diff;
                        m_time_ready=true;
                }

                time_t t = linuxTime+new_diff;
                m_last_tp_time_difference=tp_time-t;

                if (!new_diff &&
                        updated) // overrride this check on first received TDT
                {
                        eDebug("[eDVBLocalTimerHandler] not changed");
                        return;
                }

                if ( !update_count )
                {
                        // set rtc to calced transponder time when the first tdt is received on this
                        // transponder
                        setRTC(t);
                        eDebug("[eDVBLocalTimerHandler] update RTC");
                }
                else if (getRTC())
                {
                        if (abs(getRTC() - t) > 60)
                        {
                                eDebug("[eDVBLocalTimerHandler] difference between new linux time and RTC time is > 60 sec... transponder time looks not ok... use rtc time");
                                t = getRTC();
                        }
                        else
                                eDebug("[eDVBLocalTimerHandler] difference between linux time and RTC time is < 60 sec... so the transponder time looks ok");
                }
                else
                        eDebug("[eDVBLocalTimerHandler] no RTC available :(");

                tm now;
                localtime_r(&t, &now);
                eDebug("[eDVBLocalTimerHandler] time update to %02d:%02d:%02d",
                        now.tm_hour,
                        now.tm_min,
                        now.tm_sec);

                time_difference = t - linuxTime;   // calc our new linux_time -> enigma_time correction
                eDebug("[eDVBLocalTimerHandler] m_time_difference is %d", time_difference );

                if ( time_difference )
                {
                        eDebug("[eDVBLocalTimerHandler] set Linux Time");
                        timeval tnow;
                        gettimeofday(&tnow,0);
                        tnow.tv_sec=t;
                        settimeofday(&tnow,0);
                }

                 /*emit*/ m_timeUpdated();
        }

        if ( restart_tdt )
        {
                std::map<iDVBChannel*, channel_data>::iterator it =
                        m_knownChannels.find(chan);
                if ( it != m_knownChannels.end() )
                {
                        TDT *prev_tdt = it->second.tdt;
                        it->second.tdt = new TDT(chan, prev_tdt->getUpdateCount());
                        it->second.tdt->startTimer(60*60*1000);  // restart TDT for this transponder in 60min
                        delete prev_tdt;
                }
        }
}

void eDVBLocalTimeHandler::DVBChannelAdded(eDVBChannel *chan)
{
        if ( chan )
        {
//              eDebug("[eDVBLocalTimerHandler] add channel %p", chan);
                std::pair<std::map<iDVBChannel*, channel_data>::iterator, bool> tmp =
                        m_knownChannels.insert( std::pair<iDVBChannel*, channel_data>(chan, channel_data()) );
                tmp.first->second.tdt = NULL;
                tmp.first->second.channel = chan;
                tmp.first->second.m_prevChannelState = -1;
                chan->connectStateChange(slot(*this, &eDVBLocalTimeHandler::DVBChannelStateChanged), tmp.first->second.m_stateChangedConn);
        }
}

void eDVBLocalTimeHandler::DVBChannelStateChanged(iDVBChannel *chan)
{
        std::map<iDVBChannel*, channel_data>::iterator it =
                m_knownChannels.find(chan);
        if ( it != m_knownChannels.end() )
        {
                int state=0;
                chan->getState(state);
                if ( state != it->second.m_prevChannelState )
                {
                        switch (state)
                        {
                                case iDVBChannel::state_ok:
                                        eDebug("[eDVBLocalTimerHandler] channel %p running", chan);
                                        it->second.tdt = new TDT(it->second.channel);
                                        it->second.tdt->start();
                                        break;
                                case iDVBChannel::state_release:
                                        eDebug("[eDVBLocalTimerHandler] remove channel %p", chan);
                                        delete it->second.tdt;
                                        m_knownChannels.erase(it);
                                        break;
                                default: // ignore all other events
                                        return;
                        }
                        it->second.m_prevChannelState = state;
                }
        }
}