#define FP_IOCTL_SET_RTC 0x101
#define FP_IOCTL_GET_RTC 0x102
+#define TIME_UPDATE_INTERVAL (30*60*1000)
+
static time_t prev_time;
void setRTC(time_t time)
DEFINE_REF(eDVBLocalTimeHandler);
eDVBLocalTimeHandler::eDVBLocalTimeHandler()
- :m_time_ready(false)
+ :m_time_ready(false), m_updateNonTunedTimer(eTimer::create(eApp))
{
if ( !instance )
instance=this;
/*emit*/ m_timeUpdated();
}
}
+ CONNECT(m_updateNonTunedTimer->timeout, eDVBLocalTimeHandler::updateNonTuned);
}
eDVBLocalTimeHandler::~eDVBLocalTimeHandler()
}
}
+void eDVBLocalTimeHandler::updateNonTuned()
+{
+ updateTime(-1, 0, 0);
+ m_updateNonTunedTimer->start(TIME_UPDATE_INTERVAL, true);
+}
+
void eDVBLocalTimeHandler::updateTime( time_t tp_time, eDVBChannel *chan, int update_count )
{
int time_difference;
int updateCount = it->second.tdt->getUpdateCount();
it->second.tdt = 0;
it->second.tdt = new TDT(chan, updateCount);
- it->second.tdt->startTimer(60*60*1000); // restart TDT for this transponder in 60min
+ it->second.tdt->startTimer(TIME_UPDATE_INTERVAL); // restart TDT for this transponder in 30min
}
}
}
{
case iDVBChannel::state_ok:
eDebug("[eDVBLocalTimerHandler] channel %p running", chan);
+ m_updateNonTunedTimer->stop();
it->second.tdt = new TDT(it->second.channel);
it->second.tdt->start();
break;
case iDVBChannel::state_release:
eDebug("[eDVBLocalTimerHandler] remove channel %p", chan);
m_knownChannels.erase(it);
+ if (m_knownChannels.empty())
+ m_updateNonTunedTimer->start(TIME_UPDATE_INTERVAL, true);
break;
default: // ignore all other events
return;