return scheduler::detail::FdManager::instance().eventTime();
}
-prefix_ void senf::scheduler::taskTimeout(unsigned ms)
+prefix_ void senf::scheduler::watchdogTimeout(unsigned ms)
{
scheduler::detail::FIFORunner::instance().taskTimeout(ms);
}
-prefix_ unsigned senf::scheduler::taskTimeout()
+prefix_ unsigned senf::scheduler::watchdogTimeout()
{
return scheduler::detail::FIFORunner::instance().taskTimeout();
}
-prefix_ unsigned senf::scheduler::hangCount()
+prefix_ unsigned senf::scheduler::watchdogEvents()
{
return scheduler::detail::FIFORunner::instance().hangCount();
}
-prefix_ void senf::scheduler::hiresTimers()
+prefix_ void senf::scheduler::watchdogAbort(bool flag)
{
- detail::TimerDispatcher::instance().timerSource(
- std::auto_ptr<detail::TimerSource>(new detail::POSIXTimerSource()));
+ scheduler::detail::FIFORunner::instance().abortOnTimeout(flag);
+}
+
+prefix_ bool senf::scheduler::watchdogAbort()
+{
+ return scheduler::detail::FIFORunner::instance().abortOnTimeout();
}
prefix_ void senf::scheduler::loresTimers()
prefix_ bool senf::scheduler::haveScalableHiresTimers()
{
+#ifndef HAVE_TIMERFD
return false;
+#else
+ return detail::TimerFDTimerSource::haveTimerFD();
+#endif
}
prefix_ bool senf::scheduler::usingHiresTimers()
detail::TimerDispatcher::instance().timerSource()) == 0;
}
+///////////////////////////////////////////////////////////////////////////
+// senf::scheduler::BlockSignals
+
+prefix_ senf::scheduler::BlockSignals::~BlockSignals()
+{
+ unblock();
+}
+
+prefix_ bool senf::scheduler::BlockSignals::blocked()
+ const
+{
+ return blocked_;
+}
+
///////////////////////////////cci.e///////////////////////////////////////
#undef prefix_