J Reece Wilson
35761edaec
[*] ILSTimer::UpdateTime -> ILSTimer::UpdateTimeWall [*] ILSTimer::UpdateTimeNs -> ILSTimer::UpdateTimeWallNs [+] ILSTimer::UpdateTimeSteady [+] ILSTimer::UpdateTimeSteadyNs
174 lines
4.9 KiB
C++
174 lines
4.9 KiB
C++
/***
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Copyright (C) 2021 J Reece Wilson (a/k/a "Reece"). All rights reserved.
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File: LSTimer.Linux.cpp
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Date: 2021-10-1
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Author: Reece
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***/
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#include <Source/RuntimeInternal.hpp>
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#include "LSTimer.hpp"
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#include "LSFromFdNonblocking.hpp"
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#include <Source/Time/Time.hpp>
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#include <sys/timerfd.h>
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namespace Aurora::IO::Loop
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{
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LSTimer::LSTimer(AuUInt32 reschedStepMsOrZero, AuUInt32 maxIterationsOrZero, bool bSingleshot, int handle) :
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LSHandle(handle),
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bSingleshot(bSingleshot),
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reschedStepNsOrZero_(AuMSToNS<AuUInt64>(reschedStepMsOrZero)),
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maxIterationsOrZero_(maxIterationsOrZero)
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{
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this->targetTime_ = AuTime::CurrentClockNS();
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}
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LSTimer::~LSTimer()
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{
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if ((this->handle != 0) &&
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(this->handle != -1))
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{
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::close(AuExchange(this->handle, -1));
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}
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}
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void LSTimer::UpdateTimeInternal(AuUInt64 absTimeNs)
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{
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this->targetTime_ = absTimeNs - AuTime::CurrentClockNS() + AuTime::SteadyClockNS();
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UpdateTimeInternalSteady(this->targetTime_);
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}
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void LSTimer::UpdateTimeInternalSteady(AuUInt64 absTimeNs)
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{
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this->targetTime_ = absTimeNs;
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itimerspec spec {};
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AuTime::ns2ts(&spec.it_value, this->targetTime_);
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AuTime::ns2ts(&spec.it_interval, this->reschedStepNsOrZero_);
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SysAssert(::timerfd_settime(this->handle, TFD_TIMER_ABSTIME, &spec, nullptr) == 0);
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}
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void LSTimer::UpdateTimeWall(AuUInt64 absTimeMs)
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{
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this->UpdateTimeInternal(AuMSToNS<AuUInt64>(absTimeMs));
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}
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void LSTimer::UpdateTimeWallNs(AuUInt64 absTimeNs)
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{
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this->UpdateTimeInternal(absTimeNs);
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}
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void LSTimer::UpdateTimeSteady(AuUInt64 absTimeMs)
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{
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this->UpdateTimeInternalSteady(AuMSToNS<AuUInt64>(absTimeMs));
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}
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void LSTimer::UpdateTimeSteadyNs(AuUInt64 absTimeNs)
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{
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this->UpdateTimeInternalSteady(absTimeNs);
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}
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void LSTimer::UpdateTickRateIfAny(AuUInt32 reschedStepMsOrZero, AuUInt32 maxIterationsOrZero)
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{
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this->reschedStepNsOrZero_ = AuMSToNS<AuUInt64>(reschedStepMsOrZero);
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this->maxIterationsOrZero_ = maxIterationsOrZero;
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this->count_ = 0;
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this->UpdateTimeInternalSteady(this->targetTime_);
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}
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void LSTimer::UpdateTickRateIfAnyNs(AuUInt64 reschedStepNsOrZero, AuUInt32 maxIterationsOrZero)
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{
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this->reschedStepNsOrZero_ = reschedStepNsOrZero;
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this->maxIterationsOrZero_ = maxIterationsOrZero;
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this->count_ = 0;
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this->UpdateTimeInternalSteady(this->targetTime_);
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}
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bool LSTimer::OnTrigger(AuUInt handle)
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{
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return IsSignaledNonblocking();
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}
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void LSTimer::Stop()
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{
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itimerspec spec {};
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SysAssert(::timerfd_settime(this->handle, 0, &spec, nullptr) == 0);
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}
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bool LSTimer::IsSignaled()
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{
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return IsSignaledFromNonblockingImpl(this, this, &LSTimer::IsSignaledNonblocking, true);
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}
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bool LSTimer::IsSignaledExt(AuUInt8 uFlags)
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{
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return IsSignaledFromNonblockingImpl(this, this, &LSTimer::IsSignaledNonblocking, !(uFlags & kFlagLSTryNoIOAlerts));
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}
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bool LSTimer::WaitOn(AuUInt32 timeout)
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{
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return LSHandle::WaitOn(timeout);
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}
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ELoopSource LSTimer::GetType()
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{
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return ELoopSource::eSourceTimer;
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}
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bool LSTimer::IsSignaledNonblocking()
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{
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AuUInt64 oldSemaphoreValue {};
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auto ok = ::read(this->handle, &oldSemaphoreValue, sizeof(oldSemaphoreValue)) == 8;
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if (ok && this->maxIterationsOrZero_)
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{
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ok = AuAtomicAdd<AuUInt32>(&this->count_, 1) <= this->maxIterationsOrZero_;
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if (ok)
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{
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// fall through
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}
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else
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{
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Stop();
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return false;
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}
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}
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if (ok && !this->reschedStepNsOrZero_ && !bSingleshot)
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{
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// Ensure non-step timers remain signaled despite the read above us caneling them
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this->UpdateTimeInternalSteady(this->targetTime_);
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}
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return ok;
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}
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AuSPtr<ITimer> NewLSTimerOS(AuUInt64 qwAbsStartTimeMs, AuUInt32 dwReschedStepMsOrZero, AuUInt32 dwMaxIterationsOrZero, bool bSingleshot, bool bIsStartTimeSteady)
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{
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int fd = timerfd_create(CLOCK_MONOTONIC, TFD_NONBLOCK | TFD_CLOEXEC);
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if (fd == -1)
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{
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SysPushErrorIO();
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return {};
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}
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auto pTimer = AuMakeShared<LSTimer>(dwReschedStepMsOrZero, dwMaxIterationsOrZero, bSingleshot, fd);
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if (!pTimer)
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{
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SysPushErrorMem();
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::close(fd);
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return {};
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}
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if (qwAbsStartTimeMs)
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{
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if (bIsStartTimeSteady)
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{
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pTimer->UpdateTimeSteady(qwAbsStartTimeMs);
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}
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else
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{
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pTimer->UpdateTimeWall(qwAbsStartTimeMs);
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}
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}
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return pTimer;
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}
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} |