/****************************************************************************** * Icinga 2 * * Copyright (C) 2012-2016 Icinga Development Team (https://www.icinga.org/) * * * * This program is free software; you can redistribute it and/or * * modify it under the terms of the GNU General Public License * * as published by the Free Software Foundation; either version 2 * * of the License, or (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the Free Software Foundation * * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. * ******************************************************************************/ #include "base/timer.hpp" #include "base/debug.hpp" #include "base/utility.hpp" #include #include #include #include #include #include #include using namespace icinga; typedef boost::multi_index_container< Timer::Holder, boost::multi_index::indexed_by< boost::multi_index::ordered_unique >, boost::multi_index::ordered_non_unique > > > TimerSet; static boost::mutex l_TimerMutex; static boost::condition_variable l_TimerCV; static boost::thread l_TimerThread; static bool l_StopTimerThread; static TimerSet l_Timers; /** * Constructor for the Timer class. */ Timer::Timer(void) : m_Interval(0), m_Next(0), m_Started(false), m_Running(false) { } /** * Destructor for the Timer class. */ Timer::~Timer(void) { Stop(true); } /** * Initializes the timer sub-system. */ void Timer::Initialize(void) { boost::mutex::scoped_lock lock(l_TimerMutex); l_StopTimerThread = false; l_TimerThread = boost::thread(&Timer::TimerThreadProc); } /** * Disables the timer sub-system. */ void Timer::Uninitialize(void) { { boost::mutex::scoped_lock lock(l_TimerMutex); l_StopTimerThread = true; l_TimerCV.notify_all(); } if (l_TimerThread.joinable()) l_TimerThread.join(); } /** * Calls this timer. */ void Timer::Call(void) { try { OnTimerExpired(Timer::Ptr(this)); } catch (...) { InternalReschedule(true); throw; } InternalReschedule(true); } /** * Sets the interval for this timer. * * @param interval The new interval. */ void Timer::SetInterval(double interval) { boost::mutex::scoped_lock lock(l_TimerMutex); m_Interval = interval; } /** * Retrieves the interval for this timer. * * @returns The interval. */ double Timer::GetInterval(void) const { boost::mutex::scoped_lock lock(l_TimerMutex); return m_Interval; } /** * Registers the timer and starts processing events for it. */ void Timer::Start(void) { { boost::mutex::scoped_lock lock(l_TimerMutex); m_Started = true; } InternalReschedule(false); } /** * Unregisters the timer and stops processing events for it. */ void Timer::Stop(bool wait) { if (l_StopTimerThread) return; boost::mutex::scoped_lock lock(l_TimerMutex); m_Started = false; l_Timers.erase(this); /* Notify the worker thread that we've disabled a timer. */ l_TimerCV.notify_all(); while (wait && m_Running) l_TimerCV.wait(lock); } void Timer::Reschedule(double next) { InternalReschedule(false, next); } /** * Reschedules this timer. * * @param completed Whether the timer has just completed its callback. * @param next The time when this timer should be called again. Use -1 to let * the timer figure out a suitable time based on the interval. */ void Timer::InternalReschedule(bool completed, double next) { boost::mutex::scoped_lock lock(l_TimerMutex); if (completed) m_Running = false; if (next < 0) { /* Don't schedule the next call if this is not a periodic timer. */ if (m_Interval <= 0) return; next = Utility::GetTime() + m_Interval; } m_Next = next; if (m_Started && !m_Running) { /* Remove and re-add the timer to update the index. */ l_Timers.erase(this); l_Timers.insert(this); /* Notify the worker that we've rescheduled a timer. */ l_TimerCV.notify_all(); } } /** * Retrieves when the timer is next due. * * @returns The timestamp. */ double Timer::GetNext(void) const { boost::mutex::scoped_lock lock(l_TimerMutex); return m_Next; } /** * Adjusts all timers by adding the specified amount of time to their * next scheduled timestamp. * * @param adjustment The adjustment. */ void Timer::AdjustTimers(double adjustment) { boost::mutex::scoped_lock lock(l_TimerMutex); double now = Utility::GetTime(); typedef boost::multi_index::nth_index::type TimerView; TimerView& idx = boost::get<1>(l_Timers); std::vector timers; for (Timer *timer : idx) { if (std::fabs(now - (timer->m_Next + adjustment)) < std::fabs(now - timer->m_Next)) { timer->m_Next += adjustment; timers.push_back(timer); } } for (Timer *timer : timers) { l_Timers.erase(timer); l_Timers.insert(timer); } /* Notify the worker that we've rescheduled some timers. */ l_TimerCV.notify_all(); } /** * Worker thread proc for Timer objects. */ void Timer::TimerThreadProc(void) { Utility::SetThreadName("Timer Thread"); for (;;) { boost::mutex::scoped_lock lock(l_TimerMutex); typedef boost::multi_index::nth_index::type NextTimerView; NextTimerView& idx = boost::get<1>(l_Timers); /* Wait until there is at least one timer. */ while (idx.empty() && !l_StopTimerThread) l_TimerCV.wait(lock); if (l_StopTimerThread) break; NextTimerView::iterator it = idx.begin(); Timer *timer = *it; double wait = timer->m_Next - Utility::GetTime(); if (wait > 0.01) { /* Wait for the next timer. */ l_TimerCV.timed_wait(lock, boost::posix_time::milliseconds(wait * 1000)); continue; } Timer::Ptr ptimer = timer; /* Remove the timer from the list so it doesn't get called again * until the current call is completed. */ l_Timers.erase(timer); timer->m_Running = true; lock.unlock(); /* Asynchronously call the timer. */ Utility::QueueAsyncCallback(boost::bind(&Timer::Call, ptimer)); } }