/* * Copyright (C) 2003-2013 The Music Player Daemon Project * http://www.musicpd.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 Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "config.h" #include "Loop.hxx" #include "system/Clock.hxx" #include "TimeoutMonitor.hxx" #include "SocketMonitor.hxx" #include "IdleMonitor.hxx" #include "DeferredMonitor.hxx" #include EventLoop::EventLoop(Default) :SocketMonitor(*this), now_ms(::MonotonicClockMS()), quit(false), busy(true), #ifndef NDEBUG virgin(true), #endif thread(ThreadId::Null()) { SocketMonitor::Open(wake_fd.Get()); SocketMonitor::Schedule(SocketMonitor::READ); } EventLoop::~EventLoop() { assert(idle.empty()); assert(timers.empty()); /* this is necessary to get a well-defined destruction order */ SocketMonitor::Cancel(); } void EventLoop::Break() { quit = true; wake_fd.Write(); } bool EventLoop::Abandon(int _fd, SocketMonitor &m) { assert(IsInsideOrVirgin()); poll_result.Clear(&m); return poll_group.Abandon(_fd); } bool EventLoop::RemoveFD(int _fd, SocketMonitor &m) { assert(IsInsideOrNull()); poll_result.Clear(&m); return poll_group.Remove(_fd); } void EventLoop::AddIdle(IdleMonitor &i) { assert(IsInsideOrVirgin()); assert(std::find(idle.begin(), idle.end(), &i) == idle.end()); idle.push_back(&i); again = true; } void EventLoop::RemoveIdle(IdleMonitor &i) { assert(IsInsideOrVirgin()); auto it = std::find(idle.begin(), idle.end(), &i); assert(it != idle.end()); idle.erase(it); } void EventLoop::AddTimer(TimeoutMonitor &t, unsigned ms) { assert(IsInsideOrVirgin()); timers.insert(TimerRecord(t, now_ms + ms)); again = true; } void EventLoop::CancelTimer(TimeoutMonitor &t) { assert(IsInsideOrNull()); for (auto i = timers.begin(), end = timers.end(); i != end; ++i) { if (&i->timer == &t) { timers.erase(i); return; } } } void EventLoop::Run() { assert(thread.IsNull()); assert(virgin); #ifndef NDEBUG virgin = false; #endif thread = ThreadId::GetCurrent(); assert(!quit); assert(busy); do { now_ms = ::MonotonicClockMS(); again = false; /* invoke timers */ int timeout_ms; while (true) { auto i = timers.begin(); if (i == timers.end()) { timeout_ms = -1; break; } timeout_ms = i->due_ms - now_ms; if (timeout_ms > 0) break; TimeoutMonitor &m = i->timer; timers.erase(i); m.Run(); if (quit) return; } /* invoke idle */ while (!idle.empty()) { IdleMonitor &m = *idle.front(); idle.pop_front(); m.Run(); if (quit) return; } /* try to handle DeferredMonitors without WakeFD overhead */ mutex.lock(); HandleDeferred(); busy = false; mutex.unlock(); if (again) /* re-evaluate timers because one of the IdleMonitors may have added a new timeout */ continue; /* wait for new event */ poll_group.ReadEvents(poll_result, timeout_ms); now_ms = ::MonotonicClockMS(); mutex.lock(); busy = true; mutex.unlock(); /* invoke sockets */ for (int i = 0; i < poll_result.GetSize(); ++i) { auto events = poll_result.GetEvents(i); if (events != 0) { if (quit) break; auto m = (SocketMonitor *)poll_result.GetObject(i); m->Dispatch(events); } } poll_result.Reset(); } while (!quit); #ifndef NDEBUG assert(busy); assert(thread.IsInside()); thread = ThreadId::Null(); #endif } void EventLoop::AddDeferred(DeferredMonitor &d) { mutex.lock(); if (d.pending) { mutex.unlock(); return; } assert(std::find(deferred.begin(), deferred.end(), &d) == deferred.end()); /* we don't need to wake up the EventLoop if another DeferredMonitor has already done it */ const bool must_wake = !busy && deferred.empty(); d.pending = true; deferred.push_back(&d); again = true; mutex.unlock(); if (must_wake) wake_fd.Write(); } void EventLoop::RemoveDeferred(DeferredMonitor &d) { const ScopeLock protect(mutex); if (!d.pending) { assert(std::find(deferred.begin(), deferred.end(), &d) == deferred.end()); return; } d.pending = false; auto i = std::find(deferred.begin(), deferred.end(), &d); assert(i != deferred.end()); deferred.erase(i); } void EventLoop::HandleDeferred() { while (!deferred.empty() && !quit) { DeferredMonitor &m = *deferred.front(); assert(m.pending); deferred.pop_front(); m.pending = false; mutex.unlock(); m.RunDeferred(); mutex.lock(); } } bool EventLoop::OnSocketReady(gcc_unused unsigned flags) { assert(IsInside()); wake_fd.Read(); mutex.lock(); HandleDeferred(); mutex.unlock(); return true; }