examples/provider/event_task_runner.cc - weave/libweave - Git at Google

 // Copyright 2015 The Weave Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "examples/provider/event_task_runner.h"

 #include <signal.h>

 namespace weave {
 namespace examples {

 namespace {
 event_base* g_event_base = nullptr;
 }

 void EventTaskRunner::PostDelayedTask(
     const tracked_objects::Location& from_here,
     const base::Closure& task,
     base::TimeDelta delay) {
   base::Time new_time = base::Time::Now() + delay;
   if (queue_.empty() || new_time < queue_.top().first.first) {
     ReScheduleEvent(delay);
   }
   queue_.emplace(std::make_pair(new_time, ++counter_), task);
 }

 void EventTaskRunner::AddIoCompletionTask(
     int fd,
     int16_t what,
     const EventTaskRunner::IoCompletionCallback& task) {
   int16_t flags = EV_PERSIST | EV_ET;
   flags |= (what & kReadable) ? EV_READ : 0;
   flags |= (what & kWriteable) ? EV_WRITE : 0;
 #if LIBEVENT_VERSION_NUMBER >= 0x02010400
   flags |= (what & kClosed) ? EV_CLOSED : 0;
 #endif
   event* ioevent = event_new(base_.get(), fd, flags, FdEventHandler, this);
   EventPtr<event> ioeventPtr{ioevent};
   fd_task_map_.insert(
       std::make_pair(fd, std::make_pair(std::move(ioeventPtr), task)));
   event_add(ioevent, nullptr);
 }

 void EventTaskRunner::RemoveIoCompletionTask(int fd) {
   fd_task_map_.erase(fd);
 }

 void EventTaskRunner::Run() {
   g_event_base = base_.get();

   struct sigaction sa = {};
   sa.sa_handler = [](int signal) {
     event_base_loopexit(g_event_base, nullptr);
   };
   sigfillset(&sa.sa_mask);
   sigaction(SIGINT, &sa, nullptr);

   do {
     event_base_loop(g_event_base, EVLOOP_ONCE);
   } while (!event_base_got_exit(g_event_base));
   g_event_base = nullptr;
 }

 void EventTaskRunner::ReScheduleEvent(base::TimeDelta delay) {
   timespec ts = delay.ToTimeSpec();
   timeval tv = {ts.tv_sec, ts.tv_nsec / 1000};
   event_add(task_event_.get(), &tv);
 }

 void EventTaskRunner::EventHandler(int /* fd */,
                                    int16_t /* what */,
                                    void* runner) {
   static_cast<EventTaskRunner*>(runner)->Process();
 }

 void EventTaskRunner::FreeEvent(event* evnt) {
   event_del(evnt);
   event_free(evnt);
 }

 void EventTaskRunner::Process() {
   while (!queue_.empty() && queue_.top().first.first <= base::Time::Now()) {
     auto cb = queue_.top().second;
     queue_.pop();
     cb.Run();
   }
   if (!queue_.empty()) {
     base::TimeDelta delta = std::max(
         base::TimeDelta(), queue_.top().first.first - base::Time::Now());
     ReScheduleEvent(delta);
   }
 }

 void EventTaskRunner::FdEventHandler(int fd, int16_t what, void* runner) {
   static_cast<EventTaskRunner*>(runner)->ProcessFd(fd, what);
 }

 void EventTaskRunner::ProcessFd(int fd, int16_t what) {
   auto it = fd_task_map_.find(fd);
   if (it != fd_task_map_.end()) {
     const IoCompletionCallback& callback = it->second.second;
     callback.Run(fd, what, this);
   }
 }

 }  // namespace examples
 }  // namespace weave
	// Copyright 2015 The Weave Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "examples/provider/event_task_runner.h"

	#include <signal.h>

	namespace weave {
	namespace examples {

	namespace {
	event_base* g_event_base = nullptr;
	}

	void EventTaskRunner::PostDelayedTask(
	const tracked_objects::Location& from_here,
	const base::Closure& task,
	base::TimeDelta delay) {
	base::Time new_time = base::Time::Now() + delay;
	if (queue_.empty() \|\| new_time < queue_.top().first.first) {
	ReScheduleEvent(delay);
	}
	queue_.emplace(std::make_pair(new_time, ++counter_), task);
	}

	void EventTaskRunner::AddIoCompletionTask(
	int fd,
	int16_t what,
	const EventTaskRunner::IoCompletionCallback& task) {
	int16_t flags = EV_PERSIST \| EV_ET;
	flags \|= (what & kReadable) ? EV_READ : 0;
	flags \|= (what & kWriteable) ? EV_WRITE : 0;
	#if LIBEVENT_VERSION_NUMBER >= 0x02010400
	flags \|= (what & kClosed) ? EV_CLOSED : 0;
	#endif
	event* ioevent = event_new(base_.get(), fd, flags, FdEventHandler, this);
	EventPtr<event> ioeventPtr{ioevent};
	fd_task_map_.insert(
	std::make_pair(fd, std::make_pair(std::move(ioeventPtr), task)));
	event_add(ioevent, nullptr);
	}

	void EventTaskRunner::RemoveIoCompletionTask(int fd) {
	fd_task_map_.erase(fd);
	}

	void EventTaskRunner::Run() {
	g_event_base = base_.get();

	struct sigaction sa = {};
	sa.sa_handler = [](int signal) {
	event_base_loopexit(g_event_base, nullptr);
	};
	sigfillset(&sa.sa_mask);
	sigaction(SIGINT, &sa, nullptr);

	do {
	event_base_loop(g_event_base, EVLOOP_ONCE);
	} while (!event_base_got_exit(g_event_base));
	g_event_base = nullptr;
	}

	void EventTaskRunner::ReScheduleEvent(base::TimeDelta delay) {
	timespec ts = delay.ToTimeSpec();
	timeval tv = {ts.tv_sec, ts.tv_nsec / 1000};
	event_add(task_event_.get(), &tv);
	}

	void EventTaskRunner::EventHandler(int /* fd */,
	int16_t /* what */,
	void* runner) {
	static_cast<EventTaskRunner*>(runner)->Process();
	}

	void EventTaskRunner::FreeEvent(event* evnt) {
	event_del(evnt);
	event_free(evnt);
	}

	void EventTaskRunner::Process() {
	while (!queue_.empty() && queue_.top().first.first <= base::Time::Now()) {
	auto cb = queue_.top().second;
	queue_.pop();
	cb.Run();
	}
	if (!queue_.empty()) {
	base::TimeDelta delta = std::max(
	base::TimeDelta(), queue_.top().first.first - base::Time::Now());
	ReScheduleEvent(delta);
	}
	}

	void EventTaskRunner::FdEventHandler(int fd, int16_t what, void* runner) {
	static_cast<EventTaskRunner*>(runner)->ProcessFd(fd, what);
	}

	void EventTaskRunner::ProcessFd(int fd, int16_t what) {
	auto it = fd_task_map_.find(fd);
	if (it != fd_task_map_.end()) {
	const IoCompletionCallback& callback = it->second.second;
	callback.Run(fd, what, this);
	}
	}

	} // namespace examples
	} // namespace weave