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arangodb/Scheduler/SchedulerLibev.cpp

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////////////////////////////////////////////////////////////////////////////////
/// @brief input-output scheduler using libev
///
/// @file
///
/// DISCLAIMER
///
/// Copyright 2010-2011 triagens GmbH, Cologne, Germany
///
/// Licensed under the Apache License, Version 2.0 (the "License");
/// you may not use this file except in compliance with the License.
/// You may obtain a copy of the License at
///
/// http://www.apache.org/licenses/LICENSE-2.0
///
/// Unless required by applicable law or agreed to in writing, software
/// distributed under the License is distributed on an "AS IS" BASIS,
/// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
/// See the License for the specific language governing permissions and
/// limitations under the License.
///
/// Copyright holder is triAGENS GmbH, Cologne, Germany
///
/// @author Dr. Frank Celler
/// @author Achim Brandt
/// @author Copyright 2008-2011, triAGENS GmbH, Cologne, Germany
////////////////////////////////////////////////////////////////////////////////
#include "Scheduler/SchedulerLibev.h"
#include <ev.h>
#include <Basics/Exceptions.h>
#include <Logger/Logger.h>
#include <Basics/MutexLocker.h>
#include "Scheduler/Task.h"
#include "Scheduler/SchedulerThread.h"
using namespace triagens::basics;
using namespace triagens::rest;
// -----------------------------------------------------------------------------
// LIBEV
// -----------------------------------------------------------------------------
/* EV_TIMER is an alias for EV_TIMEOUT */
#ifndef EV_TIMER
#define EV_TIMER EV_TIMEOUT
#endif
namespace {
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// async events
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
struct AsyncWatcher {
ev_async async;
struct ev_loop* loop;
EventToken token;
Task* task;
};
void asyncCallback (struct ev_loop*, ev_async* w, int revents) {
AsyncWatcher* watcher = reinterpret_cast<AsyncWatcher*>(w);
Task* task = watcher->task;
if (task != 0 && (revents & EV_ASYNC) && task->isActive()) {
task->handleEvent(watcher->token, EVENT_ASYNC);
}
}
void wakerCallback (struct ev_loop* loop, ev_async*, int) {
ev_unloop(loop, EVUNLOOP_ALL);
}
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// socket events
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
struct SocketWatcher {
ev_io io;
struct ev_loop* loop;
EventToken token;
Task* task;
};
void socketCallback (struct ev_loop*, ev_io* w, int revents) {
SocketWatcher* watcher = reinterpret_cast<SocketWatcher*>(w);
Task* task = watcher->task;
if (task != 0 && task->isActive()) {
if (revents & EV_READ) {
if (revents & EV_WRITE) {
task->handleEvent(watcher->token, EVENT_SOCKET_READ | EVENT_SOCKET_WRITE);
}
else {
task->handleEvent(watcher->token, EVENT_SOCKET_READ);
}
}
else if (revents & EV_WRITE) {
task->handleEvent(watcher->token, EVENT_SOCKET_WRITE);
}
}
}
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// periodic events
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
struct PeriodicWatcher {
ev_periodic periodic;
struct ev_loop* loop;
EventToken token;
Task* task;
};
void periodicCallback (struct ev_loop*, ev_periodic* w, int revents) {
PeriodicWatcher* watcher = reinterpret_cast<PeriodicWatcher*>(w);
Task* task = watcher->task;
if (task != 0 && (revents & EV_PERIODIC) && task->isActive()) {
task->handleEvent(watcher->token, EVENT_PERIODIC);
}
}
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// signal events
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
struct SignalWatcher {
ev_signal signal;
struct ev_loop* loop;
EventToken token;
Task* task;
};
void signalCallback (struct ev_loop*, ev_signal* w, int revents) {
SignalWatcher* watcher = reinterpret_cast<SignalWatcher*>(w);
Task* task = watcher->task;
if (task != 0 && (revents & EV_SIGNAL) && task->isActive()) {
task->handleEvent(watcher->token, EVENT_SIGNAL);
}
}
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// timer events
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
struct TimerWatcher {
ev_timer timer;
struct ev_loop* loop;
EventToken token;
Task* task;
};
void timerCallback (struct ev_loop*, ev_timer* w, int revents) {
TimerWatcher* watcher = reinterpret_cast<TimerWatcher*>(w);
Task* task = watcher->task;
if (task != 0 && (revents & EV_TIMER) && task->isActive()) {
task->handleEvent(watcher->token, EVENT_TIMER);
}
}
}
namespace triagens {
namespace rest {
// -----------------------------------------------------------------------------
// static methods
// -----------------------------------------------------------------------------
int SchedulerLibev::availableBackends () {
return ev_supported_backends();
}
// -----------------------------------------------------------------------------
// constructors and destructors
// -----------------------------------------------------------------------------
SchedulerLibev::SchedulerLibev (size_t concurrency, int backend)
: SchedulerImpl(concurrency),
_backend(backend) {
// report status
LOGGER_TRACE << "supported backends: " << ev_supported_backends();
LOGGER_TRACE << "recommended backends: " << ev_recommended_backends();
LOGGER_TRACE << "embeddable backends: " << ev_embeddable_backends();
LOGGER_TRACE << "backend flags: " << backend;
// construct the loops
_loops = new struct ev_loop*[nrThreads];
((struct ev_loop**) _loops)[0] = ev_default_loop(_backend);
for (size_t i = 1; i < nrThreads; ++i) {
((struct ev_loop**) _loops)[i] = ev_loop_new(_backend);
}
// construct the scheduler threads
threads = new SchedulerThread* [nrThreads];
_wakers = new ev_async*[nrThreads];
for (size_t i = 0; i < nrThreads; ++i) {
threads[i] = new SchedulerThread(this, EventLoop(i), i == 0);
ev_async* w = new ev_async;
ev_async_init(w, wakerCallback);
ev_async_start(((struct ev_loop**) _loops)[i], w);
((ev_async**) _wakers)[i] = w;
}
// watcher 0 is undefined
_watchers.push_back(0);
}
SchedulerLibev::~SchedulerLibev () {
// shutdown loops
for (size_t i = 1; i < nrThreads; ++i) {
ev_async_stop(((struct ev_loop**) _loops)[i], ((ev_async**) _wakers)[i]);
ev_loop_destroy(((struct ev_loop**) _loops)[i]);
}
// delete loops buffer
delete[] ((struct ev_loop**) _loops);
// begin shutdown sequence within threads
for (size_t i = 0; i < nrThreads; ++i) {
threads[i]->beginShutdown();
}
// force threads to shutdown
for (size_t i = 0; i < nrThreads; ++i) {
threads[i]->stop();
}
usleep(10000);
// and delete threads
for (size_t i = 0; i < nrThreads; ++i) {
delete threads[i];
delete ((ev_async**) _wakers)[i];
}
// delete threads buffer and wakers
delete[] threads;
delete[] (ev_async**)_wakers;
}
// -----------------------------------------------------------------------------
// public methods
// -----------------------------------------------------------------------------
void SchedulerLibev::eventLoop (EventLoop loop) {
struct ev_loop* l = (struct ev_loop*) lookupLoop(loop);
ev_loop(l, 0);
}
void SchedulerLibev::wakeupLoop (EventLoop loop) {
if (size_t(loop) >= nrThreads) {
THROW_INTERNAL_ERROR("unknown loop");
}
ev_async_send(((struct ev_loop**) _loops)[loop], ((ev_async**) _wakers)[loop]);
}
void SchedulerLibev::uninstallEvent (EventToken token) {
EventType type;
void* watcher = lookupWatcher(token, type);
if (watcher == 0) {
return;
}
switch (type) {
case EVENT_ASYNC: {
AsyncWatcher* w = reinterpret_cast<AsyncWatcher*>(watcher);
ev_async_stop(w->loop, (ev_async*) w);
unregisterWatcher(token);
delete w;
break;
}
case EVENT_PERIODIC: {
PeriodicWatcher* w = reinterpret_cast<PeriodicWatcher*>(watcher);
ev_periodic_stop(w->loop, (ev_periodic*) w);
unregisterWatcher(token);
delete w;
break;
}
case EVENT_SIGNAL: {
SignalWatcher* w = reinterpret_cast<SignalWatcher*>(watcher);
ev_signal_stop(w->loop, (ev_signal*) w);
unregisterWatcher(token);
delete w;
break;
}
case EVENT_SOCKET_READ: {
SocketWatcher* w = reinterpret_cast<SocketWatcher*>(watcher);
ev_io_stop(w->loop, (ev_io*) w);
unregisterWatcher(token);
delete w;
break;
}
case EVENT_TIMER: {
TimerWatcher* w = reinterpret_cast<TimerWatcher*>(watcher);
ev_timer_stop(w->loop, (ev_timer*) w);
unregisterWatcher(token);
delete w;
break;
}
}
}
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// async events
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
EventToken SchedulerLibev::installAsyncEvent (EventLoop loop, Task* task) {
AsyncWatcher* watcher = new AsyncWatcher;
watcher->loop = (struct ev_loop*) lookupLoop(loop);
watcher->task = task;
watcher->token = registerWatcher(watcher, EVENT_ASYNC);
ev_async* w = (ev_async*) watcher;
ev_async_init(w, asyncCallback);
ev_async_start(watcher->loop, w);
return watcher->token;
}
void SchedulerLibev::sendAsync (EventToken token) {
AsyncWatcher* watcher = reinterpret_cast<AsyncWatcher*>(lookupWatcher(token));
if (watcher == 0) {
return;
}
ev_async* w = (ev_async*) watcher;
ev_async_send(watcher->loop, w);
}
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// periodic events
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
EventToken SchedulerLibev::installPeriodicEvent (EventLoop loop, Task* task, double offset, double intervall) {
PeriodicWatcher* watcher = new PeriodicWatcher;
watcher->loop = (struct ev_loop*) lookupLoop(loop);
watcher->task = task;
watcher->token = registerWatcher(watcher, EVENT_PERIODIC);
ev_periodic* w = (ev_periodic*) watcher;
ev_periodic_init(w, periodicCallback, offset, intervall, 0);
ev_periodic_start(watcher->loop, w);
return watcher->token;
}
void SchedulerLibev::rearmPeriodic (EventToken token, double offset, double intervall) {
PeriodicWatcher* watcher = reinterpret_cast<PeriodicWatcher*>(lookupWatcher(token));
if (watcher == 0) {
return;
}
ev_periodic* w = (ev_periodic*) watcher;
ev_periodic_set(w, offset, intervall, 0);
ev_periodic_again(watcher->loop, w);
}
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// signal events
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
EventToken SchedulerLibev::installSignalEvent (EventLoop loop, Task* task, int signal) {
SignalWatcher* watcher = new SignalWatcher;
watcher->loop = (struct ev_loop*) lookupLoop(loop);
watcher->task = task;
watcher->token = registerWatcher(watcher, EVENT_SIGNAL);
ev_signal* w = (ev_signal*) watcher;
ev_signal_init(w, signalCallback, signal);
ev_signal_start(watcher->loop, w);
return watcher->token;
}
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// socket events
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
EventToken SchedulerLibev::installSocketEvent (EventLoop loop, EventType type, Task* task, socket_t fd) {
SocketWatcher* watcher = new SocketWatcher;
watcher->loop = (struct ev_loop*) lookupLoop(loop);
watcher->task = task;
watcher->token = registerWatcher(watcher, EVENT_SOCKET_READ);
int flags = 0;
if (type & EVENT_SOCKET_READ) {
flags |= EV_READ;
}
if (type & EVENT_SOCKET_WRITE) {
flags |= EV_WRITE;
}
ev_io* w = (ev_io*) watcher;
ev_io_init(w, socketCallback, fd, flags);
ev_io_start(watcher->loop, w);
return watcher->token;
}
void SchedulerLibev::startSocketEvents (EventToken token) {
SocketWatcher* watcher = reinterpret_cast<SocketWatcher*>(lookupWatcher(token));
if (watcher == 0) {
return;
}
ev_io* w = (ev_io*) watcher;
if (! ev_is_active(w)) {
ev_io_start(watcher->loop, w);
}
}
void SchedulerLibev::stopSocketEvents (EventToken token) {
SocketWatcher* watcher = reinterpret_cast<SocketWatcher*>(lookupWatcher(token));
if (watcher == 0) {
return;
}
ev_io* w = (ev_io*) watcher;
if (ev_is_active(w)) {
ev_io_stop(watcher->loop, w);
}
}
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// timer events
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
EventToken SchedulerLibev::installTimerEvent (EventLoop loop, Task* task, double timeout) {
TimerWatcher* watcher = new TimerWatcher;
watcher->loop = (struct ev_loop*) lookupLoop(loop);
watcher->task = task;
watcher->token = registerWatcher(watcher, EVENT_TIMER);
ev_timer* w = (ev_timer*) watcher;
ev_timer_init(w, timerCallback, timeout, 0.0);
ev_timer_start(watcher->loop, w);
return watcher->token;
}
void SchedulerLibev::clearTimer (EventToken token) {
TimerWatcher* watcher = reinterpret_cast<TimerWatcher*>(lookupWatcher(token));
if (watcher == 0) {
return;
}
ev_timer* w = (ev_timer*) watcher;
ev_timer_stop(watcher->loop, w);
}
void SchedulerLibev::rearmTimer (EventToken token, double timeout) {
TimerWatcher* watcher = reinterpret_cast<TimerWatcher*>(lookupWatcher(token));
if (watcher == 0) {
return;
}
ev_timer* w = (ev_timer*) watcher;
ev_timer_set(w, 0.0, timeout);
ev_timer_again(watcher->loop, w);
}
// -----------------------------------------------------------------------------
// private methods
// -----------------------------------------------------------------------------
void* SchedulerLibev::lookupLoop (EventLoop loop) {
if (size_t(loop) >= nrThreads) {
THROW_INTERNAL_ERROR("unknown loop");
}
return ((struct ev_loop**) _loops)[loop];
}
void* SchedulerLibev::lookupWatcher (EventToken token) {
MUTEX_LOCKER(_watcherLock);
if (token >= _watchers.size()) {
return 0;
}
return _watchers[token];
}
void* SchedulerLibev::lookupWatcher (EventToken token, EventType& type) {
MUTEX_LOCKER(_watcherLock);
if (token >= _watchers.size()) {
return 0;
}
type = _types[token];
return _watchers[token];
}
EventToken SchedulerLibev::registerWatcher (void* watcher, EventType type) {
MUTEX_LOCKER(_watcherLock);
EventToken token;
if (_frees.empty()) {
token = _watchers.size();
_watchers.push_back(watcher);
}
else {
token = _frees.back();
_frees.pop_back();
_watchers[token] = watcher;
}
_types[token] = type;
return token;
}
void SchedulerLibev::unregisterWatcher (EventToken token) {
MUTEX_LOCKER(_watcherLock);
_frees.push_back(token);
_watchers[token] = 0;
}
}
}
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