// Copyright (c) 2011 The Chromium 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 "base/message_pump_libevent.h" #include #include #include "base/auto_reset.h" #include "base/eintr_wrapper.h" #include "base/logging.h" #include "base/mac/scoped_nsautorelease_pool.h" #include "base/memory/scoped_ptr.h" #include "base/observer_list.h" #include "base/time.h" #if defined(USE_SYSTEM_LIBEVENT) #include #else #include "third_party/libevent/event.h" #endif // Lifecycle of struct event // Libevent uses two main data structures: // struct event_base (of which there is one per message pump), and // struct event (of which there is roughly one per socket). // The socket's struct event is created in // MessagePumpLibevent::WatchFileDescriptor(), // is owned by the FileDescriptorWatcher, and is destroyed in // StopWatchingFileDescriptor(). // It is moved into and out of lists in struct event_base by // the libevent functions event_add() and event_del(). // // TODO(dkegel): // At the moment bad things happen if a FileDescriptorWatcher // is active after its MessagePumpLibevent has been destroyed. // See MessageLoopTest.FileDescriptorWatcherOutlivesMessageLoop // Not clear yet whether that situation occurs in practice, // but if it does, we need to fix it. namespace base { // Return 0 on success // Too small a function to bother putting in a library? static int SetNonBlocking(int fd) { int flags = fcntl(fd, F_GETFL, 0); if (flags == -1) flags = 0; return fcntl(fd, F_SETFL, flags | O_NONBLOCK); } MessagePumpLibevent::FileDescriptorWatcher::FileDescriptorWatcher() : is_persistent_(false), event_(NULL), pump_(NULL), watcher_(NULL) { } MessagePumpLibevent::FileDescriptorWatcher::~FileDescriptorWatcher() { if (event_) { StopWatchingFileDescriptor(); } } bool MessagePumpLibevent::FileDescriptorWatcher::StopWatchingFileDescriptor() { event* e = ReleaseEvent(); if (e == NULL) return true; // event_del() is a no-op if the event isn't active. int rv = event_del(e); delete e; pump_ = NULL; watcher_ = NULL; return (rv == 0); } void MessagePumpLibevent::FileDescriptorWatcher::Init(event *e, bool is_persistent) { DCHECK(e); DCHECK(!event_); is_persistent_ = is_persistent; event_ = e; } event *MessagePumpLibevent::FileDescriptorWatcher::ReleaseEvent() { struct event *e = event_; event_ = NULL; return e; } void MessagePumpLibevent::FileDescriptorWatcher::OnFileCanReadWithoutBlocking( int fd, MessagePumpLibevent* pump) { pump->WillProcessIOEvent(); watcher_->OnFileCanReadWithoutBlocking(fd); pump->DidProcessIOEvent(); } void MessagePumpLibevent::FileDescriptorWatcher::OnFileCanWriteWithoutBlocking( int fd, MessagePumpLibevent* pump) { pump->WillProcessIOEvent(); watcher_->OnFileCanWriteWithoutBlocking(fd); pump->DidProcessIOEvent(); } MessagePumpLibevent::MessagePumpLibevent() : keep_running_(true), in_run_(false), event_base_(event_base_new()), wakeup_pipe_in_(-1), wakeup_pipe_out_(-1) { if (!Init()) NOTREACHED(); } MessagePumpLibevent::~MessagePumpLibevent() { DCHECK(wakeup_event_); DCHECK(event_base_); event_del(wakeup_event_); delete wakeup_event_; if (wakeup_pipe_in_ >= 0) { if (HANDLE_EINTR(close(wakeup_pipe_in_)) < 0) PLOG(ERROR) << "close"; } if (wakeup_pipe_out_ >= 0) { if (HANDLE_EINTR(close(wakeup_pipe_out_)) < 0) PLOG(ERROR) << "close"; } event_base_free(event_base_); } bool MessagePumpLibevent::WatchFileDescriptor(int fd, bool persistent, Mode mode, FileDescriptorWatcher *controller, Watcher *delegate) { DCHECK_GE(fd, 0); DCHECK(controller); DCHECK(delegate); DCHECK(mode == WATCH_READ || mode == WATCH_WRITE || mode == WATCH_READ_WRITE); int event_mask = persistent ? EV_PERSIST : 0; if ((mode & WATCH_READ) != 0) { event_mask |= EV_READ; } if ((mode & WATCH_WRITE) != 0) { event_mask |= EV_WRITE; } scoped_ptr evt(controller->ReleaseEvent()); if (evt.get() == NULL) { // Ownership is transferred to the controller. evt.reset(new event); } else { // Make sure we don't pick up any funky internal libevent masks. int old_interest_mask = evt.get()->ev_events & (EV_READ | EV_WRITE | EV_PERSIST); // Combine old/new event masks. event_mask |= old_interest_mask; // Must disarm the event before we can reuse it. event_del(evt.get()); // It's illegal to use this function to listen on 2 separate fds with the // same |controller|. if (EVENT_FD(evt.get()) != fd) { NOTREACHED() << "FDs don't match" << EVENT_FD(evt.get()) << "!=" << fd; return false; } } // Set current interest mask and message pump for this event. event_set(evt.get(), fd, event_mask, OnLibeventNotification, controller); // Tell libevent which message pump this socket will belong to when we add it. if (event_base_set(event_base_, evt.get()) != 0) { return false; } // Add this socket to the list of monitored sockets. if (event_add(evt.get(), NULL) != 0) { return false; } // Transfer ownership of evt to controller. controller->Init(evt.release(), persistent); controller->set_watcher(delegate); controller->set_pump(this); return true; } void MessagePumpLibevent::AddIOObserver(IOObserver *obs) { io_observers_.AddObserver(obs); } void MessagePumpLibevent::RemoveIOObserver(IOObserver *obs) { io_observers_.RemoveObserver(obs); } // Tell libevent to break out of inner loop. static void timer_callback(int fd, short events, void *context) { event_base_loopbreak((struct event_base *)context); } // Reentrant! void MessagePumpLibevent::Run(Delegate* delegate) { DCHECK(keep_running_) << "Quit must have been called outside of Run!"; AutoReset auto_reset_in_run(&in_run_, true); // event_base_loopexit() + EVLOOP_ONCE is leaky, see http://crbug.com/25641. // Instead, make our own timer and reuse it on each call to event_base_loop(). scoped_ptr timer_event(new event); for (;;) { mac::ScopedNSAutoreleasePool autorelease_pool; bool did_work = delegate->DoWork(); if (!keep_running_) break; did_work |= delegate->DoDelayedWork(&delayed_work_time_); if (!keep_running_) break; if (did_work) continue; did_work = delegate->DoIdleWork(); if (!keep_running_) break; if (did_work) continue; // EVLOOP_ONCE tells libevent to only block once, // but to service all pending events when it wakes up. if (delayed_work_time_.is_null()) { event_base_loop(event_base_, EVLOOP_ONCE); } else { TimeDelta delay = delayed_work_time_ - TimeTicks::Now(); if (delay > TimeDelta()) { struct timeval poll_tv; poll_tv.tv_sec = delay.InSeconds(); poll_tv.tv_usec = delay.InMicroseconds() % Time::kMicrosecondsPerSecond; event_set(timer_event.get(), -1, 0, timer_callback, event_base_); event_base_set(event_base_, timer_event.get()); event_add(timer_event.get(), &poll_tv); event_base_loop(event_base_, EVLOOP_ONCE); event_del(timer_event.get()); } else { // It looks like delayed_work_time_ indicates a time in the past, so we // need to call DoDelayedWork now. delayed_work_time_ = TimeTicks(); } } } keep_running_ = true; } void MessagePumpLibevent::Quit() { DCHECK(in_run_); // Tell both libevent and Run that they should break out of their loops. keep_running_ = false; ScheduleWork(); } void MessagePumpLibevent::ScheduleWork() { // Tell libevent (in a threadsafe way) that it should break out of its loop. char buf = 0; int nwrite = HANDLE_EINTR(write(wakeup_pipe_in_, &buf, 1)); DCHECK(nwrite == 1 || errno == EAGAIN) << "[nwrite:" << nwrite << "] [errno:" << errno << "]"; } void MessagePumpLibevent::ScheduleDelayedWork( const TimeTicks& delayed_work_time) { // We know that we can't be blocked on Wait right now since this method can // only be called on the same thread as Run, so we only need to update our // record of how long to sleep when we do sleep. delayed_work_time_ = delayed_work_time; } void MessagePumpLibevent::WillProcessIOEvent() { FOR_EACH_OBSERVER(IOObserver, io_observers_, WillProcessIOEvent()); } void MessagePumpLibevent::DidProcessIOEvent() { FOR_EACH_OBSERVER(IOObserver, io_observers_, DidProcessIOEvent()); } bool MessagePumpLibevent::Init() { int fds[2]; if (pipe(fds)) { DLOG(ERROR) << "pipe() failed, errno: " << errno; return false; } if (SetNonBlocking(fds[0])) { DLOG(ERROR) << "SetNonBlocking for pipe fd[0] failed, errno: " << errno; return false; } if (SetNonBlocking(fds[1])) { DLOG(ERROR) << "SetNonBlocking for pipe fd[1] failed, errno: " << errno; return false; } wakeup_pipe_out_ = fds[0]; wakeup_pipe_in_ = fds[1]; wakeup_event_ = new event; event_set(wakeup_event_, wakeup_pipe_out_, EV_READ | EV_PERSIST, OnWakeup, this); event_base_set(event_base_, wakeup_event_); if (event_add(wakeup_event_, 0)) return false; return true; } // static void MessagePumpLibevent::OnLibeventNotification(int fd, short flags, void* context) { FileDescriptorWatcher* controller = static_cast(context); MessagePumpLibevent* pump = controller->pump(); if (flags & EV_WRITE) { controller->OnFileCanWriteWithoutBlocking(fd, pump); } if (flags & EV_READ) { controller->OnFileCanReadWithoutBlocking(fd, pump); } } // Called if a byte is received on the wakeup pipe. // static void MessagePumpLibevent::OnWakeup(int socket, short flags, void* context) { base::MessagePumpLibevent* that = static_cast(context); DCHECK(that->wakeup_pipe_out_ == socket); // Remove and discard the wakeup byte. char buf; int nread = HANDLE_EINTR(read(socket, &buf, 1)); DCHECK_EQ(nread, 1); // Tell libevent to break out of inner loop. event_base_loopbreak(that->event_base_); } } // namespace base