2018-08-11 08:35:24 +03:00
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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/message_loop/message_pump_libevent.h"
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#include <errno.h>
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#include <unistd.h>
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#include <utility>
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#include "base/auto_reset.h"
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#include "base/compiler_specific.h"
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#include "base/files/file_util.h"
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#include "base/logging.h"
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#include "base/posix/eintr_wrapper.h"
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#include "base/time/time.h"
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#include "base/trace_event/trace_event.h"
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#include "build/build_config.h"
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#if defined(OS_MACOSX)
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#include "base/mac/scoped_nsautorelease_pool.h"
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#endif
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2018-01-25 15:50:56 +03:00
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#if defined(OS_LINUX)
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#include <event.h>
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#else
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#include "base/third_party/libevent/event.h"
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#endif
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2018-08-11 08:35:24 +03:00
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// Lifecycle of struct event
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// Libevent uses two main data structures:
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// struct event_base (of which there is one per message pump), and
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// struct event (of which there is roughly one per socket).
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// The socket's struct event is created in
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// MessagePumpLibevent::WatchFileDescriptor(),
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// is owned by the FdWatchController, and is destroyed in
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// StopWatchingFileDescriptor().
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// It is moved into and out of lists in struct event_base by
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// the libevent functions event_add() and event_del().
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//
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// TODO(dkegel):
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// At the moment bad things happen if a FdWatchController
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// is active after its MessagePumpLibevent has been destroyed.
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// See MessageLoopTest.FdWatchControllerOutlivesMessageLoop
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// Not clear yet whether that situation occurs in practice,
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// but if it does, we need to fix it.
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namespace base {
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MessagePumpLibevent::FdWatchController::FdWatchController(
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const Location& from_here)
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: FdWatchControllerInterface(from_here) {}
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MessagePumpLibevent::FdWatchController::~FdWatchController() {
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if (event_) {
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StopWatchingFileDescriptor();
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}
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if (was_destroyed_) {
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DCHECK(!*was_destroyed_);
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*was_destroyed_ = true;
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}
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}
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bool MessagePumpLibevent::FdWatchController::StopWatchingFileDescriptor() {
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std::unique_ptr<event> e = ReleaseEvent();
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if (!e)
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return true;
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// event_del() is a no-op if the event isn't active.
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int rv = event_del(e.get());
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pump_ = nullptr;
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watcher_ = nullptr;
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return (rv == 0);
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}
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void MessagePumpLibevent::FdWatchController::Init(std::unique_ptr<event> e) {
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DCHECK(e);
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DCHECK(!event_);
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event_ = std::move(e);
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}
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std::unique_ptr<event> MessagePumpLibevent::FdWatchController::ReleaseEvent() {
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return std::move(event_);
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}
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void MessagePumpLibevent::FdWatchController::OnFileCanReadWithoutBlocking(
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int fd,
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MessagePumpLibevent* pump) {
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// Since OnFileCanWriteWithoutBlocking() gets called first, it can stop
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// watching the file descriptor.
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if (!watcher_)
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return;
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watcher_->OnFileCanReadWithoutBlocking(fd);
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}
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void MessagePumpLibevent::FdWatchController::OnFileCanWriteWithoutBlocking(
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int fd,
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MessagePumpLibevent* pump) {
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DCHECK(watcher_);
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watcher_->OnFileCanWriteWithoutBlocking(fd);
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}
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MessagePumpLibevent::MessagePumpLibevent()
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: keep_running_(true),
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in_run_(false),
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processed_io_events_(false),
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event_base_(event_base_new()),
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wakeup_pipe_in_(-1),
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wakeup_pipe_out_(-1) {
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if (!Init())
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NOTREACHED();
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}
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MessagePumpLibevent::~MessagePumpLibevent() {
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DCHECK(wakeup_event_);
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DCHECK(event_base_);
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event_del(wakeup_event_);
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delete wakeup_event_;
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if (wakeup_pipe_in_ >= 0) {
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if (IGNORE_EINTR(close(wakeup_pipe_in_)) < 0)
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DPLOG(ERROR) << "close";
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}
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if (wakeup_pipe_out_ >= 0) {
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if (IGNORE_EINTR(close(wakeup_pipe_out_)) < 0)
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DPLOG(ERROR) << "close";
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}
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event_base_free(event_base_);
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}
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bool MessagePumpLibevent::WatchFileDescriptor(int fd,
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bool persistent,
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int mode,
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FdWatchController* controller,
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FdWatcher* delegate) {
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DCHECK_GE(fd, 0);
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DCHECK(controller);
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DCHECK(delegate);
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DCHECK(mode == WATCH_READ || mode == WATCH_WRITE || mode == WATCH_READ_WRITE);
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// WatchFileDescriptor should be called on the pump thread. It is not
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// threadsafe, and your watcher may never be registered.
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DCHECK(watch_file_descriptor_caller_checker_.CalledOnValidThread());
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int event_mask = persistent ? EV_PERSIST : 0;
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if (mode & WATCH_READ) {
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event_mask |= EV_READ;
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}
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if (mode & WATCH_WRITE) {
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event_mask |= EV_WRITE;
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}
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std::unique_ptr<event> evt(controller->ReleaseEvent());
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if (!evt) {
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// Ownership is transferred to the controller.
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evt.reset(new event);
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} else {
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// Make sure we don't pick up any funky internal libevent masks.
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int old_interest_mask = evt->ev_events & (EV_READ | EV_WRITE | EV_PERSIST);
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// Combine old/new event masks.
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event_mask |= old_interest_mask;
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// Must disarm the event before we can reuse it.
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event_del(evt.get());
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// It's illegal to use this function to listen on 2 separate fds with the
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// same |controller|.
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if (EVENT_FD(evt.get()) != fd) {
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NOTREACHED() << "FDs don't match" << EVENT_FD(evt.get()) << "!=" << fd;
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return false;
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}
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}
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// Set current interest mask and message pump for this event.
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event_set(evt.get(), fd, event_mask, OnLibeventNotification, controller);
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// Tell libevent which message pump this socket will belong to when we add it.
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if (event_base_set(event_base_, evt.get())) {
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DPLOG(ERROR) << "event_base_set(fd=" << EVENT_FD(evt.get()) << ")";
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return false;
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}
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// Add this socket to the list of monitored sockets.
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if (event_add(evt.get(), nullptr)) {
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DPLOG(ERROR) << "event_add failed(fd=" << EVENT_FD(evt.get()) << ")";
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return false;
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}
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controller->Init(std::move(evt));
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controller->set_watcher(delegate);
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controller->set_pump(this);
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return true;
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}
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// Tell libevent to break out of inner loop.
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static void timer_callback(int fd, short events, void* context) {
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event_base_loopbreak((struct event_base*)context);
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}
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// Reentrant!
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void MessagePumpLibevent::Run(Delegate* delegate) {
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AutoReset<bool> auto_reset_keep_running(&keep_running_, true);
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AutoReset<bool> auto_reset_in_run(&in_run_, true);
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// event_base_loopexit() + EVLOOP_ONCE is leaky, see http://crbug.com/25641.
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// Instead, make our own timer and reuse it on each call to event_base_loop().
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std::unique_ptr<event> timer_event(new event);
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for (;;) {
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#if defined(OS_MACOSX)
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mac::ScopedNSAutoreleasePool autorelease_pool;
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#endif
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bool did_work = delegate->DoWork();
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if (!keep_running_)
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break;
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event_base_loop(event_base_, EVLOOP_NONBLOCK);
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did_work |= processed_io_events_;
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processed_io_events_ = false;
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if (!keep_running_)
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break;
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did_work |= delegate->DoDelayedWork(&delayed_work_time_);
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if (!keep_running_)
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break;
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if (did_work)
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continue;
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did_work = delegate->DoIdleWork();
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if (!keep_running_)
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break;
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if (did_work)
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continue;
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// EVLOOP_ONCE tells libevent to only block once,
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// but to service all pending events when it wakes up.
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if (delayed_work_time_.is_null()) {
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event_base_loop(event_base_, EVLOOP_ONCE);
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} else {
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TimeDelta delay = delayed_work_time_ - TimeTicks::Now();
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if (delay > TimeDelta()) {
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struct timeval poll_tv;
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poll_tv.tv_sec = delay.InSeconds();
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poll_tv.tv_usec = delay.InMicroseconds() % Time::kMicrosecondsPerSecond;
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event_set(timer_event.get(), -1, 0, timer_callback, event_base_);
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event_base_set(event_base_, timer_event.get());
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event_add(timer_event.get(), &poll_tv);
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event_base_loop(event_base_, EVLOOP_ONCE);
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event_del(timer_event.get());
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} else {
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// It looks like delayed_work_time_ indicates a time in the past, so we
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// need to call DoDelayedWork now.
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delayed_work_time_ = TimeTicks();
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}
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}
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if (!keep_running_)
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break;
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}
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}
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void MessagePumpLibevent::Quit() {
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DCHECK(in_run_) << "Quit was called outside of Run!";
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// Tell both libevent and Run that they should break out of their loops.
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keep_running_ = false;
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ScheduleWork();
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}
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void MessagePumpLibevent::ScheduleWork() {
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// Tell libevent (in a threadsafe way) that it should break out of its loop.
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char buf = 0;
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int nwrite = HANDLE_EINTR(write(wakeup_pipe_in_, &buf, 1));
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DCHECK(nwrite == 1 || errno == EAGAIN)
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<< "[nwrite:" << nwrite << "] [errno:" << errno << "]";
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}
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void MessagePumpLibevent::ScheduleDelayedWork(
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const TimeTicks& delayed_work_time) {
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// We know that we can't be blocked on Wait right now since this method can
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// only be called on the same thread as Run, so we only need to update our
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// record of how long to sleep when we do sleep.
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delayed_work_time_ = delayed_work_time;
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}
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bool MessagePumpLibevent::Init() {
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int fds[2];
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if (!CreateLocalNonBlockingPipe(fds)) {
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DPLOG(ERROR) << "pipe creation failed";
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return false;
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}
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wakeup_pipe_out_ = fds[0];
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wakeup_pipe_in_ = fds[1];
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wakeup_event_ = new event;
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event_set(wakeup_event_, wakeup_pipe_out_, EV_READ | EV_PERSIST,
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OnWakeup, this);
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event_base_set(event_base_, wakeup_event_);
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if (event_add(wakeup_event_, nullptr))
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return false;
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return true;
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}
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// static
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void MessagePumpLibevent::OnLibeventNotification(int fd,
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short flags,
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void* context) {
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FdWatchController* controller = static_cast<FdWatchController*>(context);
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DCHECK(controller);
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TRACE_EVENT2("toplevel", "MessagePumpLibevent::OnLibeventNotification",
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"src_file", controller->created_from_location().file_name(),
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"src_func", controller->created_from_location().function_name());
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TRACE_HEAP_PROFILER_API_SCOPED_TASK_EXECUTION heap_profiler_scope(
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controller->created_from_location().file_name());
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MessagePumpLibevent* pump = controller->pump();
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pump->processed_io_events_ = true;
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if ((flags & (EV_READ | EV_WRITE)) == (EV_READ | EV_WRITE)) {
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// Both callbacks will be called. It is necessary to check that |controller|
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// is not destroyed.
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bool controller_was_destroyed = false;
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controller->was_destroyed_ = &controller_was_destroyed;
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controller->OnFileCanWriteWithoutBlocking(fd, pump);
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if (!controller_was_destroyed)
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controller->OnFileCanReadWithoutBlocking(fd, pump);
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if (!controller_was_destroyed)
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controller->was_destroyed_ = nullptr;
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} else if (flags & EV_WRITE) {
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controller->OnFileCanWriteWithoutBlocking(fd, pump);
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} else if (flags & EV_READ) {
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controller->OnFileCanReadWithoutBlocking(fd, pump);
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}
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}
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// Called if a byte is received on the wakeup pipe.
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// static
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void MessagePumpLibevent::OnWakeup(int socket, short flags, void* context) {
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MessagePumpLibevent* that = static_cast<MessagePumpLibevent*>(context);
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DCHECK(that->wakeup_pipe_out_ == socket);
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// Remove and discard the wakeup byte.
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char buf;
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int nread = HANDLE_EINTR(read(socket, &buf, 1));
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DCHECK_EQ(nread, 1);
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that->processed_io_events_ = true;
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// Tell libevent to break out of inner loop.
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event_base_loopbreak(that->event_base_);
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}
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} // namespace base
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