ladybird/Ladybird/Qt/EventLoopImplementationQt.cpp
Daniel Bertalan c62240aa80 Everywhere: Warn on function definitions without prototypes
If no header includes the prototype of a function, then it cannot be
used from outside the translation unit it was defined in. In that case,
it should be marked as `static`, in order to avoid possible ODR
problems, unnecessary exported symbols, and allow the compiler to better
optimize those.

If this warning triggers in a function defined in a header, `inline`
needs to be added, otherwise if the header is included in more than one
TU, it will fail to link with a duplicate definition error.

The reason this diff got so big is that Lagom-only code wasn't built
with this flag even in Serenity times.
2024-07-17 21:51:29 +02:00

363 lines
11 KiB
C++

/*
* Copyright (c) 2022-2023, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "EventLoopImplementationQt.h"
#include "EventLoopImplementationQtEventTarget.h"
#include <AK/IDAllocator.h>
#include <AK/Singleton.h>
#include <AK/TemporaryChange.h>
#include <LibCore/Event.h>
#include <LibCore/EventReceiver.h>
#include <LibCore/Notifier.h>
#include <LibCore/System.h>
#include <LibCore/ThreadEventQueue.h>
#include <QCoreApplication>
#include <QTimer>
namespace Ladybird {
struct ThreadData;
static thread_local ThreadData* s_thread_data;
struct ThreadData {
static ThreadData& the()
{
if (!s_thread_data) {
// FIXME: Don't leak this.
s_thread_data = new ThreadData;
}
return *s_thread_data;
}
HashMap<Core::Notifier*, NonnullOwnPtr<QSocketNotifier>> notifiers;
};
class SignalHandlers : public RefCounted<SignalHandlers> {
AK_MAKE_NONCOPYABLE(SignalHandlers);
AK_MAKE_NONMOVABLE(SignalHandlers);
public:
SignalHandlers(int signal_number, void (*handle_signal)(int));
~SignalHandlers();
void dispatch();
int add(Function<void(int)>&& handler);
bool remove(int handler_id);
bool is_empty() const
{
if (m_calling_handlers) {
for (auto const& handler : m_handlers_pending) {
if (handler.value)
return false; // an add is pending
}
}
return m_handlers.is_empty();
}
bool have(int handler_id) const
{
if (m_calling_handlers) {
auto it = m_handlers_pending.find(handler_id);
if (it != m_handlers_pending.end()) {
if (!it->value)
return false; // a deletion is pending
}
}
return m_handlers.contains(handler_id);
}
int m_signal_number;
void (*m_original_handler)(int);
HashMap<int, Function<void(int)>> m_handlers;
HashMap<int, Function<void(int)>> m_handlers_pending;
bool m_calling_handlers { false };
};
SignalHandlers::SignalHandlers(int signal_number, void (*handle_signal)(int))
: m_signal_number(signal_number)
, m_original_handler(signal(signal_number, handle_signal))
{
}
SignalHandlers::~SignalHandlers()
{
(void)::signal(m_signal_number, m_original_handler);
}
struct SignalHandlersInfo {
HashMap<int, NonnullRefPtr<SignalHandlers>> signal_handlers;
int next_signal_id { 0 };
};
static Singleton<SignalHandlersInfo> s_signals;
static SignalHandlersInfo* signals_info()
{
return s_signals.ptr();
}
void SignalHandlers::dispatch()
{
TemporaryChange change(m_calling_handlers, true);
for (auto& handler : m_handlers)
handler.value(m_signal_number);
if (!m_handlers_pending.is_empty()) {
// Apply pending adds/removes
for (auto& handler : m_handlers_pending) {
if (handler.value) {
auto result = m_handlers.set(handler.key, move(handler.value));
VERIFY(result == AK::HashSetResult::InsertedNewEntry);
} else {
m_handlers.remove(handler.key);
}
}
m_handlers_pending.clear();
}
}
int SignalHandlers::add(Function<void(int)>&& handler)
{
int id = ++signals_info()->next_signal_id; // TODO: worry about wrapping and duplicates?
if (m_calling_handlers)
m_handlers_pending.set(id, move(handler));
else
m_handlers.set(id, move(handler));
return id;
}
bool SignalHandlers::remove(int handler_id)
{
VERIFY(handler_id != 0);
if (m_calling_handlers) {
auto it = m_handlers.find(handler_id);
if (it != m_handlers.end()) {
// Mark pending remove
m_handlers_pending.set(handler_id, {});
return true;
}
it = m_handlers_pending.find(handler_id);
if (it != m_handlers_pending.end()) {
if (!it->value)
return false; // already was marked as deleted
it->value = nullptr;
return true;
}
return false;
}
return m_handlers.remove(handler_id);
}
static void dispatch_signal(int signal_number)
{
auto& info = *signals_info();
auto handlers = info.signal_handlers.find(signal_number);
if (handlers != info.signal_handlers.end()) {
// Make sure we bump the ref count while dispatching the handlers!
// This allows a handler to unregister/register while the handlers
// are being called!
auto handler = handlers->value;
handler->dispatch();
}
}
EventLoopImplementationQt::EventLoopImplementationQt()
{
}
EventLoopImplementationQt::~EventLoopImplementationQt() = default;
int EventLoopImplementationQt::exec()
{
if (is_main_loop())
return QCoreApplication::exec();
return m_event_loop.exec();
}
size_t EventLoopImplementationQt::pump(PumpMode mode)
{
auto result = Core::ThreadEventQueue::current().process();
auto qt_mode = mode == PumpMode::WaitForEvents ? QEventLoop::WaitForMoreEvents : QEventLoop::AllEvents;
if (is_main_loop())
QCoreApplication::processEvents(qt_mode);
else
m_event_loop.processEvents(qt_mode);
result += Core::ThreadEventQueue::current().process();
return result;
}
void EventLoopImplementationQt::quit(int code)
{
if (is_main_loop())
QCoreApplication::exit(code);
else
m_event_loop.exit(code);
}
void EventLoopImplementationQt::wake()
{
if (!is_main_loop())
m_event_loop.wakeUp();
}
void EventLoopImplementationQt::post_event(Core::EventReceiver& receiver, NonnullOwnPtr<Core::Event>&& event)
{
m_thread_event_queue.post_event(receiver, move(event));
if (&m_thread_event_queue != &Core::ThreadEventQueue::current())
wake();
}
static void qt_timer_fired(Core::TimerShouldFireWhenNotVisible should_fire_when_not_visible, Core::EventReceiver& object)
{
if (should_fire_when_not_visible == Core::TimerShouldFireWhenNotVisible::No) {
if (!object.is_visible_for_timer_purposes())
return;
}
Core::TimerEvent event;
object.dispatch_event(event);
}
intptr_t EventLoopManagerQt::register_timer(Core::EventReceiver& object, int milliseconds, bool should_reload, Core::TimerShouldFireWhenNotVisible should_fire_when_not_visible)
{
auto timer = new QTimer;
timer->setTimerType(Qt::PreciseTimer);
timer->setInterval(milliseconds);
timer->setSingleShot(!should_reload);
auto weak_object = object.make_weak_ptr();
QObject::connect(timer, &QTimer::timeout, [should_fire_when_not_visible, weak_object = move(weak_object)] {
auto object = weak_object.strong_ref();
if (!object)
return;
qt_timer_fired(should_fire_when_not_visible, *object);
});
timer->start();
return bit_cast<intptr_t>(timer);
}
void EventLoopManagerQt::unregister_timer(intptr_t timer_id)
{
auto* timer = bit_cast<QTimer*>(timer_id);
delete timer;
}
static void qt_notifier_activated(Core::Notifier& notifier)
{
Core::NotifierActivationEvent event(notifier.fd(), notifier.type());
notifier.dispatch_event(event);
}
void EventLoopManagerQt::register_notifier(Core::Notifier& notifier)
{
QSocketNotifier::Type type;
switch (notifier.type()) {
case Core::Notifier::Type::Read:
type = QSocketNotifier::Read;
break;
case Core::Notifier::Type::Write:
type = QSocketNotifier::Write;
break;
default:
TODO();
}
auto socket_notifier = make<QSocketNotifier>(notifier.fd(), type);
QObject::connect(socket_notifier, &QSocketNotifier::activated, [&notifier] {
qt_notifier_activated(notifier);
});
ThreadData::the().notifiers.set(&notifier, move(socket_notifier));
}
void EventLoopManagerQt::unregister_notifier(Core::Notifier& notifier)
{
ThreadData::the().notifiers.remove(&notifier);
}
void EventLoopManagerQt::handle_signal(int signal_number)
{
auto& that = static_cast<EventLoopManagerQt&>(Core::EventLoopManager::the());
// https://gcc.gnu.org/bugzilla/show_bug.cgi?id=66425
// Apparently warn_unused_result ignoring (void) casts is a feature
[[maybe_unused]] auto _ = ::write(that.m_signal_socket_fds[1], &signal_number, sizeof(signal_number));
}
int EventLoopManagerQt::register_signal(int signal_number, Function<void(int)> handler)
{
VERIFY(signal_number != 0);
auto& info = *signals_info();
auto handlers = info.signal_handlers.find(signal_number);
if (handlers == info.signal_handlers.end()) {
auto signal_handlers = adopt_ref(*new SignalHandlers(signal_number, EventLoopManagerQt::handle_signal));
auto handler_id = signal_handlers->add(move(handler));
info.signal_handlers.set(signal_number, move(signal_handlers));
return handler_id;
} else {
return handlers->value->add(move(handler));
}
}
void EventLoopManagerQt::unregister_signal(int handler_id)
{
VERIFY(handler_id != 0);
int remove_signal_number = 0;
auto& info = *signals_info();
for (auto& h : info.signal_handlers) {
auto& handlers = *h.value;
if (handlers.remove(handler_id)) {
if (handlers.is_empty())
remove_signal_number = handlers.m_signal_number;
break;
}
}
if (remove_signal_number != 0)
info.signal_handlers.remove(remove_signal_number);
}
void EventLoopManagerQt::did_post_event()
{
QCoreApplication::postEvent(m_main_thread_event_target.ptr(), new QtEventLoopManagerEvent(QtEventLoopManagerEvent::process_event_queue_event_type()));
}
bool EventLoopManagerQt::event_target_received_event(Badge<EventLoopImplementationQtEventTarget>, QEvent* event)
{
if (event->type() == QtEventLoopManagerEvent::process_event_queue_event_type()) {
Core::ThreadEventQueue::current().process();
return true;
}
return false;
}
EventLoopManagerQt::EventLoopManagerQt()
: m_main_thread_event_target(make<EventLoopImplementationQtEventTarget>())
{
MUST(Core::System::socketpair(AF_LOCAL, SOCK_STREAM, 0, m_signal_socket_fds));
m_signal_socket_notifier = new QSocketNotifier(m_signal_socket_fds[0], QSocketNotifier::Read);
QObject::connect(m_signal_socket_notifier, &QSocketNotifier::activated, [this] {
int signal_number = {};
ssize_t nread;
do {
errno = 0;
nread = read(this->m_signal_socket_fds[0], &signal_number, sizeof(signal_number));
if (nread >= 0)
break;
} while (errno == EINTR);
VERIFY(nread == sizeof(signal_number));
dispatch_signal(signal_number);
});
m_signal_socket_notifier->setEnabled(true);
}
EventLoopManagerQt::~EventLoopManagerQt()
{
delete m_signal_socket_notifier;
::close(m_signal_socket_fds[0]);
::close(m_signal_socket_fds[1]);
}
NonnullOwnPtr<Core::EventLoopImplementation> EventLoopManagerQt::make_implementation()
{
return adopt_own(*new EventLoopImplementationQt);
}
}