x11: Do not hold lock when dispatching events

This commit is contained in:
i509VCB 2021-12-06 15:31:55 -06:00
parent 6b1788d002
commit 09ce3da742
1 changed files with 181 additions and 203 deletions

View File

@ -249,6 +249,7 @@ impl X11Backend {
pub fn handle(&self) -> X11Handle {
X11Handle {
log: self.log.clone(),
connection: self.connection.clone(),
inner: self.inner.clone(),
}
}
@ -356,6 +357,7 @@ fn dri3_init(x11: &X11Inner) -> Result<DrmNode, X11Error> {
#[derive(Debug)]
pub struct X11Handle {
log: Logger,
connection: Arc<RustConnection>,
inner: Arc<Mutex<X11Inner>>,
}
@ -367,7 +369,7 @@ impl X11Handle {
/// Returns the underlying connection to the X server.
pub fn connection(&self) -> Arc<RustConnection> {
self.inner.lock().unwrap().connection.clone()
self.connection.clone()
}
/// Returns the format of the window.
@ -709,11 +711,11 @@ impl EventSource for X11Backend {
F: FnMut(Self::Event, &mut Self::Metadata) -> Self::Ret,
{
let connection = self.connection.clone();
let log = self.log.clone();
let inner = self.inner.clone();
let mut inner = inner.lock().unwrap();
let post_action = self.source.process_events(readiness, token, |event, _| {
inner.process_event(event, &mut callback);
X11Inner::process_event(&inner, &log, event, &mut callback);
})?;
// Flush the connection so changes to the window state during callbacks can be emitted.
@ -751,86 +753,83 @@ pub(crate) struct X11Inner {
}
impl X11Inner {
pub fn process_event<F>(&mut self, event: x11::Event, callback: &mut F)
fn process_event<F>(inner: &Arc<Mutex<X11Inner>>, log: &Logger, event: x11::Event, callback: &mut F)
where
F: FnMut(X11Event, &mut Window),
{
use self::X11Event::Input;
fn window_from_id(inner: &Arc<Mutex<X11Inner>>, id: &u32) -> Option<Arc<WindowInner>> {
inner.lock().unwrap().windows.get(id).cloned()
}
// If X11 is deadlocking somewhere here, make sure you drop your mutex guards.
match event {
x11::Event::ButtonPress(button_press) => {
if !self.windows.contains_key(&button_press.event) {
return;
}
if let Some(window) = window_from_id(inner, &button_press.event) {
// X11 decided to associate scroll wheel with a button, 4, 5, 6 and 7 for
// up, down, right and left. For scrolling, a press event is emitted and a
// release is them immediately followed for scrolling. This means we can
// ignore release for scrolling.
let window = self.windows.get(&button_press.event).unwrap();
// X11 decided to associate scroll wheel with a button, 4, 5, 6 and 7 for
// up, down, right and left. For scrolling, a press event is emitted and a
// release is them immediately followed for scrolling. This means we can
// ignore release for scrolling.
// Ideally we would use `ButtonIndex` from XCB, however it does not cover 6 and 7
// for horizontal scroll and does not work nicely in match statements, so we
// use magic constants here:
//
// 1 => MouseButton::Left
// 2 => MouseButton::Middle
// 3 => MouseButton::Right
// 4 => Axis::Vertical +1.0
// 5 => Axis::Vertical -1.0
// 6 => Axis::Horizontal -1.0
// 7 => Axis::Horizontal +1.0
// Others => ??
// Ideally we would use `ButtonIndex` from XCB, however it does not cover 6 and 7
// for horizontal scroll and does not work nicely in match statements, so we
// use magic constants here:
//
// 1 => MouseButton::Left
// 2 => MouseButton::Middle
// 3 => MouseButton::Right
// 4 => Axis::Vertical +1.0
// 5 => Axis::Vertical -1.0
// 6 => Axis::Horizontal -1.0
// 7 => Axis::Horizontal +1.0
// Others => ??
// Scrolling
if button_press.detail >= 4 && button_press.detail <= 7 {
callback(
Input(InputEvent::PointerAxis {
event: X11MouseWheelEvent {
time: button_press.time,
axis: match button_press.detail {
// Up | Down
4 | 5 => Axis::Vertical,
// Scrolling
if button_press.detail >= 4 && button_press.detail <= 7 {
callback(
Input(InputEvent::PointerAxis {
event: X11MouseWheelEvent {
time: button_press.time,
axis: match button_press.detail {
// Up | Down
4 | 5 => Axis::Vertical,
// Right | Left
6 | 7 => Axis::Horizontal,
// Right | Left
6 | 7 => Axis::Horizontal,
_ => unreachable!(),
},
amount: match button_press.detail {
// Up | Right
4 | 7 => 1.0,
_ => unreachable!(),
// Down | Left
5 | 6 => -1.0,
_ => unreachable!(),
},
},
amount: match button_press.detail {
// Up | Right
4 | 7 => 1.0,
// Down | Left
5 | 6 => -1.0,
_ => unreachable!(),
}),
&mut Window(Arc::downgrade(&window)),
)
} else {
callback(
Input(InputEvent::PointerButton {
event: X11MouseInputEvent {
time: button_press.time,
raw: button_press.detail as u32,
state: ButtonState::Pressed,
},
},
}),
&mut Window(Arc::downgrade(window)),
)
} else {
callback(
Input(InputEvent::PointerButton {
event: X11MouseInputEvent {
time: button_press.time,
raw: button_press.detail as u32,
state: ButtonState::Pressed,
},
}),
&mut Window(Arc::downgrade(window)),
)
}),
&mut Window(Arc::downgrade(&window)),
)
}
}
}
x11::Event::ButtonRelease(button_release) => {
if !self.windows.contains_key(&button_release.event) {
return;
}
let window = self.windows.get(&button_release.event).unwrap();
// Ignore release tick because this event is always sent immediately after the press
// tick for scrolling and the backend will dispatch release event automatically during
// the press event.
@ -838,183 +837,162 @@ impl X11Inner {
return;
}
callback(
Input(InputEvent::PointerButton {
event: X11MouseInputEvent {
time: button_release.time,
raw: button_release.detail as u32,
state: ButtonState::Released,
},
}),
&mut Window(Arc::downgrade(window)),
);
if let Some(window) = window_from_id(inner, &button_release.event) {
callback(
Input(InputEvent::PointerButton {
event: X11MouseInputEvent {
time: button_release.time,
raw: button_release.detail as u32,
state: ButtonState::Released,
},
}),
&mut Window(Arc::downgrade(&window)),
);
}
}
x11::Event::KeyPress(key_press) => {
if !self.windows.contains_key(&key_press.event) {
return;
}
if let Some(window) = window_from_id(inner, &key_press.event) {
// Do not hold the lock.
let count = { inner.lock().unwrap().key_counter.fetch_add(1, Ordering::SeqCst) + 1 };
callback(
Input(InputEvent::Keyboard {
event: X11KeyboardInputEvent {
time: key_press.time,
// X11's keycodes are +8 relative to the libinput keycodes
// that are expected, so subtract 8 from each keycode to
// match libinput.
//
// https://github.com/freedesktop/xorg-xf86-input-libinput/blob/master/src/xf86libinput.c#L54
key: key_press.detail as u32 - 8,
count: self.key_counter.fetch_add(1, Ordering::SeqCst) + 1,
state: KeyState::Pressed,
},
}),
&mut Window(Arc::downgrade(self.windows.get(&key_press.event).unwrap())),
)
callback(
Input(InputEvent::Keyboard {
event: X11KeyboardInputEvent {
time: key_press.time,
// X11's keycodes are +8 relative to the libinput keycodes
// that are expected, so subtract 8 from each keycode to
// match libinput.
//
// https://github.com/freedesktop/xorg-xf86-input-libinput/blob/master/src/xf86libinput.c#L54
key: key_press.detail as u32 - 8,
count,
state: KeyState::Pressed,
},
}),
&mut Window(Arc::downgrade(&window)),
)
}
}
x11::Event::KeyRelease(key_release) => {
if !self.windows.contains_key(&key_release.event) {
return;
if let Some(window) = window_from_id(inner, &key_release.event) {
let count = {
let key_counter = inner.lock().unwrap().key_counter.clone();
// atomic u32 has no checked_sub, so load and store to do the same.
let mut count = key_counter.load(Ordering::SeqCst);
count = count.saturating_sub(1);
key_counter.store(count, Ordering::SeqCst);
count
};
callback(
Input(InputEvent::Keyboard {
event: X11KeyboardInputEvent {
time: key_release.time,
// X11's keycodes are +8 relative to the libinput keycodes
// that are expected, so subtract 8 from each keycode to
// match libinput.
//
// https://github.com/freedesktop/xorg-xf86-input-libinput/blob/master/src/xf86libinput.c#L54
key: key_release.detail as u32 - 8,
count,
state: KeyState::Released,
},
}),
&mut Window(Arc::downgrade(&window)),
);
}
// atomic u32 has no checked_sub, so load and store to do the same.
let mut key_counter_val = self.key_counter.load(Ordering::SeqCst);
key_counter_val = key_counter_val.saturating_sub(1);
self.key_counter.store(key_counter_val, Ordering::SeqCst);
callback(
Input(InputEvent::Keyboard {
event: X11KeyboardInputEvent {
time: key_release.time,
// X11's keycodes are +8 relative to the libinput keycodes
// that are expected, so subtract 8 from each keycode to
// match libinput.
//
// https://github.com/freedesktop/xorg-xf86-input-libinput/blob/master/src/xf86libinput.c#L54
key: key_release.detail as u32 - 8,
count: key_counter_val,
state: KeyState::Released,
},
}),
&mut Window(Arc::downgrade(self.windows.get(&key_release.event).unwrap())),
);
}
x11::Event::MotionNotify(motion_notify) => {
if !self.windows.contains_key(&motion_notify.event) {
return;
if let Some(window) = window_from_id(inner, &motion_notify.event) {
// Use event_x/y since those are relative the the window receiving events.
let x = motion_notify.event_x as f64;
let y = motion_notify.event_y as f64;
let window_size = { *window.size.lock().unwrap() };
callback(
Input(InputEvent::PointerMotionAbsolute {
event: X11MouseMovedEvent {
time: motion_notify.time,
x,
y,
size: window_size,
},
}),
&mut Window(Arc::downgrade(&window)),
)
}
let window = self.windows.get(&motion_notify.event).unwrap();
// Use event_x/y since those are relative the the window receiving events.
let x = motion_notify.event_x as f64;
let y = motion_notify.event_y as f64;
let window_size = { *window.size.lock().unwrap() };
callback(
Input(InputEvent::PointerMotionAbsolute {
event: X11MouseMovedEvent {
time: motion_notify.time,
x,
y,
size: window_size,
},
}),
&mut Window(Arc::downgrade(window)),
)
}
x11::Event::ConfigureNotify(configure_notify) => {
if !self.windows.contains_key(&configure_notify.window) {
return;
}
if let Some(window) = window_from_id(inner, &configure_notify.window) {
let previous_size = { *window.size.lock().unwrap() };
let window = self.windows.get(&configure_notify.window).unwrap();
// Did the size of the window change?
let configure_notify_size: Size<u16, Logical> =
(configure_notify.width, configure_notify.height).into();
let previous_size = { *window.size.lock().unwrap() };
if configure_notify_size != previous_size {
// Intentionally drop the lock on the size mutex incase a user
// requests a resize or does something which causes a resize
// inside the callback.
{
*window.size.lock().unwrap() = configure_notify_size;
}
// Did the size of the window change?
let configure_notify_size: Size<u16, Logical> =
(configure_notify.width, configure_notify.height).into();
(callback)(
X11Event::Resized(configure_notify_size),
&mut Window(Arc::downgrade(&window)),
);
if configure_notify_size != previous_size {
// Intentionally drop the lock on the size mutex incase a user
// requests a resize or does something which causes a resize
// inside the callback.
{
*window.size.lock().unwrap() = configure_notify_size;
}
(callback)(
X11Event::Resized(configure_notify_size),
&mut Window(Arc::downgrade(window)),
);
if let Some(resize_sender) = &*window.resize.lock().unwrap() {
let _ = resize_sender.send(configure_notify_size);
if let Some(resize_sender) = &*window.resize.lock().unwrap() {
let _ = resize_sender.send(configure_notify_size);
}
}
}
}
x11::Event::EnterNotify(enter_notify) => {
if !self.windows.contains_key(&enter_notify.event) {
return;
if let Some(window) = window_from_id(inner, &enter_notify.event) {
window.cursor_enter();
}
self.windows.get(&enter_notify.event).unwrap().cursor_enter();
}
x11::Event::LeaveNotify(leave_notify) => {
if !self.windows.contains_key(&leave_notify.event) {
return;
if let Some(window) = window_from_id(inner, &leave_notify.event) {
window.cursor_leave();
}
self.windows.get(&leave_notify.event).unwrap().cursor_leave();
}
x11::Event::ClientMessage(client_message) => {
if !self.windows.contains_key(&client_message.window) {
return;
}
let window = self.windows.get(&client_message.window).unwrap();
if client_message.data.as_data32()[0] == window.atoms.WM_DELETE_WINDOW
// Destroy the window?
{
(callback)(X11Event::CloseRequested, &mut Window(Arc::downgrade(window)));
if let Some(window) = window_from_id(inner, &client_message.window) {
if client_message.data.as_data32()[0] == window.atoms.WM_DELETE_WINDOW
// Destroy the window?
{
(callback)(X11Event::CloseRequested, &mut Window(Arc::downgrade(&window)));
}
}
}
x11::Event::Expose(expose) => {
if !self.windows.contains_key(&expose.window) {
return;
}
if expose.count == 0 {
(callback)(
X11Event::Refresh,
&mut Window(Arc::downgrade(self.windows.get(&expose.window).unwrap())),
);
if let Some(window) = window_from_id(inner, &expose.window) {
if expose.count == 0 {
(callback)(X11Event::Refresh, &mut Window(Arc::downgrade(&window)));
}
}
}
x11::Event::PresentCompleteNotify(complete_notify) => {
if !self.windows.contains_key(&complete_notify.window) {
return;
if let Some(window) = window_from_id(inner, &complete_notify.window) {
window.last_msc.store(complete_notify.msc, Ordering::SeqCst);
(callback)(X11Event::PresentCompleted, &mut Window(Arc::downgrade(&window)));
}
let window = self.windows.get(&complete_notify.window).unwrap();
window.last_msc.store(complete_notify.msc, Ordering::SeqCst);
(callback)(
X11Event::PresentCompleted,
&mut Window(Arc::downgrade(self.windows.get(&complete_notify.window).unwrap())),
);
}
x11::Event::PresentIdleNotify(_) => {
@ -1022,7 +1000,7 @@ impl X11Inner {
}
x11::Event::Error(e) => {
error!(self.log, "X11 protocol error: {:?}", e);
error!(log, "X11 protocol error: {:?}", e);
}
_ => (),