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wry/src/ifs/wl_seat.rs
Julian Orth 3acf0558a3 wayland: implement wp_cursor_shap_manager_v1
2024-02-08 14:13:18 +01:00

1105 lines
36 KiB
Rust
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mod event_handling;
mod kb_owner;
mod pointer_owner;
pub mod wl_keyboard;
pub mod wl_pointer;
pub mod wl_touch;
pub mod zwp_pointer_constraints_v1;
pub mod zwp_relative_pointer_manager_v1;
pub mod zwp_relative_pointer_v1;
pub use event_handling::NodeSeatState;
use {
crate::{
async_engine::SpawnedFuture,
client::{Client, ClientError, ClientId},
cursor::{Cursor, KnownCursor},
fixed::Fixed,
globals::{Global, GlobalName},
ifs::{
ipc,
ipc::{
wl_data_device::{ClipboardIpc, WlDataDevice},
wl_data_source::WlDataSource,
zwp_primary_selection_device_v1::{
PrimarySelectionIpc, ZwpPrimarySelectionDeviceV1,
},
zwp_primary_selection_source_v1::ZwpPrimarySelectionSourceV1,
IpcError,
},
wl_seat::{
kb_owner::KbOwnerHolder,
pointer_owner::PointerOwnerHolder,
wl_keyboard::{WlKeyboard, WlKeyboardError, REPEAT_INFO_SINCE},
wl_pointer::WlPointer,
wl_touch::WlTouch,
zwp_pointer_constraints_v1::{SeatConstraint, SeatConstraintStatus},
zwp_relative_pointer_v1::ZwpRelativePointerV1,
},
wl_surface::WlSurface,
},
leaks::Tracker,
object::Object,
rect::Rect,
state::State,
tree::{
generic_node_visitor, ContainerNode, ContainerSplit, Direction, FloatNode, FoundNode,
Node, OutputNode, WorkspaceNode,
},
utils::{
asyncevent::AsyncEvent,
buffd::{MsgParser, MsgParserError},
clonecell::CloneCell,
copyhashmap::CopyHashMap,
errorfmt::ErrorFmt,
linkedlist::LinkedNode,
numcell::NumCell,
rc_eq::rc_eq,
},
wire::{
wl_seat::*, WlDataDeviceId, WlKeyboardId, WlPointerId, WlSeatId,
ZwpPrimarySelectionDeviceV1Id, ZwpRelativePointerV1Id,
},
xkbcommon::{XkbKeymap, XkbState},
},
ahash::{AHashMap, AHashSet},
jay_config::keyboard::mods::Modifiers,
smallvec::SmallVec,
std::{
cell::{Cell, RefCell},
collections::hash_map::Entry,
mem,
ops::{Deref, DerefMut},
rc::Rc,
},
thiserror::Error,
uapi::{c, Errno, OwnedFd},
};
pub const POINTER: u32 = 1;
const KEYBOARD: u32 = 2;
#[allow(dead_code)]
const TOUCH: u32 = 4;
#[allow(dead_code)]
const MISSING_CAPABILITY: u32 = 0;
pub const BTN_LEFT: u32 = 0x110;
pub const SEAT_NAME_SINCE: u32 = 2;
pub const PX_PER_SCROLL: f64 = 15.0;
#[derive(Clone)]
pub struct Dnd {
pub seat: Rc<WlSeatGlobal>,
client: Rc<Client>,
src: Option<Rc<WlDataSource>>,
}
pub struct DroppedDnd {
dnd: Dnd,
}
impl Drop for DroppedDnd {
fn drop(&mut self) {
if let Some(src) = self.dnd.src.take() {
ipc::detach_seat::<ClipboardIpc>(&src);
}
}
}
linear_ids!(SeatIds, SeatId);
pub struct WlSeatGlobal {
id: SeatId,
name: GlobalName,
state: Rc<State>,
seat_name: String,
move_: Cell<bool>,
move_start_pos: Cell<(Fixed, Fixed)>,
extents_start_pos: Cell<(i32, i32)>,
pos_time_usec: Cell<u64>,
pos: Cell<(Fixed, Fixed)>,
pointer_stack: RefCell<Vec<Rc<dyn Node>>>,
pointer_stack_modified: Cell<bool>,
found_tree: RefCell<Vec<FoundNode>>,
keyboard_node: CloneCell<Rc<dyn Node>>,
pressed_keys: RefCell<AHashSet<u32>>,
bindings: RefCell<AHashMap<ClientId, AHashMap<WlSeatId, Rc<WlSeat>>>>,
data_devices: RefCell<AHashMap<ClientId, AHashMap<WlDataDeviceId, Rc<WlDataDevice>>>>,
primary_selection_devices: RefCell<
AHashMap<
ClientId,
AHashMap<ZwpPrimarySelectionDeviceV1Id, Rc<ZwpPrimarySelectionDeviceV1>>,
>,
>,
repeat_rate: Cell<(i32, i32)>,
kb_map: CloneCell<Rc<XkbKeymap>>,
kb_state: RefCell<XkbState>,
cursor: CloneCell<Option<Rc<dyn Cursor>>>,
tree_changed: Rc<AsyncEvent>,
selection: CloneCell<Option<Rc<WlDataSource>>>,
selection_serial: Cell<u32>,
primary_selection: CloneCell<Option<Rc<ZwpPrimarySelectionSourceV1>>>,
primary_selection_serial: Cell<u32>,
pointer_owner: PointerOwnerHolder,
kb_owner: KbOwnerHolder,
dropped_dnd: RefCell<Option<DroppedDnd>>,
shortcuts: CopyHashMap<(u32, u32), Modifiers>,
queue_link: Cell<Option<LinkedNode<Rc<Self>>>>,
tree_changed_handler: Cell<Option<SpawnedFuture<()>>>,
output: CloneCell<Rc<OutputNode>>,
desired_known_cursor: Cell<Option<KnownCursor>>,
changes: NumCell<u32>,
cursor_size: Cell<u32>,
hardware_cursor: Cell<bool>,
constraint: CloneCell<Option<Rc<SeatConstraint>>>,
}
const CHANGE_CURSOR_MOVED: u32 = 1 << 0;
const CHANGE_TREE: u32 = 1 << 1;
const DEFAULT_CURSOR_SIZE: u32 = 16;
impl Drop for WlSeatGlobal {
fn drop(&mut self) {
self.state.remove_cursor_size(self.cursor_size.get());
}
}
impl WlSeatGlobal {
pub fn new(name: GlobalName, seat_name: &str, state: &Rc<State>) -> Rc<Self> {
let slf = Rc::new(Self {
id: state.seat_ids.next(),
name,
state: state.clone(),
seat_name: seat_name.to_string(),
move_: Cell::new(false),
move_start_pos: Cell::new((Fixed(0), Fixed(0))),
extents_start_pos: Cell::new((0, 0)),
pos_time_usec: Cell::new(0),
pos: Cell::new((Fixed(0), Fixed(0))),
pointer_stack: RefCell::new(vec![]),
pointer_stack_modified: Cell::new(false),
found_tree: RefCell::new(vec![]),
keyboard_node: CloneCell::new(state.root.clone()),
pressed_keys: RefCell::new(Default::default()),
bindings: Default::default(),
data_devices: RefCell::new(Default::default()),
primary_selection_devices: RefCell::new(Default::default()),
repeat_rate: Cell::new((25, 250)),
kb_map: CloneCell::new(state.default_keymap.clone()),
kb_state: RefCell::new(state.default_keymap.state().unwrap()),
cursor: Default::default(),
tree_changed: Default::default(),
selection: Default::default(),
selection_serial: Cell::new(0),
primary_selection: Default::default(),
primary_selection_serial: Cell::new(0),
pointer_owner: Default::default(),
kb_owner: Default::default(),
dropped_dnd: RefCell::new(None),
shortcuts: Default::default(),
queue_link: Cell::new(None),
tree_changed_handler: Cell::new(None),
output: CloneCell::new(state.dummy_output.get().unwrap()),
desired_known_cursor: Cell::new(None),
changes: NumCell::new(CHANGE_CURSOR_MOVED | CHANGE_TREE),
cursor_size: Cell::new(DEFAULT_CURSOR_SIZE),
hardware_cursor: Cell::new(state.globals.seats.len() == 0),
constraint: Default::default(),
});
state.add_cursor_size(DEFAULT_CURSOR_SIZE);
let seat = slf.clone();
let future = state.eng.spawn(async move {
loop {
seat.tree_changed.triggered().await;
seat.state.tree_changed_sent.set(false);
seat.changes.or_assign(CHANGE_TREE);
// log::info!("tree_changed");
seat.apply_changes();
}
});
slf.tree_changed_handler.set(Some(future));
slf
}
pub fn set_hardware_cursor(&self, hardware_cursor: bool) {
self.hardware_cursor.set(hardware_cursor);
}
pub fn hardware_cursor(&self) -> bool {
self.hardware_cursor.get()
}
fn update_hardware_cursor_position(&self) {
self.update_hardware_cursor_(false);
}
pub fn update_hardware_cursor(&self) {
self.update_hardware_cursor_(true);
}
fn update_hardware_cursor_(&self, render: bool) {
if !self.hardware_cursor.get() {
return;
}
let cursor = match self.get_cursor() {
Some(c) => c,
_ => {
self.state.disable_hardware_cursors();
return;
}
};
if render {
cursor.tick();
}
let (x, y) = self.get_position();
for output in self.state.root.outputs.lock().values() {
if let Some(hc) = output.hardware_cursor.get() {
let render = render | output.hardware_cursor_needs_render.take();
let scale = output.preferred_scale.get();
let extents = cursor.extents_at_scale(scale);
if render {
let (max_width, max_height) = hc.max_size();
if extents.width() > max_width || extents.height() > max_height {
hc.set_enabled(false);
hc.commit();
continue;
}
}
let opos = output.global.pos.get();
let (x_rel, y_rel);
if scale == 1 {
x_rel = x.round_down() - opos.x1();
y_rel = y.round_down() - opos.y1();
} else {
let scalef = scale.to_f64();
x_rel = ((x - Fixed::from_int(opos.x1())).to_f64() * scalef).round() as i32;
y_rel = ((y - Fixed::from_int(opos.y1())).to_f64() * scalef).round() as i32;
}
let mode = output.global.mode.get();
if extents
.intersects(&Rect::new_sized(-x_rel, -y_rel, mode.width, mode.height).unwrap())
{
if render {
let buffer = hc.get_buffer();
buffer.render_hardware_cursor(cursor.deref(), &self.state, scale);
hc.swap_buffer();
}
hc.set_enabled(true);
hc.set_position(x_rel + extents.x1(), y_rel + extents.y1());
} else {
if render {
output.hardware_cursor_needs_render.set(true);
}
hc.set_enabled(false);
}
hc.commit();
}
}
}
pub fn set_cursor_size(&self, size: u32) {
let old = self.cursor_size.replace(size);
if size != old {
self.state.remove_cursor_size(old);
self.state.add_cursor_size(size);
self.reload_known_cursor();
}
}
pub fn add_data_device(&self, device: &Rc<WlDataDevice>) {
let mut dd = self.data_devices.borrow_mut();
dd.entry(device.client.id)
.or_default()
.insert(device.id, device.clone());
}
pub fn remove_data_device(&self, device: &WlDataDevice) {
let mut dd = self.data_devices.borrow_mut();
if let Entry::Occupied(mut e) = dd.entry(device.client.id) {
e.get_mut().remove(&device.id);
if e.get().is_empty() {
e.remove();
}
}
}
pub fn add_primary_selection_device(&self, device: &Rc<ZwpPrimarySelectionDeviceV1>) {
let mut dd = self.primary_selection_devices.borrow_mut();
dd.entry(device.client.id)
.or_default()
.insert(device.id, device.clone());
}
pub fn remove_primary_selection_device(&self, device: &ZwpPrimarySelectionDeviceV1) {
let mut dd = self.primary_selection_devices.borrow_mut();
if let Entry::Occupied(mut e) = dd.entry(device.client.id) {
e.get_mut().remove(&device.id);
if e.get().is_empty() {
e.remove();
}
}
}
pub fn get_output(&self) -> Rc<OutputNode> {
self.output.get()
}
pub fn set_workspace(&self, ws: &Rc<WorkspaceNode>) {
let tl = match self.keyboard_node.get().node_toplevel() {
Some(tl) => tl,
_ => return,
};
if tl.tl_data().is_fullscreen.get() {
return;
}
let old_ws = match tl.tl_data().workspace.get() {
Some(ws) => ws,
_ => return,
};
if old_ws.id == ws.id {
return;
}
let cn = match tl
.tl_data()
.parent
.get()
.and_then(|p| p.node_into_containing_node())
{
Some(cn) => cn,
_ => return,
};
let kb_foci = collect_kb_foci(tl.clone().tl_into_node());
cn.cnode_remove_child2(tl.tl_as_node(), true);
if !ws.visible.get() {
for focus in kb_foci {
old_ws.clone().node_do_focus(&focus, Direction::Unspecified);
}
}
if tl.tl_data().is_floating.get() {
self.state.map_floating(
tl.clone(),
tl.tl_data().float_width.get(),
tl.tl_data().float_height.get(),
ws,
);
} else {
self.state.map_tiled_on(tl, ws);
}
}
pub fn mark_last_active(self: &Rc<Self>) {
self.queue_link
.set(Some(self.state.seat_queue.add_last(self.clone())));
}
pub fn disable_pointer_constraint(&self) {
if let Some(constraint) = self.constraint.get() {
constraint.deactivate();
if constraint.status.get() == SeatConstraintStatus::Inactive {
constraint
.status
.set(SeatConstraintStatus::ActivatableOnFocus);
}
}
}
fn maybe_constrain_pointer_node(&self) {
if let Some(pn) = self.pointer_node() {
if let Some(surface) = pn.node_into_surface() {
let (mut x, mut y) = self.pos.get();
let (sx, sy) = surface.buffer_abs_pos.get().position();
x -= Fixed::from_int(sx);
y -= Fixed::from_int(sy);
self.maybe_constrain(&surface, x, y);
}
}
}
fn maybe_constrain(&self, surface: &WlSurface, x: Fixed, y: Fixed) {
if self.constraint.get().is_some() {
return;
}
let candidate = match surface.constraints.get(&self.id) {
Some(c) if c.status.get() == SeatConstraintStatus::Inactive => c,
_ => return,
};
if !candidate.contains(x.round_down(), y.round_down()) {
return;
}
candidate.status.set(SeatConstraintStatus::Active);
if let Some(owner) = candidate.owner.get() {
owner.send_enabled();
}
self.constraint.set(Some(candidate));
}
pub fn set_fullscreen(&self, fullscreen: bool) {
if let Some(tl) = self.keyboard_node.get().node_toplevel() {
tl.tl_set_fullscreen(fullscreen);
}
}
pub fn get_fullscreen(&self) -> bool {
if let Some(tl) = self.keyboard_node.get().node_toplevel() {
return tl.tl_data().is_fullscreen.get();
}
false
}
pub fn set_keymap(&self, keymap: &Rc<XkbKeymap>) {
let state = match keymap.state() {
Ok(s) => s,
Err(e) => {
log::error!("Could not create keymap state: {}", ErrorFmt(e));
return;
}
};
self.kb_map.set(keymap.clone());
*self.kb_state.borrow_mut() = state;
let bindings = self.bindings.borrow_mut();
for (id, client) in bindings.iter() {
for seat in client.values() {
let kbs = seat.keyboards.lock();
for kb in kbs.values() {
let fd = match seat.keymap_fd(keymap) {
Ok(fd) => fd,
Err(e) => {
log::error!("Could not creat a file descriptor to transfer the keymap to client {}: {}", id, ErrorFmt(e));
continue;
}
};
kb.send_keymap(wl_keyboard::XKB_V1, fd, keymap.map_len as _);
}
}
}
}
pub fn prepare_for_lock(self: &Rc<Self>) {
self.pointer_owner.revert_to_default(self);
self.kb_owner.ungrab(self);
}
pub fn set_position(&self, x: i32, y: i32) {
self.pos.set((Fixed::from_int(x), Fixed::from_int(y)));
self.update_hardware_cursor_position();
self.trigger_tree_changed();
let output = 'set_output: {
let outputs = self.state.outputs.lock();
for output in outputs.values() {
if output.node.global.pos.get().contains(x, y) {
break 'set_output output.node.clone();
}
}
self.state.dummy_output.get().unwrap()
};
self.set_output(&output);
}
fn set_output(&self, output: &Rc<OutputNode>) {
self.output.set(output.clone());
if let Some(cursor) = self.cursor.get() {
cursor.set_output(output);
}
if let Some(dnd) = self.pointer_owner.dnd_icon() {
dnd.set_output(output);
}
}
pub fn position(&self) -> (Fixed, Fixed) {
self.pos.get()
}
pub fn render_ctx_changed(&self) {
if let Some(cursor) = self.desired_known_cursor.get() {
self.set_known_cursor(cursor);
}
}
pub fn kb_parent_container(&self) -> Option<Rc<ContainerNode>> {
if let Some(tl) = self.keyboard_node.get().node_toplevel() {
if let Some(parent) = tl.tl_data().parent.get() {
if let Some(container) = parent.node_into_container() {
return Some(container);
}
}
}
None
}
pub fn get_mono(&self) -> Option<bool> {
self.kb_parent_container()
.map(|c| c.mono_child.get().is_some())
}
pub fn get_split(&self) -> Option<ContainerSplit> {
self.kb_parent_container().map(|c| c.split.get())
}
pub fn set_mono(&self, mono: bool) {
if let Some(tl) = self.keyboard_node.get().node_toplevel() {
if let Some(parent) = tl.tl_data().parent.get() {
if let Some(container) = parent.node_into_container() {
let node = if mono { Some(tl.deref()) } else { None };
container.set_mono(node);
}
}
}
}
pub fn set_split(&self, axis: ContainerSplit) {
if let Some(c) = self.kb_parent_container() {
c.set_split(axis);
}
}
pub fn create_split(&self, axis: ContainerSplit) {
let tl = match self.keyboard_node.get().node_toplevel() {
Some(tl) => tl,
_ => return,
};
if tl.tl_data().is_fullscreen.get() {
return;
}
let ws = match tl.tl_data().workspace.get() {
Some(ws) => ws,
_ => return,
};
let pn = match tl.tl_data().parent.get() {
Some(pn) => pn,
_ => return,
};
if let Some(pn) = pn.node_into_containing_node() {
let cn = ContainerNode::new(&self.state, &ws, pn.clone(), tl.clone(), axis);
pn.cnode_replace_child(tl.tl_as_node(), cn);
}
}
pub fn focus_parent(self: &Rc<Self>) {
if let Some(tl) = self.keyboard_node.get().node_toplevel() {
if let Some(parent) = tl.tl_data().parent.get() {
self.focus_node(parent.cnode_into_node());
}
}
}
pub fn get_floating(self: &Rc<Self>) -> Option<bool> {
match self.keyboard_node.get().node_toplevel() {
Some(tl) => Some(tl.tl_data().is_floating.get()),
_ => None,
}
}
pub fn set_floating(self: &Rc<Self>, floating: bool) {
let tl = match self.keyboard_node.get().node_toplevel() {
Some(tl) => tl,
_ => return,
};
let data = tl.tl_data();
if data.is_fullscreen.get() {
return;
}
if data.is_floating.get() == floating {
return;
}
let parent = match data.parent.get() {
Some(p) => p,
_ => return,
};
if let Some(cn) = parent.node_into_containing_node() {
if !floating {
cn.cnode_remove_child2(tl.tl_as_node(), true);
self.state.map_tiled(tl);
} else if let Some(ws) = data.workspace.get() {
cn.cnode_remove_child2(tl.tl_as_node(), true);
let (width, height) = data.float_size(&ws);
self.state.map_floating(tl, width, height, &ws);
}
}
}
pub fn get_rate(&self) -> (i32, i32) {
self.repeat_rate.get()
}
pub fn set_rate(&self, rate: i32, delay: i32) {
self.repeat_rate.set((rate, delay));
let bindings = self.bindings.borrow_mut();
for client in bindings.values() {
for seat in client.values() {
if seat.version >= REPEAT_INFO_SINCE {
let kbs = seat.keyboards.lock();
for kb in kbs.values() {
kb.send_repeat_info(rate, delay);
}
}
}
}
}
pub fn close(self: &Rc<Self>) {
let kb_node = self.keyboard_node.get();
if let Some(tl) = kb_node.node_toplevel() {
tl.tl_close();
}
}
pub fn move_focus(self: &Rc<Self>, direction: Direction) {
let tl = match self.keyboard_node.get().node_toplevel() {
Some(tl) => tl,
_ => return,
};
if direction == Direction::Down && tl.node_is_container() {
tl.node_do_focus(self, direction);
} else if let Some(p) = tl.tl_data().parent.get() {
if let Some(c) = p.node_into_container() {
c.move_focus_from_child(self, tl.deref(), direction);
}
}
}
pub fn move_focused(self: &Rc<Self>, direction: Direction) {
let kb_node = self.keyboard_node.get();
if let Some(tl) = kb_node.node_toplevel() {
if let Some(parent) = tl.tl_data().parent.get() {
if let Some(c) = parent.node_into_container() {
c.move_child(tl, direction);
}
}
}
}
fn set_selection_<T: ipc::IpcVtable>(
self: &Rc<Self>,
field: &CloneCell<Option<Rc<T::Source>>>,
src: Option<Rc<T::Source>>,
) -> Result<(), WlSeatError> {
if let (Some(new), Some(old)) = (&src, &field.get()) {
if T::source_eq(old, new) {
return Ok(());
}
}
if let Some(new) = &src {
ipc::attach_seat::<T>(new, self, ipc::Role::Selection)?;
}
if let Some(old) = field.set(src.clone()) {
ipc::detach_seat::<T>(&old);
}
if let Some(client) = self.keyboard_node.get().node_client() {
match src {
Some(src) => ipc::offer_source_to::<T>(&src, &client),
_ => T::for_each_device(self, client.id, |device| {
T::send_selection(device, None);
}),
}
// client.flush();
}
Ok(())
}
pub fn start_drag(
self: &Rc<Self>,
origin: &Rc<WlSurface>,
source: Option<Rc<WlDataSource>>,
icon: Option<Rc<WlSurface>>,
serial: u32,
) -> Result<(), WlSeatError> {
if let Some(icon) = &icon {
icon.set_output(&self.output.get());
}
self.pointer_owner
.start_drag(self, origin, source, icon, serial)
}
pub fn cancel_dnd(self: &Rc<Self>) {
self.pointer_owner.cancel_dnd(self);
}
pub fn unset_selection(self: &Rc<Self>) {
let _ = self.set_selection(None, None);
}
pub fn set_selection(
self: &Rc<Self>,
selection: Option<Rc<WlDataSource>>,
serial: Option<u32>,
) -> Result<(), WlSeatError> {
if let Some(serial) = serial {
self.selection_serial.set(serial);
}
self.set_selection_::<ClipboardIpc>(&self.selection, selection)
}
pub fn may_modify_selection(&self, client: &Rc<Client>, serial: u32) -> bool {
let dist = serial.wrapping_sub(self.selection_serial.get()) as i32;
if dist < 0 {
return false;
}
self.keyboard_node.get().node_client_id() == Some(client.id)
}
pub fn may_modify_primary_selection(&self, client: &Rc<Client>, serial: Option<u32>) -> bool {
if let Some(serial) = serial {
let dist = serial.wrapping_sub(self.primary_selection_serial.get()) as i32;
if dist < 0 {
return false;
}
}
self.keyboard_node.get().node_client_id() == Some(client.id)
|| self.pointer_node().and_then(|n| n.node_client_id()) == Some(client.id)
}
pub fn unset_primary_selection(self: &Rc<Self>) {
let _ = self.set_primary_selection(None, None);
}
pub fn set_primary_selection(
self: &Rc<Self>,
selection: Option<Rc<ZwpPrimarySelectionSourceV1>>,
serial: Option<u32>,
) -> Result<(), WlSeatError> {
if let Some(serial) = serial {
self.primary_selection_serial.set(serial);
}
self.set_selection_::<PrimarySelectionIpc>(&self.primary_selection, selection)
}
pub fn reload_known_cursor(&self) {
if let Some(kc) = self.desired_known_cursor.get() {
self.set_known_cursor(kc);
}
}
pub fn set_known_cursor(&self, cursor: KnownCursor) {
self.desired_known_cursor.set(Some(cursor));
let cursors = match self.state.cursors.get() {
Some(c) => c,
None => {
self.set_cursor2(None);
return;
}
};
let tpl = match cursor {
KnownCursor::Default => &cursors.default,
KnownCursor::ContextMenu => &cursors.context_menu,
KnownCursor::Help => &cursors.help,
KnownCursor::Pointer => &cursors.pointer,
KnownCursor::Progress => &cursors.progress,
KnownCursor::Wait => &cursors.wait,
KnownCursor::Cell => &cursors.cell,
KnownCursor::Crosshair => &cursors.crosshair,
KnownCursor::Text => &cursors.text,
KnownCursor::VerticalText => &cursors.vertical_text,
KnownCursor::Alias => &cursors.alias,
KnownCursor::Copy => &cursors.copy,
KnownCursor::Move => &cursors.r#move,
KnownCursor::NoDrop => &cursors.no_drop,
KnownCursor::NotAllowed => &cursors.not_allowed,
KnownCursor::Grab => &cursors.grab,
KnownCursor::Grabbing => &cursors.grabbing,
KnownCursor::EResize => &cursors.e_resize,
KnownCursor::NResize => &cursors.n_resize,
KnownCursor::NeResize => &cursors.ne_resize,
KnownCursor::NwResize => &cursors.nw_resize,
KnownCursor::SResize => &cursors.s_resize,
KnownCursor::SeResize => &cursors.se_resize,
KnownCursor::SwResize => &cursors.sw_resize,
KnownCursor::WResize => &cursors.w_resize,
KnownCursor::EwResize => &cursors.ew_resize,
KnownCursor::NsResize => &cursors.ns_resize,
KnownCursor::NeswResize => &cursors.nesw_resize,
KnownCursor::NwseResize => &cursors.nwse_resize,
KnownCursor::ColResize => &cursors.col_resize,
KnownCursor::RowResize => &cursors.row_resize,
KnownCursor::AllScroll => &cursors.all_scroll,
KnownCursor::ZoomIn => &cursors.zoom_in,
KnownCursor::ZoomOut => &cursors.zoom_out,
};
self.set_cursor2(Some(tpl.instantiate(self.cursor_size.get())));
}
pub fn set_app_cursor(&self, cursor: Option<Rc<dyn Cursor>>) {
self.set_cursor2(cursor);
self.desired_known_cursor.set(None);
}
fn set_cursor2(&self, cursor: Option<Rc<dyn Cursor>>) {
if let Some(old) = self.cursor.get() {
if let Some(new) = cursor.as_ref() {
if rc_eq(&old, new) {
self.update_hardware_cursor();
return;
}
}
old.handle_unset();
}
if let Some(cursor) = cursor.as_ref() {
cursor.set_output(&self.output.get());
}
self.cursor.set(cursor.clone());
self.state.hardware_tick_cursor.push(cursor);
self.update_hardware_cursor();
}
pub fn dnd_icon(&self) -> Option<Rc<WlSurface>> {
self.pointer_owner.dnd_icon()
}
pub fn remove_dnd_icon(&self) {
self.pointer_owner.remove_dnd_icon();
}
pub fn get_position(&self) -> (Fixed, Fixed) {
self.pos.get()
}
pub fn get_cursor(&self) -> Option<Rc<dyn Cursor>> {
self.cursor.get()
}
pub fn clear(self: &Rc<Self>) {
mem::take(self.pointer_stack.borrow_mut().deref_mut());
mem::take(self.found_tree.borrow_mut().deref_mut());
self.keyboard_node.set(self.state.root.clone());
self.state
.root
.clone()
.node_visit(&mut generic_node_visitor(|node| {
node.node_seat_state().on_seat_remove(self);
}));
self.bindings.borrow_mut().clear();
self.data_devices.borrow_mut().clear();
self.primary_selection_devices.borrow_mut().clear();
self.cursor.set(None);
self.selection.set(None);
self.primary_selection.set(None);
self.pointer_owner.clear();
self.kb_owner.clear();
*self.dropped_dnd.borrow_mut() = None;
self.queue_link.set(None);
self.tree_changed_handler.set(None);
self.output.set(self.state.dummy_output.get().unwrap());
self.constraint.take();
}
pub fn id(&self) -> SeatId {
self.id
}
pub fn seat_name(&self) -> &str {
&self.seat_name
}
fn bind_(
self: Rc<Self>,
id: WlSeatId,
client: &Rc<Client>,
version: u32,
) -> Result<(), WlSeatError> {
let obj = Rc::new(WlSeat {
global: self.clone(),
id,
client: client.clone(),
pointers: Default::default(),
relative_pointers: Default::default(),
keyboards: Default::default(),
version,
tracker: Default::default(),
});
track!(client, obj);
client.add_client_obj(&obj)?;
obj.send_capabilities();
if version >= SEAT_NAME_SINCE {
obj.send_name(&self.seat_name);
}
{
let mut bindings = self.bindings.borrow_mut();
let bindings = bindings.entry(client.id).or_default();
bindings.insert(id, obj.clone());
}
Ok(())
}
}
global_base!(WlSeatGlobal, WlSeat, WlSeatError);
impl Global for WlSeatGlobal {
fn singleton(&self) -> bool {
false
}
fn version(&self) -> u32 {
9
}
fn break_loops(&self) {
self.bindings.borrow_mut().clear();
self.queue_link.take();
self.tree_changed_handler.take();
}
}
dedicated_add_global!(WlSeatGlobal, seats);
pub struct WlSeat {
pub global: Rc<WlSeatGlobal>,
pub id: WlSeatId,
pub client: Rc<Client>,
pointers: CopyHashMap<WlPointerId, Rc<WlPointer>>,
relative_pointers: CopyHashMap<ZwpRelativePointerV1Id, Rc<ZwpRelativePointerV1>>,
keyboards: CopyHashMap<WlKeyboardId, Rc<WlKeyboard>>,
version: u32,
tracker: Tracker<Self>,
}
const READ_ONLY_KEYMAP_SINCE: u32 = 7;
impl WlSeat {
fn send_capabilities(self: &Rc<Self>) {
self.client.event(Capabilities {
self_id: self.id,
capabilities: POINTER | KEYBOARD,
})
}
fn send_name(self: &Rc<Self>, name: &str) {
self.client.event(Name {
self_id: self.id,
name,
})
}
pub fn move_(&self, node: &Rc<FloatNode>) {
self.global.move_(node);
}
fn get_pointer(self: &Rc<Self>, parser: MsgParser<'_, '_>) -> Result<(), WlSeatError> {
let req: GetPointer = self.client.parse(&**self, parser)?;
let p = Rc::new(WlPointer::new(req.id, self));
track!(self.client, p);
self.client.add_client_obj(&p)?;
self.pointers.set(req.id, p);
Ok(())
}
fn get_keyboard(self: &Rc<Self>, parser: MsgParser<'_, '_>) -> Result<(), WlSeatError> {
let req: GetKeyboard = self.client.parse(&**self, parser)?;
let p = Rc::new(WlKeyboard::new(req.id, self));
track!(self.client, p);
self.client.add_client_obj(&p)?;
self.keyboards.set(req.id, p.clone());
let keymap = self.global.kb_map.get();
p.send_keymap(
wl_keyboard::XKB_V1,
self.keymap_fd(&keymap)?,
keymap.map_len as _,
);
if self.version >= REPEAT_INFO_SINCE {
let (rate, delay) = self.global.repeat_rate.get();
p.send_repeat_info(rate, delay);
}
Ok(())
}
pub fn keymap_fd(&self, keymap: &XkbKeymap) -> Result<Rc<OwnedFd>, WlKeyboardError> {
if self.version >= READ_ONLY_KEYMAP_SINCE {
return Ok(keymap.map.clone());
}
let fd = match uapi::memfd_create("shared-keymap", c::MFD_CLOEXEC) {
Ok(fd) => fd,
Err(e) => return Err(WlKeyboardError::KeymapMemfd(e.into())),
};
let target = keymap.map_len as c::off_t;
let mut pos = 0;
while pos < target {
let rem = target - pos;
let res = uapi::sendfile(fd.raw(), keymap.map.raw(), Some(&mut pos), rem as usize);
match res {
Ok(_) | Err(Errno(c::EINTR)) => {}
Err(e) => return Err(WlKeyboardError::KeymapCopy(e.into())),
}
}
Ok(Rc::new(fd))
}
fn get_touch(self: &Rc<Self>, parser: MsgParser<'_, '_>) -> Result<(), WlSeatError> {
let req: GetTouch = self.client.parse(&**self, parser)?;
let p = Rc::new(WlTouch::new(req.id, self));
track!(self.client, p);
self.client.add_client_obj(&p)?;
Ok(())
}
fn release(&self, parser: MsgParser<'_, '_>) -> Result<(), WlSeatError> {
let _req: Release = self.client.parse(self, parser)?;
{
let mut bindings = self.global.bindings.borrow_mut();
if let Entry::Occupied(mut hm) = bindings.entry(self.client.id) {
hm.get_mut().remove(&self.id);
if hm.get().is_empty() {
hm.remove();
}
}
}
self.client.remove_obj(self)?;
Ok(())
}
}
object_base! {
self = WlSeat;
GET_POINTER => get_pointer,
GET_KEYBOARD => get_keyboard,
GET_TOUCH => get_touch,
RELEASE => release if self.version >= 5,
}
impl Object for WlSeat {
fn break_loops(&self) {
{
let mut bindings = self.global.bindings.borrow_mut();
if let Entry::Occupied(mut hm) = bindings.entry(self.client.id) {
hm.get_mut().remove(&self.id);
if hm.get().is_empty() {
hm.remove();
}
}
}
self.pointers.clear();
self.relative_pointers.clear();
self.keyboards.clear();
}
}
dedicated_add_obj!(WlSeat, WlSeatId, seats);
#[derive(Debug, Error)]
pub enum WlSeatError {
#[error(transparent)]
ClientError(Box<ClientError>),
#[error(transparent)]
IpcError(#[from] IpcError),
#[error("Parsing failed")]
MsgParserError(#[source] Box<MsgParserError>),
#[error(transparent)]
WlKeyboardError(Box<WlKeyboardError>),
}
efrom!(WlSeatError, ClientError);
efrom!(WlSeatError, MsgParserError);
efrom!(WlSeatError, WlKeyboardError);
pub fn collect_kb_foci2(node: Rc<dyn Node>, seats: &mut SmallVec<[Rc<WlSeatGlobal>; 3]>) {
node.node_visit(&mut generic_node_visitor(|node| {
node.node_seat_state().for_each_kb_focus(|s| seats.push(s));
}));
}
pub fn collect_kb_foci(node: Rc<dyn Node>) -> SmallVec<[Rc<WlSeatGlobal>; 3]> {
let mut res = SmallVec::new();
collect_kb_foci2(node, &mut res);
res
}
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