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xwayland-satellite/src/server/tests.rs
Shawn Wallace ece5d1bd10 Actually properly offset popups on offset outputs 
Also update window positions when output positon changes.
2024-07-04 14:57:07 -04:00

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use super::{ServerState, WindowDims};
use crate::xstate::{SetState, WmName};
use paste::paste;
use rustix::event::{poll, PollFd, PollFlags};
use std::collections::HashMap;
use std::os::fd::{AsRawFd, BorrowedFd};
use std::os::unix::net::UnixStream;
use std::sync::{Arc, Mutex};
use wayland_client::{
backend::{protocol::Message, Backend, ObjectData, ObjectId, WaylandError},
protocol::{
wl_buffer::WlBuffer,
wl_compositor::WlCompositor,
wl_display::WlDisplay,
wl_keyboard::WlKeyboard,
wl_output::WlOutput,
wl_pointer::WlPointer,
wl_registry::WlRegistry,
wl_seat::{self, WlSeat},
wl_shm::{Format, WlShm},
wl_shm_pool::WlShmPool,
wl_surface::WlSurface,
},
Connection, Proxy, WEnum,
};
use wayland_protocols::{
wp::{
linux_dmabuf::zv1::client::zwp_linux_dmabuf_v1::ZwpLinuxDmabufV1,
pointer_constraints::zv1::client::zwp_pointer_constraints_v1::ZwpPointerConstraintsV1,
relative_pointer::zv1::client::zwp_relative_pointer_manager_v1::ZwpRelativePointerManagerV1,
viewporter::client::wp_viewporter::WpViewporter,
},
xdg::{
shell::server::{xdg_positioner, xdg_toplevel},
xdg_output::zv1::client::zxdg_output_manager_v1::ZxdgOutputManagerV1,
},
xwayland::shell::v1::client::{
xwayland_shell_v1::XwaylandShellV1, xwayland_surface_v1::XwaylandSurfaceV1,
},
};
use wayland_server::{protocol as s_proto, Display, Resource};
use wl_drm::client::wl_drm::WlDrm;
use xcb::x::Window;
use xcb::XidNew;
macro_rules! with_optional {
(
$( #[$attr:meta] )?
struct $name:ident$(<$($lifetimes:lifetime),+>)? {
$(
$field:ident: $type:ty
),+$(,)?
}
) => {
$( #[$attr] )?
struct $name$(<$($lifetimes),+>)? {
$(
$field: $type
),+
}
paste! {
#[derive(Default)]
struct [< $name Optional >] {
$(
$field: Option<$type>
),+
}
}
paste! {
impl From<[<$name Optional>]> for $name {
fn from(opt: [<$name Optional>]) -> Self {
Self {
$(
$field: opt.$field.expect(concat!("uninitialized field ", stringify!($field)))
),+
}
}
}
}
}
}
with_optional! {
struct Compositor {
compositor: TestObject<WlCompositor>,
shm: TestObject<WlShm>,
shell: TestObject<XwaylandShellV1>,
seat: TestObject<WlSeat>
}
}
impl Compositor {
fn create_surface(&self) -> (TestObject<WlBuffer>, TestObject<WlSurface>) {
let fd = unsafe { BorrowedFd::borrow_raw(0) };
let pool = TestObject::<WlShmPool>::from_request(
&self.shm.obj,
Req::<WlShm>::CreatePool { fd, size: 1024 },
);
let buffer = TestObject::<WlBuffer>::from_request(
&pool.obj,
Req::<WlShmPool>::CreateBuffer {
offset: 0,
width: 10,
height: 10,
stride: 1,
format: WEnum::Value(Format::Xrgb8888A8),
},
);
let surface = TestObject::<WlSurface>::from_request(
&self.compositor.obj,
Req::<WlCompositor>::CreateSurface {},
);
surface
.send_request(Req::<WlSurface>::Attach {
buffer: Some(buffer.obj.clone()),
x: 0,
y: 0,
})
.unwrap();
(buffer, surface)
}
}
#[derive(Debug, Default)]
struct WindowData {
mapped: bool,
fullscreen: bool,
dims: WindowDims,
}
struct FakeXConnection {
root: Window,
focused_window: Option<Window>,
windows: HashMap<Window, WindowData>,
}
impl FakeXConnection {
#[track_caller]
fn window(&mut self, window: Window) -> &mut WindowData {
self.windows
.get_mut(&window)
.unwrap_or_else(|| panic!("Unknown window: {window:?}"))
}
}
impl Default for FakeXConnection {
fn default() -> Self {
Self {
root: unsafe { Window::new(9001) },
focused_window: None,
windows: HashMap::new(),
}
}
}
impl super::FromServerState<FakeXConnection> for () {
fn create(_: &FakeServerState) -> Self {}
}
impl crate::MimeTypeData for testwl::PasteData {
fn name(&self) -> &str {
&self.mime_type
}
fn data(&self) -> &[u8] {
&self.data
}
}
impl super::XConnection for FakeXConnection {
type ExtraData = ();
type MimeTypeData = testwl::PasteData;
fn root_window(&self) -> Window {
self.root
}
#[track_caller]
fn close_window(&mut self, window: Window, _: ()) {
log::debug!("closing window {window:?}");
self.window(window).mapped = false;
}
#[track_caller]
fn set_fullscreen(&mut self, window: xcb::x::Window, fullscreen: bool, _: ()) {
self.window(window).fullscreen = fullscreen;
}
#[track_caller]
fn set_window_dims(&mut self, window: Window, state: super::PendingSurfaceState) {
self.window(window).dims = WindowDims {
x: state.x as _,
y: state.y as _,
width: state.width as _,
height: state.height as _,
};
}
#[track_caller]
fn focus_window(&mut self, window: Window, _: ()) {
assert!(
self.windows.contains_key(&window),
"Unknown window: {window:?}"
);
self.focused_window = window.into();
}
fn raise_to_top(&mut self, window: Window) {
assert!(
self.windows.contains_key(&window),
"Unknown window: {window:?}"
);
}
}
type FakeServerState = ServerState<FakeXConnection>;
struct TestFixture {
testwl: testwl::Server,
exwayland: FakeServerState,
/// Our connection to exwayland - i.e., where Xwayland sends requests to
exwl_connection: Arc<Connection>,
/// Exwayland's display - must dispatch this for our server state to advance
exwl_display: Display<FakeServerState>,
surface_serial: u64,
registry: TestObject<WlRegistry>,
}
static INIT: std::sync::Once = std::sync::Once::new();
impl TestFixture {
fn new() -> Self {
INIT.call_once(|| {
env_logger::builder()
.is_test(true)
.filter_level(log::LevelFilter::Trace)
.init()
});
let (client_s, server_s) = UnixStream::pair().unwrap();
let mut testwl = testwl::Server::new(true);
let display = Display::<FakeServerState>::new().unwrap();
testwl.connect(server_s);
// Handle initial globals roundtrip setup requirement
let thread = std::thread::spawn(move || {
let mut pollfd = [PollFd::from_borrowed_fd(testwl.poll_fd(), PollFlags::IN)];
if poll(&mut pollfd, 1000).unwrap() == 0 {
panic!("Did not get events for testwl!");
}
testwl.dispatch();
testwl
});
let mut exwayland = FakeServerState::new(display.handle(), Some(client_s));
let testwl = thread.join().unwrap();
let (fake_client, ex_server) = UnixStream::pair().unwrap();
exwayland.connect(ex_server);
exwayland.set_x_connection(FakeXConnection::default());
let exwl_connection = Connection::from_socket(fake_client).unwrap();
let registry = TestObject::<WlRegistry>::from_request(
&exwl_connection.display(),
Req::<WlDisplay>::GetRegistry {},
);
let mut f = TestFixture {
testwl,
exwayland,
exwl_connection: exwl_connection.into(),
exwl_display: display,
surface_serial: 1,
registry,
};
f.run();
f
}
fn new_with_compositor() -> (Self, Compositor) {
let mut f = Self::new();
let compositor = f.compositor();
(f, compositor)
}
fn connection(&self) -> &FakeXConnection {
self.exwayland.connection.as_ref().unwrap()
}
fn compositor(&mut self) -> Compositor {
let mut ret = CompositorOptional::default();
let events = std::mem::take(&mut *self.registry.data.events.lock().unwrap());
assert!(!events.is_empty());
for event in events {
if let Ev::<WlRegistry>::Global {
name,
interface,
version,
} = event
{
let bind_req = |interface| Req::<WlRegistry>::Bind {
name,
id: (interface, version),
};
match interface {
x if x == WlCompositor::interface().name => {
ret.compositor = Some(TestObject::from_request(
&self.registry.obj,
bind_req(WlCompositor::interface()),
));
}
x if x == WlShm::interface().name => {
ret.shm = Some(TestObject::from_request(
&self.registry.obj,
bind_req(WlShm::interface()),
));
}
x if x == XwaylandShellV1::interface().name => {
ret.shell = Some(TestObject::from_request(
&self.registry.obj,
bind_req(XwaylandShellV1::interface()),
));
}
x if x == WlSeat::interface().name => {
ret.seat = Some(TestObject::from_request(
&self.registry.obj,
bind_req(WlSeat::interface()),
));
}
_ => {}
}
}
}
ret.into()
}
/// Cascade our requests/events through exwayland and testwl
fn run(&mut self) {
// Flush our requests to exwayland
self.exwl_connection.flush().unwrap();
// Have exwayland dispatch our requests
self.exwl_display
.dispatch_clients(&mut self.exwayland)
.unwrap();
self.exwl_display.flush_clients().unwrap();
// Dispatch any clientside requests
self.exwayland.run();
// Have testwl dispatch the clientside requests
self.testwl.dispatch();
// Handle clientside events
self.exwayland.handle_clientside_events();
self.testwl.dispatch();
// Get our events
let res = self.exwl_connection.prepare_read().unwrap().read();
if res.is_err()
&& matches!(res, Err(WaylandError::Io(ref e)) if e.kind() != std::io::ErrorKind::WouldBlock)
{
panic!("Read failed: {res:?}")
}
}
fn new_output(&mut self, x: i32, y: i32) -> wayland_server::protocol::wl_output::WlOutput {
self.testwl.new_output(x, y);
self.run();
self.run();
let mut events = std::mem::take(&mut *self.registry.data.events.lock().unwrap());
assert_eq!(events.len(), 1);
let event = events.pop().unwrap();
let Ev::<WlRegistry>::Global {
name,
interface,
version,
} = event
else {
panic!("Unexpected event: {event:?}");
};
assert_eq!(interface, WlOutput::interface().name);
TestObject::<WlOutput>::from_request(
&self.registry.obj,
Req::<WlRegistry>::Bind {
name,
id: (WlOutput::interface(), version),
},
);
self.run();
self.testwl.last_created_output()
}
fn register_window(&mut self, window: Window, data: WindowData) {
self.exwayland
.connection
.as_mut()
.unwrap()
.windows
.insert(window, data);
}
fn new_window(
&mut self,
window: Window,
override_redirect: bool,
data: WindowData,
parent: Option<Window>,
) {
let dims = data.dims;
self.register_window(window, data);
self.exwayland
.new_window(window, override_redirect, dims, parent);
}
fn map_window(
&mut self,
comp: &Compositor,
window: Window,
surface: &WlSurface,
buffer: &TestObject<WlBuffer>,
) {
self.exwayland.map_window(window);
self.associate_window(comp, window, surface);
self.run();
surface
.send_request(Req::<WlSurface>::Attach {
buffer: Some(buffer.obj.clone()),
x: 0,
y: 0,
})
.unwrap();
}
fn associate_window(&mut self, comp: &Compositor, window: Window, surface: &WlSurface) {
let xwl = TestObject::<XwaylandSurfaceV1>::from_request(
&comp.shell.obj,
Req::<XwaylandShellV1>::GetXwaylandSurface {
surface: surface.clone(),
},
);
let serial = self.surface_serial;
let serial_lo = (serial & 0xFF) as u32;
let serial_hi = (serial >> 8 & 0xFF) as u32;
self.surface_serial += 1;
xwl.send_request(Req::<XwaylandSurfaceV1>::SetSerial {
serial_lo,
serial_hi,
})
.unwrap();
self.exwayland
.set_window_serial(window, [serial_lo, serial_hi]);
}
#[track_caller]
fn check_new_surface(&mut self) -> testwl::SurfaceId {
let id = self
.testwl
.last_created_surface_id()
.expect("Surface not created");
assert!(self.testwl.get_surface_data(id).is_some());
id
}
fn create_toplevel(
&mut self,
comp: &Compositor,
window: Window,
) -> (TestObject<WlSurface>, testwl::SurfaceId) {
let (buffer, surface) = comp.create_surface();
let data = WindowData {
mapped: true,
dims: WindowDims {
x: 0,
y: 0,
width: 50,
height: 50,
},
fullscreen: false,
};
self.new_window(window, false, data, None);
self.map_window(comp, window, &surface.obj, &buffer);
self.run();
let id = self.check_new_surface();
{
let surface_data = self.testwl.get_surface_data(id).unwrap();
assert!(
surface_data.surface
== self
.testwl
.get_object::<s_proto::wl_surface::WlSurface>(id)
.unwrap()
);
assert!(surface_data.buffer.is_none());
assert!(
matches!(surface_data.role, Some(testwl::SurfaceRole::Toplevel(_))),
"surface role: {:?}",
surface_data.role
);
}
self.testwl
.configure_toplevel(id, 100, 100, vec![xdg_toplevel::State::Activated]);
self.run();
{
let surface_data = self.testwl.get_surface_data(id).unwrap();
assert!(surface_data.buffer.is_some());
}
let win_data = self.connection().windows.get(&window).map(|d| &d.dims);
assert!(
matches!(
win_data,
Some(&super::WindowDims {
x: 0,
y: 0,
width: 100,
height: 100
})
),
"Incorrect window geometry: {win_data:?}"
);
(surface, id)
}
fn create_popup(
&mut self,
comp: &Compositor,
window: Window,
parent_window: Window,
parent_surface: testwl::SurfaceId,
x: i16,
y: i16,
) -> (TestObject<WlSurface>, testwl::SurfaceId) {
let (buffer, surface) = comp.create_surface();
let data = WindowData {
mapped: true,
dims: WindowDims {
x,
y,
width: 50,
height: 50,
},
fullscreen: false,
};
let dims = data.dims;
self.new_window(window, true, data, None);
self.map_window(comp, window, &surface.obj, &buffer);
self.run();
let popup_id = self.check_new_surface();
assert_ne!(popup_id, parent_surface);
{
let surface_data = self.testwl.get_surface_data(popup_id).unwrap();
assert!(
surface_data.surface
== self
.testwl
.get_object::<s_proto::wl_surface::WlSurface>(popup_id)
.unwrap()
);
assert!(surface_data.buffer.is_none());
assert!(
matches!(surface_data.role, Some(testwl::SurfaceRole::Popup(_))),
"surface was not a popup (role: {:?})",
surface_data.role
);
let toplevel_xdg = &self
.testwl
.get_surface_data(parent_surface)
.unwrap()
.xdg()
.surface;
assert_eq!(&surface_data.popup().parent, toplevel_xdg);
let pos = &surface_data.popup().positioner_state;
assert_eq!(pos.size.as_ref().unwrap(), &testwl::Vec2 { x: 50, y: 50 });
let parent_win = &self.connection().windows[&parent_window];
assert_eq!(
pos.anchor_rect.as_ref().unwrap(),
&testwl::Rect {
size: testwl::Vec2 {
x: parent_win.dims.width as _,
y: parent_win.dims.height as _
},
offset: testwl::Vec2::default()
}
);
assert_eq!(
pos.offset,
testwl::Vec2 {
x: (dims.x - parent_win.dims.x) as _,
y: (dims.y - parent_win.dims.y) as _
}
);
assert_eq!(pos.anchor, xdg_positioner::Anchor::TopLeft);
assert_eq!(pos.gravity, xdg_positioner::Gravity::BottomRight);
}
self.testwl.configure_popup(popup_id);
self.run();
{
let surface_data = self.testwl.get_surface_data(popup_id).unwrap();
assert!(surface_data.buffer.is_some());
}
(surface, popup_id)
}
}
struct TestObjectData<T: Proxy> {
events: Mutex<Vec<T::Event>>,
_phantom: std::marker::PhantomData<T>,
}
impl<T: Proxy> Default for TestObjectData<T> {
fn default() -> Self {
Self {
events: Default::default(),
_phantom: Default::default(),
}
}
}
impl<T: Proxy + Send + Sync + 'static> ObjectData for TestObjectData<T>
where
T::Event: Send + Sync + std::fmt::Debug,
{
fn event(
self: Arc<Self>,
backend: &Backend,
msg: Message<ObjectId, std::os::fd::OwnedFd>,
) -> Option<Arc<dyn ObjectData>> {
let connection = Connection::from_backend(backend.clone());
let event = T::parse_event(&connection, msg).unwrap().1;
self.events.lock().unwrap().push(event);
None
}
fn destroyed(&self, _: ObjectId) {}
}
struct TestObject<T: Proxy> {
obj: T,
data: Arc<TestObjectData<T>>,
}
impl<T: Proxy> std::ops::Deref for TestObject<T> {
type Target = T;
fn deref(&self) -> &T {
&self.obj
}
}
impl<T: Proxy + Sync + Send + 'static> TestObject<T>
where
T::Event: Sync + Send + std::fmt::Debug,
{
fn from_request<P: Proxy>(object: &P, request: P::Request<'_>) -> Self {
let data = Arc::<TestObjectData<T>>::default();
let obj: T = P::send_constructor(object, request, data.clone()).unwrap();
Self { obj, data }
}
}
type Req<'a, T> = <T as Proxy>::Request<'a>;
type Ev<T> = <T as Proxy>::Event;
// TODO: tests to add
// - destroy window before surface
// - reconfigure window (popup) before mapping
// - associate window after surface is already created
// Matches Xwayland flow.
#[test]
fn toplevel_flow() {
let (mut f, compositor) = TestFixture::new_with_compositor();
let window = unsafe { Window::new(1) };
let (surface, testwl_id) = f.create_toplevel(&compositor, window);
{
let surface_data = f.testwl.get_surface_data(testwl_id).unwrap();
assert!(surface_data.buffer.is_some());
}
f.testwl.close_toplevel(testwl_id);
f.run();
assert!(!f.exwayland.connection.as_ref().unwrap().windows[&window].mapped);
assert!(
f.testwl.get_surface_data(testwl_id).is_some(),
"Surface should still exist for closed toplevel"
);
assert!(surface.obj.is_alive());
// For some reason, we can get two UnmapNotify events
// https://tronche.com/gui/x/icccm/sec-4.html#s-4.1.4
f.exwayland.unmap_window(window);
f.exwayland.unmap_window(window);
f.exwayland.destroy_window(window);
surface.obj.destroy();
f.run();
assert!(f.testwl.get_surface_data(testwl_id).is_none());
}
#[test]
fn popup_flow_simple() {
let (mut f, compositor) = TestFixture::new_with_compositor();
let win_toplevel = unsafe { Window::new(1) };
let (_, toplevel_id) = f.create_toplevel(&compositor, win_toplevel);
let win_popup = unsafe { Window::new(2) };
let (popup_surface, popup_id) =
f.create_popup(&compositor, win_popup, win_toplevel, toplevel_id, 10, 10);
f.exwayland.unmap_window(win_popup);
f.exwayland.destroy_window(win_popup);
popup_surface.obj.destroy();
f.run();
assert!(f.testwl.get_surface_data(popup_id).is_none());
}
#[test]
fn pass_through_globals() {
use wayland_client::protocol::wl_output::WlOutput;
let mut f = TestFixture::new();
f.testwl.new_output(0, 0);
f.run();
const fn check<T: Proxy>() {}
macro_rules! globals_struct {
($($field:ident),+) => {
$( check::<$field>(); )+
#[derive(Default)]
#[allow(non_snake_case)]
struct SupportedGlobals {
$( $field: bool ),+
}
impl SupportedGlobals {
fn check_globals(&self) {
$( assert!(self.$field, "Missing global {}", stringify!($field)); )+
}
fn global_found(&mut self, interface: String) {
match interface {
$(
x if x == $field::interface().name => {
self.$field = true;
}
)+
_ => panic!("Found an unhandled global: {interface}")
}
}
}
}
}
// New globals need to be added here and in testwl.
globals_struct! {
WlCompositor,
WlShm,
WlOutput,
WlSeat,
ZwpLinuxDmabufV1,
ZwpRelativePointerManagerV1,
ZxdgOutputManagerV1,
WpViewporter,
WlDrm,
ZwpPointerConstraintsV1,
XwaylandShellV1
}
let mut globals = SupportedGlobals::default();
f.run();
let events = std::mem::take(&mut *f.registry.data.events.lock().unwrap());
assert!(!events.is_empty());
for event in events {
let Ev::<WlRegistry>::Global { interface, .. } = event else {
unreachable!();
};
globals.global_found(interface);
}
globals.check_globals();
}
#[test]
fn last_activated_toplevel_is_focused() {
let (mut f, comp) = TestFixture::new_with_compositor();
let win1 = unsafe { Window::new(1) };
let (_surface1, id1) = f.create_toplevel(&comp, win1);
assert_eq!(
f.connection().focused_window,
Some(win1),
"new toplevel's window is not focused"
);
let win2 = unsafe { Window::new(2) };
let _data2 = f.create_toplevel(&comp, win2);
assert_eq!(
f.connection().focused_window,
Some(win2),
"toplevel focus did not switch"
);
f.testwl.configure_toplevel(id1, 100, 100, vec![]);
f.run();
assert_eq!(
f.connection().focused_window,
Some(win2),
"toplevel focus did not stay the same"
);
}
#[test]
fn popup_window_changes_surface() {
let (mut f, comp) = TestFixture::new_with_compositor();
let t_win = unsafe { Window::new(1) };
let (_, toplevel_id) = f.create_toplevel(&comp, t_win);
let win = unsafe { Window::new(2) };
let (surface, old_id) = f.create_popup(&comp, win, t_win, toplevel_id, 0, 0);
f.exwayland.unmap_window(win);
surface.obj.destroy();
f.run();
assert!(f.testwl.get_surface_data(old_id).is_none());
let (_, surface) = comp.create_surface();
f.run();
let id = f
.testwl
.last_created_surface_id()
.expect("No surface created");
assert_ne!(old_id, id);
assert!(f.testwl.get_surface_data(id).is_some());
f.exwayland.map_window(win);
f.associate_window(&comp, win, &surface.obj);
f.run();
let data = f.testwl.get_surface_data(id).unwrap();
assert!(data.popup().popup.is_alive());
f.testwl.configure_popup(id);
f.run();
let data = f.testwl.get_surface_data(id).unwrap();
assert!(data.popup().popup.is_alive());
}
#[test]
fn override_redirect_window_after_toplevel_close() {
let (mut f, comp) = TestFixture::new_with_compositor();
let win1 = unsafe { Window::new(1) };
let (obj, first) = f.create_toplevel(&comp, win1);
f.testwl.close_toplevel(first);
f.run();
f.exwayland.unmap_window(win1);
f.exwayland.destroy_window(win1);
obj.obj.destroy();
f.run();
assert!(f.testwl.get_surface_data(first).is_none());
let win2 = unsafe { Window::new(2) };
let (buffer, surface) = comp.create_surface();
f.new_window(win2, true, WindowData::default(), None);
f.map_window(&comp, win2, &surface.obj, &buffer);
let second = f.check_new_surface();
let data = f.testwl.get_surface_data(second).unwrap();
assert!(
matches!(data.role, Some(testwl::SurfaceRole::Toplevel(_))),
"wrong role: {:?}",
data.role
)
}
#[test]
fn fullscreen() {
let (mut f, comp) = TestFixture::new_with_compositor();
let win = unsafe { Window::new(1) };
let (_, id) = f.create_toplevel(&comp, win);
f.exwayland.set_fullscreen(win, SetState::Add);
f.run();
f.run();
let data = f.testwl.get_surface_data(id).unwrap();
assert!(data
.toplevel()
.states
.contains(&xdg_toplevel::State::Fullscreen));
f.exwayland.set_fullscreen(win, SetState::Remove);
f.run();
f.run();
let data = f.testwl.get_surface_data(id).unwrap();
assert!(!data
.toplevel()
.states
.contains(&xdg_toplevel::State::Fullscreen));
f.exwayland.set_fullscreen(win, SetState::Toggle);
f.run();
f.run();
let data = f.testwl.get_surface_data(id).unwrap();
assert!(data
.toplevel()
.states
.contains(&xdg_toplevel::State::Fullscreen));
f.exwayland.set_fullscreen(win, SetState::Toggle);
f.run();
f.run();
let data = f.testwl.get_surface_data(id).unwrap();
assert!(!data
.toplevel()
.states
.contains(&xdg_toplevel::State::Fullscreen));
}
#[test]
fn window_title_and_class() {
let (mut f, comp) = TestFixture::new_with_compositor();
let win = unsafe { Window::new(1) };
let (_, id) = f.create_toplevel(&comp, win);
f.exwayland
.set_win_title(win, WmName::WmName("window".into()));
f.exwayland.set_win_class(win, "class".into());
f.run();
let data = f.testwl.get_surface_data(id).unwrap();
assert_eq!(data.toplevel().title, Some("window".into()));
assert_eq!(data.toplevel().app_id, Some("class".into()));
f.exwayland
.set_win_title(win, WmName::NetWmName("superwindow".into()));
f.run();
let data = f.testwl.get_surface_data(id).unwrap();
assert_eq!(data.toplevel().title, Some("superwindow".into()));
f.exwayland
.set_win_title(win, WmName::WmName("shwindow".into()));
f.run();
let data = f.testwl.get_surface_data(id).unwrap();
assert_eq!(data.toplevel().title, Some("superwindow".into()));
}
#[test]
fn window_group_properties() {
let (mut f, comp) = TestFixture::new_with_compositor();
let prop_win = unsafe { Window::new(1) };
f.exwayland.new_window(
prop_win,
false,
super::WindowDims {
width: 1,
height: 1,
..Default::default()
},
None,
);
f.exwayland
.set_win_title(prop_win, WmName::WmName("window".into()));
f.exwayland.set_win_class(prop_win, "class".into());
let win = unsafe { Window::new(2) };
let data = WindowData {
mapped: true,
dims: WindowDims {
width: 50,
height: 50,
..Default::default()
},
fullscreen: false,
};
let (_, surface) = comp.create_surface();
let dims = data.dims;
f.register_window(win, data);
f.exwayland.new_window(win, false, dims, None);
f.exwayland.set_win_hints(
win,
super::WmHints {
window_group: Some(prop_win),
..Default::default()
},
);
f.exwayland.map_window(win);
f.associate_window(&comp, win, &surface.obj);
f.run();
let id = f.testwl.last_created_surface_id().unwrap();
let data = f.testwl.get_surface_data(id).unwrap();
assert_eq!(data.toplevel().title, Some("window".into()));
assert_eq!(data.toplevel().app_id, Some("class".into()));
}
#[test]
fn copy_from_x11() {
let (mut f, comp) = TestFixture::new_with_compositor();
TestObject::<WlKeyboard>::from_request(&comp.seat.obj, wl_seat::Request::GetKeyboard {});
let win = unsafe { Window::new(1) };
let (_surface, _id) = f.create_toplevel(&comp, win);
let mimes = std::rc::Rc::new(vec![
testwl::PasteData {
mime_type: "text".to_string(),
data: b"abc".to_vec(),
},
testwl::PasteData {
mime_type: "data".to_string(),
data: vec![1, 2, 3, 4, 6, 10],
},
]);
f.exwayland.set_copy_paste_source(mimes.clone());
f.run();
let server_mimes = f.testwl.data_source_mimes();
for mime in mimes.iter() {
assert!(server_mimes.contains(&mime.mime_type));
}
let data = f.testwl.paste_data();
f.run();
let data = data.resolve();
assert_eq!(*mimes, data);
}
#[test]
fn copy_from_wayland() {
let (mut f, comp) = TestFixture::new_with_compositor();
TestObject::<WlKeyboard>::from_request(&comp.seat.obj, wl_seat::Request::GetKeyboard {});
let win = unsafe { Window::new(1) };
let (_surface, _id) = f.create_toplevel(&comp, win);
let mimes = vec![
testwl::PasteData {
mime_type: "text".to_string(),
data: b"abc".to_vec(),
},
testwl::PasteData {
mime_type: "data".to_string(),
data: vec![1, 2, 3, 4, 6, 10],
},
];
f.testwl.create_data_offer(mimes.clone());
f.run();
let selection = f.exwayland.new_selection().expect("No new selection");
for mime in &mimes {
let data = std::thread::scope(|s| {
// receive requires a queue flush - dispatch testwl from another thread
s.spawn(|| {
let pollfd = unsafe { BorrowedFd::borrow_raw(f.testwl.poll_fd().as_raw_fd()) };
let mut pollfd = [PollFd::from_borrowed_fd(pollfd, PollFlags::IN)];
if poll(&mut pollfd, 100).unwrap() == 0 {
panic!("Did not get events for testwl!");
}
f.testwl.dispatch();
while poll(&mut pollfd, 100).unwrap() > 0 {
f.testwl.dispatch();
}
});
selection.receive(mime.mime_type.clone(), &f.exwayland)
});
f.run();
assert_eq!(data, mime.data);
}
}
#[test]
fn clipboard_x11_then_wayland() {
let (mut f, comp) = TestFixture::new_with_compositor();
TestObject::<WlKeyboard>::from_request(&comp.seat.obj, wl_seat::Request::GetKeyboard {});
let win = unsafe { Window::new(1) };
let (_surface, _id) = f.create_toplevel(&comp, win);
let x11data = std::rc::Rc::new(vec![
testwl::PasteData {
mime_type: "text".to_string(),
data: b"abc".to_vec(),
},
testwl::PasteData {
mime_type: "data".to_string(),
data: vec![1, 2, 3, 4, 6, 10],
},
]);
f.exwayland.set_copy_paste_source(x11data.clone());
f.run();
let waylanddata = vec![
testwl::PasteData {
mime_type: "asdf".to_string(),
data: b"fdaa".to_vec(),
},
testwl::PasteData {
mime_type: "boing".to_string(),
data: vec![10, 20, 40, 50],
},
];
f.testwl.create_data_offer(waylanddata.clone());
f.run();
f.run();
let selection = f.exwayland.new_selection().expect("No new selection");
for mime in &waylanddata {
let data = std::thread::scope(|s| {
// receive requires a queue flush - dispatch testwl from another thread
s.spawn(|| {
let pollfd = unsafe { BorrowedFd::borrow_raw(f.testwl.poll_fd().as_raw_fd()) };
let mut pollfd = [PollFd::from_borrowed_fd(pollfd, PollFlags::IN)];
if poll(&mut pollfd, 100).unwrap() == 0 {
panic!("Did not get events for testwl!");
}
f.testwl.dispatch();
while poll(&mut pollfd, 100).unwrap() > 0 {
f.testwl.dispatch();
}
});
selection.receive(mime.mime_type.clone(), &f.exwayland)
});
f.run();
assert_eq!(data, mime.data);
}
}
#[test]
fn raise_window_on_pointer_event() {
let (mut f, comp) = TestFixture::new_with_compositor();
TestObject::<WlPointer>::from_request(&comp.seat.obj, wl_seat::Request::GetPointer {});
let win1 = unsafe { Window::new(1) };
let (_, id1) = f.create_toplevel(&comp, win1);
f.testwl.configure_toplevel(id1, 100, 100, vec![]);
let win2 = unsafe { Window::new(2) };
let (_, id2) = f.create_toplevel(&comp, win2);
assert_eq!(f.connection().focused_window, Some(win2));
f.testwl.move_pointer_to(id2, 0.0, 0.0);
f.run();
assert_eq!(f.connection().focused_window, Some(win2));
assert_eq!(f.exwayland.last_hovered, Some(win2));
f.testwl.move_pointer_to(id1, 0.0, 0.0);
f.run();
assert_eq!(f.connection().focused_window, Some(win2));
assert_eq!(f.exwayland.last_hovered, Some(win1));
}
#[test]
fn override_redirect_choose_hover_window() {
let (mut f, comp) = TestFixture::new_with_compositor();
TestObject::<WlPointer>::from_request(&comp.seat.obj, wl_seat::Request::GetPointer {});
let win1 = unsafe { Window::new(1) };
let (_, id1) = f.create_toplevel(&comp, win1);
f.testwl.configure_toplevel(id1, 100, 100, vec![]);
let win2 = unsafe { Window::new(2) };
let _ = f.create_toplevel(&comp, win2);
assert_eq!(f.connection().focused_window, Some(win2));
f.testwl.move_pointer_to(id1, 0.0, 0.0);
f.run();
assert_eq!(f.exwayland.last_hovered, Some(win1));
let win3 = unsafe { Window::new(3) };
let (buffer, surface) = comp.create_surface();
f.new_window(win3, true, WindowData::default(), None);
f.map_window(&comp, win3, &surface.obj, &buffer);
f.run();
let id3 = f.check_new_surface();
let popup_data = f.testwl.get_surface_data(id3).unwrap();
let win1_xdg = &f.testwl.get_surface_data(id1).unwrap().xdg().surface;
assert_eq!(&popup_data.popup().parent, win1_xdg);
}
#[test]
fn output_offset() {
let (mut f, comp) = TestFixture::new_with_compositor();
let output = f.new_output(500, 100);
let window = unsafe { Window::new(1) };
{
let (surface, surface_id) = f.create_toplevel(&comp, window);
f.testwl.move_surface_to_output(surface_id, &output);
f.run();
let data = &f.connection().windows[&window];
assert_eq!(data.dims.x, 500);
assert_eq!(data.dims.y, 100);
f.exwayland.unmap_window(window);
surface.obj.destroy();
f.run();
}
let (t_buffer, t_surface) = comp.create_surface();
f.map_window(&comp, window, &t_surface.obj, &t_buffer);
f.run();
let t_id = f.testwl.last_created_surface_id().unwrap();
f.testwl.move_surface_to_output(t_id, &output);
f.run();
{
let data = f.testwl.get_surface_data(t_id).unwrap();
assert!(
matches!(data.role, Some(testwl::SurfaceRole::Toplevel(_))),
"surface role: {:?}",
data.role
);
}
f.testwl.configure_toplevel(t_id, 100, 100, vec![xdg_toplevel::State::Activated]);
f.run();
{
let data = &f.connection().windows[&window];
assert_eq!(data.dims.x, 500);
assert_eq!(data.dims.y, 100);
}
let popup = unsafe { Window::new(2) };
let (p_surface, p_id) = f.create_popup(&comp, popup, window, t_id, 510, 110);
f.testwl.move_surface_to_output(p_id, &output);
f.run();
let data = f.testwl.get_surface_data(p_id).unwrap();
assert_eq!(
data.popup().positioner_state.offset,
testwl::Vec2 { x: 10, y: 10 }
);
f.exwayland.unmap_window(popup);
p_surface.obj.destroy();
f.run();
let (buffer, surface) = comp.create_surface();
f.map_window(&comp, popup, &surface.obj, &buffer);
f.run();
let p_id = f.testwl.last_created_surface_id().unwrap();
f.testwl.move_surface_to_output(p_id, &output);
f.testwl.configure_popup(p_id);
f.run();
let data = f.testwl.get_surface_data(p_id).unwrap();
assert_eq!(
data.popup().positioner_state.offset,
testwl::Vec2 { x: 10, y: 10 }
);
}
#[test]
fn output_offset_change() {
let (mut f, comp) = TestFixture::new_with_compositor();
let output = f.new_output(500, 100);
let window = unsafe { Window::new(1) };
let (_, id) = f.create_toplevel(&comp, window);
f.testwl.move_surface_to_output(id, &output);
f.run();
let data = &f.connection().windows[&window];
assert_eq!(data.dims.x, 500);
assert_eq!(data.dims.y, 100);
f.testwl.move_output(&output, 600, 200);
f.run();
f.run();
let data = &f.connection().windows[&window];
assert_eq!(data.dims.x, 600);
assert_eq!(data.dims.y, 200);
}
/// See Pointer::handle_event for an explanation.
#[test]
fn popup_pointer_motion_workaround() {}
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