1use std::{
2 cell::{Cell, RefCell},
3 ffi::OsStr,
4 path::{Path, PathBuf},
5 rc::{Rc, Weak},
6 sync::{
7 Arc,
8 atomic::{AtomicBool, Ordering},
9 },
10};
11
12use ::util::{ResultExt, paths::SanitizedPath};
13use anyhow::{Context as _, Result, anyhow};
14use futures::channel::oneshot::{self, Receiver};
15use itertools::Itertools;
16use parking_lot::RwLock;
17use smallvec::SmallVec;
18use windows::{
19 UI::ViewManagement::UISettings,
20 Win32::{
21 Foundation::*,
22 Graphics::{Direct3D11::ID3D11Device, Gdi::*},
23 Security::Credentials::*,
24 System::{Com::*, LibraryLoader::*, Ole::*, SystemInformation::*},
25 UI::{Input::KeyboardAndMouse::*, Shell::*, WindowsAndMessaging::*},
26 },
27 core::*,
28};
29
30use crate::*;
31
32pub(crate) struct WindowsPlatform {
33 inner: Rc<WindowsPlatformInner>,
34 raw_window_handles: Arc<RwLock<SmallVec<[SafeHwnd; 4]>>>,
35 // The below members will never change throughout the entire lifecycle of the app.
36 icon: HICON,
37 background_executor: BackgroundExecutor,
38 foreground_executor: ForegroundExecutor,
39 text_system: Arc<DirectWriteTextSystem>,
40 windows_version: WindowsVersion,
41 drop_target_helper: IDropTargetHelper,
42 /// Flag to instruct the `VSyncProvider` thread to invalidate the directx devices
43 /// as resizing them has failed, causing us to have lost at least the render target.
44 invalidate_devices: Arc<AtomicBool>,
45 handle: HWND,
46 disable_direct_composition: bool,
47}
48
49struct WindowsPlatformInner {
50 state: WindowsPlatformState,
51 raw_window_handles: std::sync::Weak<RwLock<SmallVec<[SafeHwnd; 4]>>>,
52 // The below members will never change throughout the entire lifecycle of the app.
53 validation_number: usize,
54 main_receiver: PriorityQueueReceiver<RunnableVariant>,
55 dispatcher: Arc<WindowsDispatcher>,
56}
57
58pub(crate) struct WindowsPlatformState {
59 callbacks: PlatformCallbacks,
60 menus: RefCell<Vec<OwnedMenu>>,
61 jump_list: RefCell<JumpList>,
62 // NOTE: standard cursor handles don't need to close.
63 pub(crate) current_cursor: Cell<Option<HCURSOR>>,
64 directx_devices: RefCell<Option<DirectXDevices>>,
65}
66
67#[derive(Default)]
68struct PlatformCallbacks {
69 open_urls: Cell<Option<Box<dyn FnMut(Vec<String>)>>>,
70 quit: Cell<Option<Box<dyn FnMut()>>>,
71 reopen: Cell<Option<Box<dyn FnMut()>>>,
72 app_menu_action: Cell<Option<Box<dyn FnMut(&dyn Action)>>>,
73 will_open_app_menu: Cell<Option<Box<dyn FnMut()>>>,
74 validate_app_menu_command: Cell<Option<Box<dyn FnMut(&dyn Action) -> bool>>>,
75 keyboard_layout_change: Cell<Option<Box<dyn FnMut()>>>,
76}
77
78impl WindowsPlatformState {
79 fn new(directx_devices: DirectXDevices) -> Self {
80 let callbacks = PlatformCallbacks::default();
81 let jump_list = JumpList::new();
82 let current_cursor = load_cursor(CursorStyle::Arrow);
83 let directx_devices = Some(directx_devices);
84
85 Self {
86 callbacks,
87 jump_list: RefCell::new(jump_list),
88 current_cursor: Cell::new(current_cursor),
89 directx_devices: RefCell::new(directx_devices),
90 menus: RefCell::new(Vec::new()),
91 }
92 }
93}
94
95impl WindowsPlatform {
96 pub(crate) fn new(liveness: std::sync::Weak<()>) -> Result<Self> {
97 unsafe {
98 OleInitialize(None).context("unable to initialize Windows OLE")?;
99 }
100 let directx_devices = DirectXDevices::new().context("Creating DirectX devices")?;
101 let (main_sender, main_receiver) = PriorityQueueReceiver::new();
102 let validation_number = if usize::BITS == 64 {
103 rand::random::<u64>() as usize
104 } else {
105 rand::random::<u32>() as usize
106 };
107 let raw_window_handles = Arc::new(RwLock::new(SmallVec::new()));
108 let text_system = Arc::new(
109 DirectWriteTextSystem::new(&directx_devices)
110 .context("Error creating DirectWriteTextSystem")?,
111 );
112 register_platform_window_class();
113 let mut context = PlatformWindowCreateContext {
114 inner: None,
115 raw_window_handles: Arc::downgrade(&raw_window_handles),
116 validation_number,
117 main_sender: Some(main_sender),
118 main_receiver: Some(main_receiver),
119 directx_devices: Some(directx_devices),
120 dispatcher: None,
121 };
122 let result = unsafe {
123 CreateWindowExW(
124 WINDOW_EX_STYLE(0),
125 PLATFORM_WINDOW_CLASS_NAME,
126 None,
127 WINDOW_STYLE(0),
128 0,
129 0,
130 0,
131 0,
132 Some(HWND_MESSAGE),
133 None,
134 None,
135 Some(&raw const context as *const _),
136 )
137 };
138 let inner = context
139 .inner
140 .take()
141 .context("CreateWindowExW did not run correctly")??;
142 let dispatcher = context
143 .dispatcher
144 .take()
145 .context("CreateWindowExW did not run correctly")?;
146 let handle = result?;
147
148 let disable_direct_composition = std::env::var(DISABLE_DIRECT_COMPOSITION)
149 .is_ok_and(|value| value == "true" || value == "1");
150 let background_executor = BackgroundExecutor::new(dispatcher.clone());
151 let foreground_executor = ForegroundExecutor::new(dispatcher, liveness);
152
153 let drop_target_helper: IDropTargetHelper = unsafe {
154 CoCreateInstance(&CLSID_DragDropHelper, None, CLSCTX_INPROC_SERVER)
155 .context("Error creating drop target helper.")?
156 };
157 let icon = load_icon().unwrap_or_default();
158 let windows_version = WindowsVersion::new().context("Error retrieve windows version")?;
159
160 Ok(Self {
161 inner,
162 handle,
163 raw_window_handles,
164 icon,
165 background_executor,
166 foreground_executor,
167 text_system,
168 disable_direct_composition,
169 windows_version,
170 drop_target_helper,
171 invalidate_devices: Arc::new(AtomicBool::new(false)),
172 })
173 }
174
175 pub fn window_from_hwnd(&self, hwnd: HWND) -> Option<Rc<WindowsWindowInner>> {
176 self.raw_window_handles
177 .read()
178 .iter()
179 .find(|entry| entry.as_raw() == hwnd)
180 .and_then(|hwnd| window_from_hwnd(hwnd.as_raw()))
181 }
182
183 #[inline]
184 fn post_message(&self, message: u32, wparam: WPARAM, lparam: LPARAM) {
185 self.raw_window_handles
186 .read()
187 .iter()
188 .for_each(|handle| unsafe {
189 PostMessageW(Some(handle.as_raw()), message, wparam, lparam).log_err();
190 });
191 }
192
193 fn generate_creation_info(&self) -> WindowCreationInfo {
194 WindowCreationInfo {
195 icon: self.icon,
196 executor: self.foreground_executor.clone(),
197 current_cursor: self.inner.state.current_cursor.get(),
198 windows_version: self.windows_version,
199 drop_target_helper: self.drop_target_helper.clone(),
200 validation_number: self.inner.validation_number,
201 main_receiver: self.inner.main_receiver.clone(),
202 platform_window_handle: self.handle,
203 disable_direct_composition: self.disable_direct_composition,
204 directx_devices: self.inner.state.directx_devices.borrow().clone().unwrap(),
205 invalidate_devices: self.invalidate_devices.clone(),
206 }
207 }
208
209 fn set_dock_menus(&self, menus: Vec<MenuItem>) {
210 let mut actions = Vec::new();
211 menus.into_iter().for_each(|menu| {
212 if let Some(dock_menu) = DockMenuItem::new(menu).log_err() {
213 actions.push(dock_menu);
214 }
215 });
216 self.inner.state.jump_list.borrow_mut().dock_menus = actions;
217 update_jump_list(&self.inner.state.jump_list.borrow()).log_err();
218 }
219
220 fn update_jump_list(
221 &self,
222 menus: Vec<MenuItem>,
223 entries: Vec<SmallVec<[PathBuf; 2]>>,
224 ) -> Vec<SmallVec<[PathBuf; 2]>> {
225 let mut actions = Vec::new();
226 menus.into_iter().for_each(|menu| {
227 if let Some(dock_menu) = DockMenuItem::new(menu).log_err() {
228 actions.push(dock_menu);
229 }
230 });
231 let mut jump_list = self.inner.state.jump_list.borrow_mut();
232 jump_list.dock_menus = actions;
233 jump_list.recent_workspaces = entries;
234 update_jump_list(&jump_list).log_err().unwrap_or_default()
235 }
236
237 fn find_current_active_window(&self) -> Option<HWND> {
238 let active_window_hwnd = unsafe { GetActiveWindow() };
239 if active_window_hwnd.is_invalid() {
240 return None;
241 }
242 self.raw_window_handles
243 .read()
244 .iter()
245 .find(|hwnd| hwnd.as_raw() == active_window_hwnd)
246 .map(|hwnd| hwnd.as_raw())
247 }
248
249 fn begin_vsync_thread(&self) {
250 let mut directx_device = self.inner.state.directx_devices.borrow().clone().unwrap();
251 let platform_window: SafeHwnd = self.handle.into();
252 let validation_number = self.inner.validation_number;
253 let all_windows = Arc::downgrade(&self.raw_window_handles);
254 let text_system = Arc::downgrade(&self.text_system);
255 let invalidate_devices = self.invalidate_devices.clone();
256
257 std::thread::Builder::new()
258 .name("VSyncProvider".to_owned())
259 .spawn(move || {
260 let vsync_provider = VSyncProvider::new();
261 loop {
262 vsync_provider.wait_for_vsync();
263 if check_device_lost(&directx_device.device)
264 || invalidate_devices.fetch_and(false, Ordering::Acquire)
265 {
266 if let Err(err) = handle_gpu_device_lost(
267 &mut directx_device,
268 platform_window.as_raw(),
269 validation_number,
270 &all_windows,
271 &text_system,
272 ) {
273 panic!("Device lost: {err}");
274 }
275 }
276 let Some(all_windows) = all_windows.upgrade() else {
277 break;
278 };
279 for hwnd in all_windows.read().iter() {
280 unsafe {
281 let _ = RedrawWindow(Some(hwnd.as_raw()), None, None, RDW_INVALIDATE);
282 }
283 }
284 }
285 })
286 .unwrap();
287 }
288}
289
290fn translate_accelerator(msg: &MSG) -> Option<()> {
291 if msg.message != WM_KEYDOWN && msg.message != WM_SYSKEYDOWN {
292 return None;
293 }
294
295 let result = unsafe {
296 SendMessageW(
297 msg.hwnd,
298 WM_GPUI_KEYDOWN,
299 Some(msg.wParam),
300 Some(msg.lParam),
301 )
302 };
303 (result.0 == 0).then_some(())
304}
305
306impl Platform for WindowsPlatform {
307 fn background_executor(&self) -> BackgroundExecutor {
308 self.background_executor.clone()
309 }
310
311 fn foreground_executor(&self) -> ForegroundExecutor {
312 self.foreground_executor.clone()
313 }
314
315 fn text_system(&self) -> Arc<dyn PlatformTextSystem> {
316 self.text_system.clone()
317 }
318
319 fn keyboard_layout(&self) -> Box<dyn PlatformKeyboardLayout> {
320 Box::new(
321 WindowsKeyboardLayout::new()
322 .log_err()
323 .unwrap_or(WindowsKeyboardLayout::unknown()),
324 )
325 }
326
327 fn keyboard_mapper(&self) -> Rc<dyn PlatformKeyboardMapper> {
328 Rc::new(WindowsKeyboardMapper::new())
329 }
330
331 fn on_keyboard_layout_change(&self, callback: Box<dyn FnMut()>) {
332 self.inner
333 .state
334 .callbacks
335 .keyboard_layout_change
336 .set(Some(callback));
337 }
338
339 fn run(&self, on_finish_launching: Box<dyn 'static + FnOnce()>) {
340 on_finish_launching();
341 self.begin_vsync_thread();
342
343 let mut msg = MSG::default();
344 unsafe {
345 while GetMessageW(&mut msg, None, 0, 0).as_bool() {
346 if translate_accelerator(&msg).is_none() {
347 _ = TranslateMessage(&msg);
348 DispatchMessageW(&msg);
349 }
350 }
351 }
352
353 self.inner
354 .with_callback(|callbacks| &callbacks.quit, |callback| callback());
355 }
356
357 fn quit(&self) {
358 self.foreground_executor()
359 .spawn(async { unsafe { PostQuitMessage(0) } })
360 .detach();
361 }
362
363 fn restart(&self, binary_path: Option<PathBuf>) {
364 let pid = std::process::id();
365 let Some(app_path) = binary_path.or(self.app_path().log_err()) else {
366 return;
367 };
368 let script = format!(
369 r#"
370 $pidToWaitFor = {}
371 $exePath = "{}"
372
373 while ($true) {{
374 $process = Get-Process -Id $pidToWaitFor -ErrorAction SilentlyContinue
375 if (-not $process) {{
376 Start-Process -FilePath $exePath
377 break
378 }}
379 Start-Sleep -Seconds 0.1
380 }}
381 "#,
382 pid,
383 app_path.display(),
384 );
385
386 #[allow(
387 clippy::disallowed_methods,
388 reason = "We are restarting ourselves, using std command thus is fine"
389 )] // todo(shell): There might be no powershell on the system
390 let restart_process =
391 util::command::new_std_command(util::shell::get_windows_system_shell())
392 .arg("-command")
393 .arg(script)
394 .spawn();
395
396 match restart_process {
397 Ok(_) => self.quit(),
398 Err(e) => log::error!("failed to spawn restart script: {:?}", e),
399 }
400 }
401
402 fn activate(&self, _ignoring_other_apps: bool) {}
403
404 fn hide(&self) {}
405
406 // todo(windows)
407 fn hide_other_apps(&self) {
408 unimplemented!()
409 }
410
411 // todo(windows)
412 fn unhide_other_apps(&self) {
413 unimplemented!()
414 }
415
416 fn displays(&self) -> Vec<Rc<dyn PlatformDisplay>> {
417 WindowsDisplay::displays()
418 }
419
420 fn primary_display(&self) -> Option<Rc<dyn PlatformDisplay>> {
421 WindowsDisplay::primary_monitor().map(|display| Rc::new(display) as Rc<dyn PlatformDisplay>)
422 }
423
424 #[cfg(feature = "screen-capture")]
425 fn is_screen_capture_supported(&self) -> bool {
426 true
427 }
428
429 #[cfg(feature = "screen-capture")]
430 fn screen_capture_sources(
431 &self,
432 ) -> oneshot::Receiver<Result<Vec<Rc<dyn ScreenCaptureSource>>>> {
433 crate::platform::scap_screen_capture::scap_screen_sources(&self.foreground_executor)
434 }
435
436 fn active_window(&self) -> Option<AnyWindowHandle> {
437 let active_window_hwnd = unsafe { GetActiveWindow() };
438 self.window_from_hwnd(active_window_hwnd)
439 .map(|inner| inner.handle)
440 }
441
442 fn open_window(
443 &self,
444 handle: AnyWindowHandle,
445 options: WindowParams,
446 ) -> Result<Box<dyn PlatformWindow>> {
447 let window = WindowsWindow::new(handle, options, self.generate_creation_info())?;
448 let handle = window.get_raw_handle();
449 self.raw_window_handles.write().push(handle.into());
450
451 Ok(Box::new(window))
452 }
453
454 fn window_appearance(&self) -> WindowAppearance {
455 system_appearance().log_err().unwrap_or_default()
456 }
457
458 fn open_url(&self, url: &str) {
459 if url.is_empty() {
460 return;
461 }
462 let url_string = url.to_string();
463 self.background_executor()
464 .spawn(async move {
465 open_target(&url_string)
466 .with_context(|| format!("Opening url: {}", url_string))
467 .log_err();
468 })
469 .detach();
470 }
471
472 fn on_open_urls(&self, callback: Box<dyn FnMut(Vec<String>)>) {
473 self.inner.state.callbacks.open_urls.set(Some(callback));
474 }
475
476 fn prompt_for_paths(
477 &self,
478 options: PathPromptOptions,
479 ) -> Receiver<Result<Option<Vec<PathBuf>>>> {
480 let (tx, rx) = oneshot::channel();
481 let window = self.find_current_active_window();
482 self.foreground_executor()
483 .spawn(async move {
484 let _ = tx.send(file_open_dialog(options, window));
485 })
486 .detach();
487
488 rx
489 }
490
491 fn prompt_for_new_path(
492 &self,
493 directory: &Path,
494 suggested_name: Option<&str>,
495 ) -> Receiver<Result<Option<PathBuf>>> {
496 let directory = directory.to_owned();
497 let suggested_name = suggested_name.map(|s| s.to_owned());
498 let (tx, rx) = oneshot::channel();
499 let window = self.find_current_active_window();
500 self.foreground_executor()
501 .spawn(async move {
502 let _ = tx.send(file_save_dialog(directory, suggested_name, window));
503 })
504 .detach();
505
506 rx
507 }
508
509 fn can_select_mixed_files_and_dirs(&self) -> bool {
510 // The FOS_PICKFOLDERS flag toggles between "only files" and "only folders".
511 false
512 }
513
514 fn reveal_path(&self, path: &Path) {
515 if path.as_os_str().is_empty() {
516 return;
517 }
518 let path = path.to_path_buf();
519 self.background_executor()
520 .spawn(async move {
521 open_target_in_explorer(&path)
522 .with_context(|| format!("Revealing path {} in explorer", path.display()))
523 .log_err();
524 })
525 .detach();
526 }
527
528 fn open_with_system(&self, path: &Path) {
529 if path.as_os_str().is_empty() {
530 return;
531 }
532 let path = path.to_path_buf();
533 self.background_executor()
534 .spawn(async move {
535 open_target(&path)
536 .with_context(|| format!("Opening {} with system", path.display()))
537 .log_err();
538 })
539 .detach();
540 }
541
542 fn on_quit(&self, callback: Box<dyn FnMut()>) {
543 self.inner.state.callbacks.quit.set(Some(callback));
544 }
545
546 fn on_reopen(&self, callback: Box<dyn FnMut()>) {
547 self.inner.state.callbacks.reopen.set(Some(callback));
548 }
549
550 fn set_menus(&self, menus: Vec<Menu>, _keymap: &Keymap) {
551 *self.inner.state.menus.borrow_mut() = menus.into_iter().map(|menu| menu.owned()).collect();
552 }
553
554 fn get_menus(&self) -> Option<Vec<OwnedMenu>> {
555 Some(self.inner.state.menus.borrow().clone())
556 }
557
558 fn set_dock_menu(&self, menus: Vec<MenuItem>, _keymap: &Keymap) {
559 self.set_dock_menus(menus);
560 }
561
562 fn on_app_menu_action(&self, callback: Box<dyn FnMut(&dyn Action)>) {
563 self.inner
564 .state
565 .callbacks
566 .app_menu_action
567 .set(Some(callback));
568 }
569
570 fn on_will_open_app_menu(&self, callback: Box<dyn FnMut()>) {
571 self.inner
572 .state
573 .callbacks
574 .will_open_app_menu
575 .set(Some(callback));
576 }
577
578 fn on_validate_app_menu_command(&self, callback: Box<dyn FnMut(&dyn Action) -> bool>) {
579 self.inner
580 .state
581 .callbacks
582 .validate_app_menu_command
583 .set(Some(callback));
584 }
585
586 fn app_path(&self) -> Result<PathBuf> {
587 Ok(std::env::current_exe()?)
588 }
589
590 // todo(windows)
591 fn path_for_auxiliary_executable(&self, _name: &str) -> Result<PathBuf> {
592 anyhow::bail!("not yet implemented");
593 }
594
595 fn set_cursor_style(&self, style: CursorStyle) {
596 let hcursor = load_cursor(style);
597 if self.inner.state.current_cursor.get().map(|c| c.0) != hcursor.map(|c| c.0) {
598 self.post_message(
599 WM_GPUI_CURSOR_STYLE_CHANGED,
600 WPARAM(0),
601 LPARAM(hcursor.map_or(0, |c| c.0 as isize)),
602 );
603 self.inner.state.current_cursor.set(hcursor);
604 }
605 }
606
607 fn should_auto_hide_scrollbars(&self) -> bool {
608 should_auto_hide_scrollbars().log_err().unwrap_or(false)
609 }
610
611 fn write_to_clipboard(&self, item: ClipboardItem) {
612 write_to_clipboard(item);
613 }
614
615 fn read_from_clipboard(&self) -> Option<ClipboardItem> {
616 read_from_clipboard()
617 }
618
619 fn write_credentials(&self, url: &str, username: &str, password: &[u8]) -> Task<Result<()>> {
620 let mut password = password.to_vec();
621 let mut username = username.encode_utf16().chain(Some(0)).collect_vec();
622 let mut target_name = windows_credentials_target_name(url)
623 .encode_utf16()
624 .chain(Some(0))
625 .collect_vec();
626 self.foreground_executor().spawn(async move {
627 let credentials = CREDENTIALW {
628 LastWritten: unsafe { GetSystemTimeAsFileTime() },
629 Flags: CRED_FLAGS(0),
630 Type: CRED_TYPE_GENERIC,
631 TargetName: PWSTR::from_raw(target_name.as_mut_ptr()),
632 CredentialBlobSize: password.len() as u32,
633 CredentialBlob: password.as_ptr() as *mut _,
634 Persist: CRED_PERSIST_LOCAL_MACHINE,
635 UserName: PWSTR::from_raw(username.as_mut_ptr()),
636 ..CREDENTIALW::default()
637 };
638 unsafe { CredWriteW(&credentials, 0) }?;
639 Ok(())
640 })
641 }
642
643 fn read_credentials(&self, url: &str) -> Task<Result<Option<(String, Vec<u8>)>>> {
644 let mut target_name = windows_credentials_target_name(url)
645 .encode_utf16()
646 .chain(Some(0))
647 .collect_vec();
648 self.foreground_executor().spawn(async move {
649 let mut credentials: *mut CREDENTIALW = std::ptr::null_mut();
650 let result = unsafe {
651 CredReadW(
652 PCWSTR::from_raw(target_name.as_ptr()),
653 CRED_TYPE_GENERIC,
654 None,
655 &mut credentials,
656 )
657 };
658
659 if let Err(err) = result {
660 // ERROR_NOT_FOUND means the credential doesn't exist.
661 // Return Ok(None) to match macOS and Linux behavior.
662 if err.code() == ERROR_NOT_FOUND.to_hresult() {
663 return Ok(None);
664 }
665 return Err(err.into());
666 }
667
668 if credentials.is_null() {
669 Ok(None)
670 } else {
671 let username: String = unsafe { (*credentials).UserName.to_string()? };
672 let credential_blob = unsafe {
673 std::slice::from_raw_parts(
674 (*credentials).CredentialBlob,
675 (*credentials).CredentialBlobSize as usize,
676 )
677 };
678 let password = credential_blob.to_vec();
679 unsafe { CredFree(credentials as *const _ as _) };
680 Ok(Some((username, password)))
681 }
682 })
683 }
684
685 fn delete_credentials(&self, url: &str) -> Task<Result<()>> {
686 let mut target_name = windows_credentials_target_name(url)
687 .encode_utf16()
688 .chain(Some(0))
689 .collect_vec();
690 self.foreground_executor().spawn(async move {
691 unsafe {
692 CredDeleteW(
693 PCWSTR::from_raw(target_name.as_ptr()),
694 CRED_TYPE_GENERIC,
695 None,
696 )?
697 };
698 Ok(())
699 })
700 }
701
702 fn register_url_scheme(&self, _: &str) -> Task<anyhow::Result<()>> {
703 Task::ready(Err(anyhow!("register_url_scheme unimplemented")))
704 }
705
706 fn perform_dock_menu_action(&self, action: usize) {
707 unsafe {
708 PostMessageW(
709 Some(self.handle),
710 WM_GPUI_DOCK_MENU_ACTION,
711 WPARAM(self.inner.validation_number),
712 LPARAM(action as isize),
713 )
714 .log_err();
715 }
716 }
717
718 fn update_jump_list(
719 &self,
720 menus: Vec<MenuItem>,
721 entries: Vec<SmallVec<[PathBuf; 2]>>,
722 ) -> Vec<SmallVec<[PathBuf; 2]>> {
723 self.update_jump_list(menus, entries)
724 }
725}
726
727impl WindowsPlatformInner {
728 fn new(context: &mut PlatformWindowCreateContext) -> Result<Rc<Self>> {
729 let state = WindowsPlatformState::new(
730 context
731 .directx_devices
732 .take()
733 .context("missing directx devices")?,
734 );
735 Ok(Rc::new(Self {
736 state,
737 raw_window_handles: context.raw_window_handles.clone(),
738 dispatcher: context
739 .dispatcher
740 .as_ref()
741 .context("missing dispatcher")?
742 .clone(),
743 validation_number: context.validation_number,
744 main_receiver: context
745 .main_receiver
746 .take()
747 .context("missing main receiver")?,
748 }))
749 }
750
751 /// Calls `project` to project to the corresponding callback field, removes it from callbacks, calls `f` with the callback and then puts the callback back.
752 fn with_callback<T>(
753 &self,
754 project: impl Fn(&PlatformCallbacks) -> &Cell<Option<T>>,
755 f: impl FnOnce(&mut T),
756 ) {
757 let callback = project(&self.state.callbacks).take();
758 if let Some(mut callback) = callback {
759 f(&mut callback);
760 project(&self.state.callbacks).set(Some(callback));
761 }
762 }
763
764 fn handle_msg(
765 self: &Rc<Self>,
766 handle: HWND,
767 msg: u32,
768 wparam: WPARAM,
769 lparam: LPARAM,
770 ) -> LRESULT {
771 let handled = match msg {
772 WM_GPUI_CLOSE_ONE_WINDOW
773 | WM_GPUI_TASK_DISPATCHED_ON_MAIN_THREAD
774 | WM_GPUI_DOCK_MENU_ACTION
775 | WM_GPUI_KEYBOARD_LAYOUT_CHANGED
776 | WM_GPUI_GPU_DEVICE_LOST => self.handle_gpui_events(msg, wparam, lparam),
777 _ => None,
778 };
779 if let Some(result) = handled {
780 LRESULT(result)
781 } else {
782 unsafe { DefWindowProcW(handle, msg, wparam, lparam) }
783 }
784 }
785
786 fn handle_gpui_events(&self, message: u32, wparam: WPARAM, lparam: LPARAM) -> Option<isize> {
787 if wparam.0 != self.validation_number {
788 log::error!("Wrong validation number while processing message: {message}");
789 return None;
790 }
791 match message {
792 WM_GPUI_CLOSE_ONE_WINDOW => {
793 self.close_one_window(HWND(lparam.0 as _));
794 Some(0)
795 }
796 WM_GPUI_TASK_DISPATCHED_ON_MAIN_THREAD => self.run_foreground_task(),
797 WM_GPUI_DOCK_MENU_ACTION => self.handle_dock_action_event(lparam.0 as _),
798 WM_GPUI_KEYBOARD_LAYOUT_CHANGED => self.handle_keyboard_layout_change(),
799 WM_GPUI_GPU_DEVICE_LOST => self.handle_device_lost(lparam),
800 _ => unreachable!(),
801 }
802 }
803
804 fn close_one_window(&self, target_window: HWND) -> bool {
805 let Some(all_windows) = self.raw_window_handles.upgrade() else {
806 log::error!("Failed to upgrade raw window handles");
807 return false;
808 };
809 let mut lock = all_windows.write();
810 let index = lock
811 .iter()
812 .position(|handle| handle.as_raw() == target_window)
813 .unwrap();
814 lock.remove(index);
815
816 lock.is_empty()
817 }
818
819 #[inline]
820 fn run_foreground_task(&self) -> Option<isize> {
821 const MAIN_TASK_TIMEOUT: u128 = 10;
822
823 let start = std::time::Instant::now();
824 'tasks: loop {
825 'timeout_loop: loop {
826 if start.elapsed().as_millis() >= MAIN_TASK_TIMEOUT {
827 log::debug!("foreground task timeout reached");
828 // we spent our budget on gpui tasks, we likely have a lot of work queued so drain system events first to stay responsive
829 // then quit out of foreground work to allow us to process other gpui events first before returning back to foreground task work
830 // if we don't we might not for example process window quit events
831 let mut msg = MSG::default();
832 let process_message = |msg: &_| {
833 if translate_accelerator(msg).is_none() {
834 _ = unsafe { TranslateMessage(msg) };
835 unsafe { DispatchMessageW(msg) };
836 }
837 };
838 let peek_msg = |msg: &mut _, msg_kind| unsafe {
839 PeekMessageW(msg, None, 0, 0, PM_REMOVE | msg_kind).as_bool()
840 };
841 while peek_msg(&mut msg, PM_QS_INPUT) {
842 process_message(&msg);
843 }
844 // Allow the main loop to process other gpui events before going back into `run_foreground_task`
845 unsafe {
846 if let Err(_) = PostMessageW(
847 Some(self.dispatcher.platform_window_handle.as_raw()),
848 WM_GPUI_TASK_DISPATCHED_ON_MAIN_THREAD,
849 WPARAM(self.validation_number),
850 LPARAM(0),
851 ) {
852 self.dispatcher.wake_posted.store(false, Ordering::Release);
853 };
854 }
855 break 'tasks;
856 }
857 let mut main_receiver = self.main_receiver.clone();
858 match main_receiver.try_pop() {
859 Ok(Some(runnable)) => WindowsDispatcher::execute_runnable(runnable),
860 _ => break 'timeout_loop,
861 }
862 }
863
864 // Someone could enqueue a Runnable here. The flag is still true, so they will not PostMessage.
865 // We need to check for those Runnables after we clear the flag.
866 self.dispatcher.wake_posted.store(false, Ordering::Release);
867 let mut main_receiver = self.main_receiver.clone();
868 match main_receiver.try_pop() {
869 Ok(Some(runnable)) => {
870 self.dispatcher.wake_posted.store(true, Ordering::Release);
871
872 WindowsDispatcher::execute_runnable(runnable);
873 }
874 _ => break 'tasks,
875 }
876 }
877
878 Some(0)
879 }
880
881 fn handle_dock_action_event(&self, action_idx: usize) -> Option<isize> {
882 let Some(action) = self
883 .state
884 .jump_list
885 .borrow()
886 .dock_menus
887 .get(action_idx)
888 .map(|dock_menu| dock_menu.action.boxed_clone())
889 else {
890 log::error!("Dock menu for index {action_idx} not found");
891 return Some(1);
892 };
893 self.with_callback(
894 |callbacks| &callbacks.app_menu_action,
895 |callback| callback(&*action),
896 );
897 Some(0)
898 }
899
900 fn handle_keyboard_layout_change(&self) -> Option<isize> {
901 self.with_callback(
902 |callbacks| &callbacks.keyboard_layout_change,
903 |callback| callback(),
904 );
905 Some(0)
906 }
907
908 fn handle_device_lost(&self, lparam: LPARAM) -> Option<isize> {
909 let directx_devices = lparam.0 as *const DirectXDevices;
910 let directx_devices = unsafe { &*directx_devices };
911 self.state.directx_devices.borrow_mut().take();
912 *self.state.directx_devices.borrow_mut() = Some(directx_devices.clone());
913
914 Some(0)
915 }
916}
917
918impl Drop for WindowsPlatform {
919 fn drop(&mut self) {
920 unsafe {
921 DestroyWindow(self.handle)
922 .context("Destroying platform window")
923 .log_err();
924 OleUninitialize();
925 }
926 }
927}
928
929pub(crate) struct WindowCreationInfo {
930 pub(crate) icon: HICON,
931 pub(crate) executor: ForegroundExecutor,
932 pub(crate) current_cursor: Option<HCURSOR>,
933 pub(crate) windows_version: WindowsVersion,
934 pub(crate) drop_target_helper: IDropTargetHelper,
935 pub(crate) validation_number: usize,
936 pub(crate) main_receiver: PriorityQueueReceiver<RunnableVariant>,
937 pub(crate) platform_window_handle: HWND,
938 pub(crate) disable_direct_composition: bool,
939 pub(crate) directx_devices: DirectXDevices,
940 /// Flag to instruct the `VSyncProvider` thread to invalidate the directx devices
941 /// as resizing them has failed, causing us to have lost at least the render target.
942 pub(crate) invalidate_devices: Arc<AtomicBool>,
943}
944
945struct PlatformWindowCreateContext {
946 inner: Option<Result<Rc<WindowsPlatformInner>>>,
947 raw_window_handles: std::sync::Weak<RwLock<SmallVec<[SafeHwnd; 4]>>>,
948 validation_number: usize,
949 main_sender: Option<PriorityQueueSender<RunnableVariant>>,
950 main_receiver: Option<PriorityQueueReceiver<RunnableVariant>>,
951 directx_devices: Option<DirectXDevices>,
952 dispatcher: Option<Arc<WindowsDispatcher>>,
953}
954
955fn open_target(target: impl AsRef<OsStr>) -> Result<()> {
956 let target = target.as_ref();
957 let ret = unsafe {
958 ShellExecuteW(
959 None,
960 windows::core::w!("open"),
961 &HSTRING::from(target),
962 None,
963 None,
964 SW_SHOWDEFAULT,
965 )
966 };
967 if ret.0 as isize <= 32 {
968 Err(anyhow::anyhow!(
969 "Unable to open target: {}",
970 std::io::Error::last_os_error()
971 ))
972 } else {
973 Ok(())
974 }
975}
976
977fn open_target_in_explorer(target: &Path) -> Result<()> {
978 let dir = target.parent().context("No parent folder found")?;
979 let desktop = unsafe { SHGetDesktopFolder()? };
980
981 let mut dir_item = std::ptr::null_mut();
982 unsafe {
983 desktop.ParseDisplayName(
984 HWND::default(),
985 None,
986 &HSTRING::from(dir),
987 None,
988 &mut dir_item,
989 std::ptr::null_mut(),
990 )?;
991 }
992
993 let mut file_item = std::ptr::null_mut();
994 unsafe {
995 desktop.ParseDisplayName(
996 HWND::default(),
997 None,
998 &HSTRING::from(target),
999 None,
1000 &mut file_item,
1001 std::ptr::null_mut(),
1002 )?;
1003 }
1004
1005 let highlight = [file_item as *const _];
1006 unsafe { SHOpenFolderAndSelectItems(dir_item as _, Some(&highlight), 0) }.or_else(|err| {
1007 if err.code().0 == ERROR_FILE_NOT_FOUND.0 as i32 {
1008 // On some systems, the above call mysteriously fails with "file not
1009 // found" even though the file is there. In these cases, ShellExecute()
1010 // seems to work as a fallback (although it won't select the file).
1011 open_target(dir).context("Opening target parent folder")
1012 } else {
1013 Err(anyhow::anyhow!("Can not open target path: {}", err))
1014 }
1015 })
1016}
1017
1018fn file_open_dialog(
1019 options: PathPromptOptions,
1020 window: Option<HWND>,
1021) -> Result<Option<Vec<PathBuf>>> {
1022 let folder_dialog: IFileOpenDialog =
1023 unsafe { CoCreateInstance(&FileOpenDialog, None, CLSCTX_ALL)? };
1024
1025 let mut dialog_options = FOS_FILEMUSTEXIST;
1026 if options.multiple {
1027 dialog_options |= FOS_ALLOWMULTISELECT;
1028 }
1029 if options.directories {
1030 dialog_options |= FOS_PICKFOLDERS;
1031 }
1032
1033 unsafe {
1034 folder_dialog.SetOptions(dialog_options)?;
1035
1036 if let Some(prompt) = options.prompt {
1037 let prompt: &str = &prompt;
1038 folder_dialog.SetOkButtonLabel(&HSTRING::from(prompt))?;
1039 }
1040
1041 if folder_dialog.Show(window).is_err() {
1042 // User cancelled
1043 return Ok(None);
1044 }
1045 }
1046
1047 let results = unsafe { folder_dialog.GetResults()? };
1048 let file_count = unsafe { results.GetCount()? };
1049 if file_count == 0 {
1050 return Ok(None);
1051 }
1052
1053 let mut paths = Vec::with_capacity(file_count as usize);
1054 for i in 0..file_count {
1055 let item = unsafe { results.GetItemAt(i)? };
1056 let path = unsafe { item.GetDisplayName(SIGDN_FILESYSPATH)?.to_string()? };
1057 paths.push(PathBuf::from(path));
1058 }
1059
1060 Ok(Some(paths))
1061}
1062
1063fn file_save_dialog(
1064 directory: PathBuf,
1065 suggested_name: Option<String>,
1066 window: Option<HWND>,
1067) -> Result<Option<PathBuf>> {
1068 let dialog: IFileSaveDialog = unsafe { CoCreateInstance(&FileSaveDialog, None, CLSCTX_ALL)? };
1069 if !directory.to_string_lossy().is_empty()
1070 && let Some(full_path) = directory
1071 .canonicalize()
1072 .context("failed to canonicalize directory")
1073 .log_err()
1074 {
1075 let full_path = SanitizedPath::new(&full_path);
1076 let full_path_string = full_path.to_string();
1077 let path_item: IShellItem =
1078 unsafe { SHCreateItemFromParsingName(&HSTRING::from(full_path_string), None)? };
1079 unsafe {
1080 dialog
1081 .SetFolder(&path_item)
1082 .context("failed to set dialog folder")
1083 .log_err()
1084 };
1085 }
1086
1087 if let Some(suggested_name) = suggested_name {
1088 unsafe {
1089 dialog
1090 .SetFileName(&HSTRING::from(suggested_name))
1091 .context("failed to set file name")
1092 .log_err()
1093 };
1094 }
1095
1096 unsafe {
1097 dialog.SetFileTypes(&[Common::COMDLG_FILTERSPEC {
1098 pszName: windows::core::w!("All files"),
1099 pszSpec: windows::core::w!("*.*"),
1100 }])?;
1101 if dialog.Show(window).is_err() {
1102 // User cancelled
1103 return Ok(None);
1104 }
1105 }
1106 let shell_item = unsafe { dialog.GetResult()? };
1107 let file_path_string = unsafe {
1108 let pwstr = shell_item.GetDisplayName(SIGDN_FILESYSPATH)?;
1109 let string = pwstr.to_string()?;
1110 CoTaskMemFree(Some(pwstr.0 as _));
1111 string
1112 };
1113 Ok(Some(PathBuf::from(file_path_string)))
1114}
1115
1116fn load_icon() -> Result<HICON> {
1117 let module = unsafe { GetModuleHandleW(None).context("unable to get module handle")? };
1118 let handle = unsafe {
1119 LoadImageW(
1120 Some(module.into()),
1121 windows::core::PCWSTR(1 as _),
1122 IMAGE_ICON,
1123 0,
1124 0,
1125 LR_DEFAULTSIZE | LR_SHARED,
1126 )
1127 .context("unable to load icon file")?
1128 };
1129 Ok(HICON(handle.0))
1130}
1131
1132#[inline]
1133fn should_auto_hide_scrollbars() -> Result<bool> {
1134 let ui_settings = UISettings::new()?;
1135 Ok(ui_settings.AutoHideScrollBars()?)
1136}
1137
1138fn check_device_lost(device: &ID3D11Device) -> bool {
1139 let device_state = unsafe { device.GetDeviceRemovedReason() };
1140 match device_state {
1141 Ok(_) => false,
1142 Err(err) => {
1143 log::error!("DirectX device lost detected: {:?}", err);
1144 true
1145 }
1146 }
1147}
1148
1149fn handle_gpu_device_lost(
1150 directx_devices: &mut DirectXDevices,
1151 platform_window: HWND,
1152 validation_number: usize,
1153 all_windows: &std::sync::Weak<RwLock<SmallVec<[SafeHwnd; 4]>>>,
1154 text_system: &std::sync::Weak<DirectWriteTextSystem>,
1155) -> Result<()> {
1156 // Here we wait a bit to ensure the system has time to recover from the device lost state.
1157 // If we don't wait, the final drawing result will be blank.
1158 std::thread::sleep(std::time::Duration::from_millis(350));
1159
1160 *directx_devices = try_to_recover_from_device_lost(|| {
1161 DirectXDevices::new().context("Failed to recreate new DirectX devices after device lost")
1162 })?;
1163 log::info!("DirectX devices successfully recreated.");
1164
1165 let lparam = LPARAM(directx_devices as *const _ as _);
1166 unsafe {
1167 SendMessageW(
1168 platform_window,
1169 WM_GPUI_GPU_DEVICE_LOST,
1170 Some(WPARAM(validation_number)),
1171 Some(lparam),
1172 );
1173 }
1174
1175 if let Some(text_system) = text_system.upgrade() {
1176 text_system.handle_gpu_lost(&directx_devices)?;
1177 }
1178 if let Some(all_windows) = all_windows.upgrade() {
1179 for window in all_windows.read().iter() {
1180 unsafe {
1181 SendMessageW(
1182 window.as_raw(),
1183 WM_GPUI_GPU_DEVICE_LOST,
1184 Some(WPARAM(validation_number)),
1185 Some(lparam),
1186 );
1187 }
1188 }
1189 std::thread::sleep(std::time::Duration::from_millis(200));
1190 for window in all_windows.read().iter() {
1191 unsafe {
1192 SendMessageW(
1193 window.as_raw(),
1194 WM_GPUI_FORCE_UPDATE_WINDOW,
1195 Some(WPARAM(validation_number)),
1196 None,
1197 );
1198 }
1199 }
1200 }
1201 Ok(())
1202}
1203
1204const PLATFORM_WINDOW_CLASS_NAME: PCWSTR = w!("Zed::PlatformWindow");
1205
1206fn register_platform_window_class() {
1207 let wc = WNDCLASSW {
1208 lpfnWndProc: Some(window_procedure),
1209 lpszClassName: PCWSTR(PLATFORM_WINDOW_CLASS_NAME.as_ptr()),
1210 ..Default::default()
1211 };
1212 unsafe { RegisterClassW(&wc) };
1213}
1214
1215unsafe extern "system" fn window_procedure(
1216 hwnd: HWND,
1217 msg: u32,
1218 wparam: WPARAM,
1219 lparam: LPARAM,
1220) -> LRESULT {
1221 if msg == WM_NCCREATE {
1222 let params = unsafe { &*(lparam.0 as *const CREATESTRUCTW) };
1223 let creation_context = params.lpCreateParams as *mut PlatformWindowCreateContext;
1224 let creation_context = unsafe { &mut *creation_context };
1225
1226 let Some(main_sender) = creation_context.main_sender.take() else {
1227 creation_context.inner = Some(Err(anyhow!("missing main sender")));
1228 return LRESULT(0);
1229 };
1230 creation_context.dispatcher = Some(Arc::new(WindowsDispatcher::new(
1231 main_sender,
1232 hwnd,
1233 creation_context.validation_number,
1234 )));
1235
1236 return match WindowsPlatformInner::new(creation_context) {
1237 Ok(inner) => {
1238 let weak = Box::new(Rc::downgrade(&inner));
1239 unsafe { set_window_long(hwnd, GWLP_USERDATA, Box::into_raw(weak) as isize) };
1240 creation_context.inner = Some(Ok(inner));
1241 unsafe { DefWindowProcW(hwnd, msg, wparam, lparam) }
1242 }
1243 Err(error) => {
1244 creation_context.inner = Some(Err(error));
1245 LRESULT(0)
1246 }
1247 };
1248 }
1249
1250 let ptr = unsafe { get_window_long(hwnd, GWLP_USERDATA) } as *mut Weak<WindowsPlatformInner>;
1251 if ptr.is_null() {
1252 return unsafe { DefWindowProcW(hwnd, msg, wparam, lparam) };
1253 }
1254 let inner = unsafe { &*ptr };
1255 let result = if let Some(inner) = inner.upgrade() {
1256 inner.handle_msg(hwnd, msg, wparam, lparam)
1257 } else {
1258 unsafe { DefWindowProcW(hwnd, msg, wparam, lparam) }
1259 };
1260
1261 if msg == WM_NCDESTROY {
1262 unsafe { set_window_long(hwnd, GWLP_USERDATA, 0) };
1263 unsafe { drop(Box::from_raw(ptr)) };
1264 }
1265
1266 result
1267}
1268
1269#[cfg(test)]
1270mod tests {
1271 use crate::{ClipboardItem, read_from_clipboard, write_to_clipboard};
1272
1273 #[test]
1274 fn test_clipboard() {
1275 let item = ClipboardItem::new_string("你好,我是张小白".to_string());
1276 write_to_clipboard(item.clone());
1277 assert_eq!(read_from_clipboard(), Some(item));
1278
1279 let item = ClipboardItem::new_string("12345".to_string());
1280 write_to_clipboard(item.clone());
1281 assert_eq!(read_from_clipboard(), Some(item));
1282
1283 let item = ClipboardItem::new_string_with_json_metadata("abcdef".to_string(), vec![3, 4]);
1284 write_to_clipboard(item.clone());
1285 assert_eq!(read_from_clipboard(), Some(item));
1286 }
1287}