use super::{events::key_to_native, BoolExt}; use crate::{ Action, AnyWindowHandle, BackgroundExecutor, ClipboardItem, CursorStyle, DisplayId, ForegroundExecutor, Keymap, MacDispatcher, MacDisplay, MacTextSystem, MacWindow, Menu, MenuItem, PathPromptOptions, Platform, PlatformDisplay, PlatformInput, PlatformTextSystem, PlatformWindow, Result, SemanticVersion, Task, WindowAppearance, WindowParams, }; use anyhow::{anyhow, bail}; use block::ConcreteBlock; use cocoa::{ appkit::{ NSApplication, NSApplicationActivationPolicy::NSApplicationActivationPolicyRegular, NSEventModifierFlags, NSMenu, NSMenuItem, NSModalResponse, NSOpenPanel, NSPasteboard, NSPasteboardTypeString, NSSavePanel, NSWindow, }, base::{id, nil, selector, BOOL, YES}, foundation::{ NSArray, NSAutoreleasePool, NSBundle, NSData, NSInteger, NSProcessInfo, NSString, NSUInteger, NSURL, }, }; use core_foundation::{ base::{CFType, CFTypeRef, OSStatus, TCFType as _}, boolean::CFBoolean, data::CFData, dictionary::{CFDictionary, CFDictionaryRef, CFMutableDictionary}, string::{CFString, CFStringRef}, }; use ctor::ctor; use futures::channel::oneshot; use objc::{ class, declare::ClassDecl, msg_send, runtime::{Class, Object, Sel}, sel, sel_impl, }; use parking_lot::Mutex; use ptr::null_mut; use std::{ cell::Cell, convert::TryInto, ffi::{c_void, CStr, OsStr}, os::{raw::c_char, unix::ffi::OsStrExt}, path::{Path, PathBuf}, process::Command, ptr, rc::Rc, slice, str, sync::Arc, }; use time::UtcOffset; use super::renderer; #[allow(non_upper_case_globals)] const NSUTF8StringEncoding: NSUInteger = 4; const MAC_PLATFORM_IVAR: &str = "platform"; static mut APP_CLASS: *const Class = ptr::null(); static mut APP_DELEGATE_CLASS: *const Class = ptr::null(); #[ctor] unsafe fn build_classes() { APP_CLASS = { let mut decl = ClassDecl::new("GPUIApplication", class!(NSApplication)).unwrap(); decl.add_ivar::<*mut c_void>(MAC_PLATFORM_IVAR); decl.add_method( sel!(sendEvent:), send_event as extern "C" fn(&mut Object, Sel, id), ); decl.register() }; APP_DELEGATE_CLASS = { let mut decl = ClassDecl::new("GPUIApplicationDelegate", class!(NSResponder)).unwrap(); decl.add_ivar::<*mut c_void>(MAC_PLATFORM_IVAR); decl.add_method( sel!(applicationDidFinishLaunching:), did_finish_launching as extern "C" fn(&mut Object, Sel, id), ); decl.add_method( sel!(applicationShouldHandleReopen:hasVisibleWindows:), should_handle_reopen as extern "C" fn(&mut Object, Sel, id, bool), ); decl.add_method( sel!(applicationDidBecomeActive:), did_become_active as extern "C" fn(&mut Object, Sel, id), ); decl.add_method( sel!(applicationDidResignActive:), did_resign_active as extern "C" fn(&mut Object, Sel, id), ); decl.add_method( sel!(applicationWillTerminate:), will_terminate as extern "C" fn(&mut Object, Sel, id), ); decl.add_method( sel!(handleGPUIMenuItem:), handle_menu_item as extern "C" fn(&mut Object, Sel, id), ); // Add menu item handlers so that OS save panels have the correct key commands decl.add_method( sel!(cut:), handle_menu_item as extern "C" fn(&mut Object, Sel, id), ); decl.add_method( sel!(copy:), handle_menu_item as extern "C" fn(&mut Object, Sel, id), ); decl.add_method( sel!(paste:), handle_menu_item as extern "C" fn(&mut Object, Sel, id), ); decl.add_method( sel!(selectAll:), handle_menu_item as extern "C" fn(&mut Object, Sel, id), ); decl.add_method( sel!(undo:), handle_menu_item as extern "C" fn(&mut Object, Sel, id), ); decl.add_method( sel!(redo:), handle_menu_item as extern "C" fn(&mut Object, Sel, id), ); decl.add_method( sel!(validateMenuItem:), validate_menu_item as extern "C" fn(&mut Object, Sel, id) -> bool, ); decl.add_method( sel!(menuWillOpen:), menu_will_open as extern "C" fn(&mut Object, Sel, id), ); decl.add_method( sel!(application:openURLs:), open_urls as extern "C" fn(&mut Object, Sel, id, id), ); decl.register() } } pub(crate) struct MacPlatform(Mutex); pub(crate) struct MacPlatformState { background_executor: BackgroundExecutor, foreground_executor: ForegroundExecutor, text_system: Arc, renderer_context: renderer::Context, pasteboard: id, text_hash_pasteboard_type: id, metadata_pasteboard_type: id, become_active: Option>, resign_active: Option>, reopen: Option>, quit: Option>, event: Option bool>>, menu_command: Option>, validate_menu_command: Option bool>>, will_open_menu: Option>, menu_actions: Vec>, open_urls: Option)>>, finish_launching: Option>, } impl Default for MacPlatform { fn default() -> Self { Self::new() } } impl MacPlatform { pub(crate) fn new() -> Self { let dispatcher = Arc::new(MacDispatcher::new()); Self(Mutex::new(MacPlatformState { background_executor: BackgroundExecutor::new(dispatcher.clone()), foreground_executor: ForegroundExecutor::new(dispatcher), text_system: Arc::new(MacTextSystem::new()), renderer_context: renderer::Context::default(), pasteboard: unsafe { NSPasteboard::generalPasteboard(nil) }, text_hash_pasteboard_type: unsafe { ns_string("zed-text-hash") }, metadata_pasteboard_type: unsafe { ns_string("zed-metadata") }, become_active: None, resign_active: None, reopen: None, quit: None, event: None, menu_command: None, validate_menu_command: None, will_open_menu: None, menu_actions: Default::default(), open_urls: None, finish_launching: None, })) } unsafe fn read_from_pasteboard(&self, pasteboard: *mut Object, kind: id) -> Option<&[u8]> { let data = pasteboard.dataForType(kind); if data == nil { None } else { Some(slice::from_raw_parts( data.bytes() as *mut u8, data.length() as usize, )) } } unsafe fn create_menu_bar( &self, menus: Vec, delegate: id, actions: &mut Vec>, keymap: &Keymap, ) -> id { let application_menu = NSMenu::new(nil).autorelease(); application_menu.setDelegate_(delegate); for menu_config in menus { let menu = NSMenu::new(nil).autorelease(); menu.setTitle_(ns_string(menu_config.name)); menu.setDelegate_(delegate); for item_config in menu_config.items { menu.addItem_(Self::create_menu_item( item_config, delegate, actions, keymap, )); } let menu_item = NSMenuItem::new(nil).autorelease(); menu_item.setSubmenu_(menu); application_menu.addItem_(menu_item); if menu_config.name == "Window" { let app: id = msg_send![APP_CLASS, sharedApplication]; app.setWindowsMenu_(menu); } } application_menu } unsafe fn create_menu_item( item: MenuItem, delegate: id, actions: &mut Vec>, keymap: &Keymap, ) -> id { match item { MenuItem::Separator => NSMenuItem::separatorItem(nil), MenuItem::Action { name, action, os_action, } => { let keystrokes = keymap .bindings_for_action(action.as_ref()) .next() .map(|binding| binding.keystrokes()); let selector = match os_action { Some(crate::OsAction::Cut) => selector("cut:"), Some(crate::OsAction::Copy) => selector("copy:"), Some(crate::OsAction::Paste) => selector("paste:"), Some(crate::OsAction::SelectAll) => selector("selectAll:"), Some(crate::OsAction::Undo) => selector("undo:"), Some(crate::OsAction::Redo) => selector("redo:"), None => selector("handleGPUIMenuItem:"), }; let item; if let Some(keystrokes) = keystrokes { if keystrokes.len() == 1 { let keystroke = &keystrokes[0]; let mut mask = NSEventModifierFlags::empty(); for (modifier, flag) in &[ ( keystroke.modifiers.platform, NSEventModifierFlags::NSCommandKeyMask, ), ( keystroke.modifiers.control, NSEventModifierFlags::NSControlKeyMask, ), ( keystroke.modifiers.alt, NSEventModifierFlags::NSAlternateKeyMask, ), ( keystroke.modifiers.shift, NSEventModifierFlags::NSShiftKeyMask, ), ] { if *modifier { mask |= *flag; } } item = NSMenuItem::alloc(nil) .initWithTitle_action_keyEquivalent_( ns_string(name), selector, ns_string(key_to_native(&keystroke.key).as_ref()), ) .autorelease(); item.setKeyEquivalentModifierMask_(mask); } // For multi-keystroke bindings, render the keystroke as part of the title. else { use std::fmt::Write; let mut name = format!("{name} ["); for (i, keystroke) in keystrokes.iter().enumerate() { if i > 0 { name.push(' '); } write!(&mut name, "{}", keystroke).unwrap(); } name.push(']'); item = NSMenuItem::alloc(nil) .initWithTitle_action_keyEquivalent_( ns_string(&name), selector, ns_string(""), ) .autorelease(); } } else { item = NSMenuItem::alloc(nil) .initWithTitle_action_keyEquivalent_( ns_string(name), selector, ns_string(""), ) .autorelease(); } let tag = actions.len() as NSInteger; let _: () = msg_send![item, setTag: tag]; actions.push(action); item } MenuItem::Submenu(Menu { name, items }) => { let item = NSMenuItem::new(nil).autorelease(); let submenu = NSMenu::new(nil).autorelease(); submenu.setDelegate_(delegate); for item in items { submenu.addItem_(Self::create_menu_item(item, delegate, actions, keymap)); } item.setSubmenu_(submenu); item.setTitle_(ns_string(name)); item } } } } impl Platform for MacPlatform { fn background_executor(&self) -> BackgroundExecutor { self.0.lock().background_executor.clone() } fn foreground_executor(&self) -> crate::ForegroundExecutor { self.0.lock().foreground_executor.clone() } fn text_system(&self) -> Arc { self.0.lock().text_system.clone() } fn run(&self, on_finish_launching: Box) { self.0.lock().finish_launching = Some(on_finish_launching); unsafe { let app: id = msg_send![APP_CLASS, sharedApplication]; let app_delegate: id = msg_send![APP_DELEGATE_CLASS, new]; app.setDelegate_(app_delegate); let self_ptr = self as *const Self as *const c_void; (*app).set_ivar(MAC_PLATFORM_IVAR, self_ptr); (*app_delegate).set_ivar(MAC_PLATFORM_IVAR, self_ptr); let pool = NSAutoreleasePool::new(nil); app.run(); pool.drain(); (*app).set_ivar(MAC_PLATFORM_IVAR, null_mut::()); (*app.delegate()).set_ivar(MAC_PLATFORM_IVAR, null_mut::()); } } fn quit(&self) { // Quitting the app causes us to close windows, which invokes `Window::on_close` callbacks // synchronously before this method terminates. If we call `Platform::quit` while holding a // borrow of the app state (which most of the time we will do), we will end up // double-borrowing the app state in the `on_close` callbacks for our open windows. To solve // this, we make quitting the application asynchronous so that we aren't holding borrows to // the app state on the stack when we actually terminate the app. use super::dispatcher::{dispatch_get_main_queue, dispatch_sys::dispatch_async_f}; unsafe { dispatch_async_f(dispatch_get_main_queue(), ptr::null_mut(), Some(quit)); } unsafe extern "C" fn quit(_: *mut c_void) { let app = NSApplication::sharedApplication(nil); let _: () = msg_send![app, terminate: nil]; } } fn restart(&self) { use std::os::unix::process::CommandExt as _; let app_pid = std::process::id().to_string(); let app_path = self .app_path() .ok() // When the app is not bundled, `app_path` returns the // directory containing the executable. Disregard this // and get the path to the executable itself. .and_then(|path| (path.extension()?.to_str()? == "app").then_some(path)) .unwrap_or_else(|| std::env::current_exe().unwrap()); // Wait until this process has exited and then re-open this path. let script = r#" while kill -0 $0 2> /dev/null; do sleep 0.1 done open "$1" "#; let restart_process = Command::new("/bin/bash") .arg("-c") .arg(script) .arg(app_pid) .arg(app_path) .process_group(0) .spawn(); match restart_process { Ok(_) => self.quit(), Err(e) => log::error!("failed to spawn restart script: {:?}", e), } } fn activate(&self, ignoring_other_apps: bool) { unsafe { let app = NSApplication::sharedApplication(nil); app.activateIgnoringOtherApps_(ignoring_other_apps.to_objc()); } } fn hide(&self) { unsafe { let app = NSApplication::sharedApplication(nil); let _: () = msg_send![app, hide: nil]; } } fn hide_other_apps(&self) { unsafe { let app = NSApplication::sharedApplication(nil); let _: () = msg_send![app, hideOtherApplications: nil]; } } fn unhide_other_apps(&self) { unsafe { let app = NSApplication::sharedApplication(nil); let _: () = msg_send![app, unhideAllApplications: nil]; } } fn primary_display(&self) -> Option> { Some(Rc::new(MacDisplay::primary())) } fn displays(&self) -> Vec> { MacDisplay::all() .map(|screen| Rc::new(screen) as Rc<_>) .collect() } fn display(&self, id: DisplayId) -> Option> { MacDisplay::find_by_id(id).map(|screen| Rc::new(screen) as Rc<_>) } fn active_window(&self) -> Option { MacWindow::active_window() } fn open_window( &self, handle: AnyWindowHandle, options: WindowParams, ) -> Box { // Clippy thinks that this evaluates to `()`, for some reason. #[allow(clippy::unit_arg, clippy::clone_on_copy)] let renderer_context = self.0.lock().renderer_context.clone(); Box::new(MacWindow::open( handle, options, self.foreground_executor(), renderer_context, )) } fn window_appearance(&self) -> WindowAppearance { unsafe { let app = NSApplication::sharedApplication(nil); let appearance: id = msg_send![app, effectiveAppearance]; WindowAppearance::from_native(appearance) } } fn open_url(&self, url: &str) { unsafe { let url = NSURL::alloc(nil) .initWithString_(ns_string(url)) .autorelease(); let workspace: id = msg_send![class!(NSWorkspace), sharedWorkspace]; msg_send![workspace, openURL: url] } } fn register_url_scheme(&self, scheme: &str) -> Task> { // API only available post Monterey // https://developer.apple.com/documentation/appkit/nsworkspace/3753004-setdefaultapplicationaturl let (done_tx, done_rx) = oneshot::channel(); if self.os_version().ok() < Some(SemanticVersion::new(12, 0, 0)) { return Task::ready(Err(anyhow!( "macOS 12.0 or later is required to register URL schemes" ))); } let bundle_id = unsafe { let bundle: id = msg_send![class!(NSBundle), mainBundle]; let bundle_id: id = msg_send![bundle, bundleIdentifier]; if bundle_id == nil { return Task::ready(Err(anyhow!("Can only register URL scheme in bundled apps"))); } bundle_id }; unsafe { let workspace: id = msg_send![class!(NSWorkspace), sharedWorkspace]; let scheme: id = ns_string(scheme); let app: id = msg_send![workspace, URLForApplicationWithBundleIdentifier: bundle_id]; if app == nil { return Task::ready(Err(anyhow!( "Cannot register URL scheme until app is installed" ))); } let done_tx = Cell::new(Some(done_tx)); let block = ConcreteBlock::new(move |error: id| { let result = if error == nil { Ok(()) } else { let msg: id = msg_send![error, localizedDescription]; Err(anyhow!("Failed to register: {:?}", msg)) }; if let Some(done_tx) = done_tx.take() { let _ = done_tx.send(result); } }); let _: () = msg_send![workspace, setDefaultApplicationAtURL: app toOpenURLsWithScheme: scheme completionHandler: block]; } self.background_executor() .spawn(async { crate::Flatten::flatten(done_rx.await.map_err(|e| anyhow!(e))) }) } fn on_open_urls(&self, callback: Box)>) { self.0.lock().open_urls = Some(callback); } fn prompt_for_paths( &self, options: PathPromptOptions, ) -> oneshot::Receiver>> { let (done_tx, done_rx) = oneshot::channel(); self.foreground_executor() .spawn(async move { unsafe { let panel = NSOpenPanel::openPanel(nil); panel.setCanChooseDirectories_(options.directories.to_objc()); panel.setCanChooseFiles_(options.files.to_objc()); panel.setAllowsMultipleSelection_(options.multiple.to_objc()); panel.setResolvesAliases_(false.to_objc()); let done_tx = Cell::new(Some(done_tx)); let block = ConcreteBlock::new(move |response: NSModalResponse| { let result = if response == NSModalResponse::NSModalResponseOk { let mut result = Vec::new(); let urls = panel.URLs(); for i in 0..urls.count() { let url = urls.objectAtIndex(i); if url.isFileURL() == YES { if let Ok(path) = ns_url_to_path(url) { result.push(path) } } } Some(result) } else { None }; if let Some(done_tx) = done_tx.take() { let _ = done_tx.send(result); } }); let block = block.copy(); let _: () = msg_send![panel, beginWithCompletionHandler: block]; } }) .detach(); done_rx } fn prompt_for_new_path(&self, directory: &Path) -> oneshot::Receiver> { let directory = directory.to_owned(); let (done_tx, done_rx) = oneshot::channel(); self.foreground_executor() .spawn(async move { unsafe { let panel = NSSavePanel::savePanel(nil); let path = ns_string(directory.to_string_lossy().as_ref()); let url = NSURL::fileURLWithPath_isDirectory_(nil, path, true.to_objc()); panel.setDirectoryURL(url); let done_tx = Cell::new(Some(done_tx)); let block = ConcreteBlock::new(move |response: NSModalResponse| { let mut result = None; if response == NSModalResponse::NSModalResponseOk { let url = panel.URL(); if url.isFileURL() == YES { result = ns_url_to_path(panel.URL()).ok() } } if let Some(done_tx) = done_tx.take() { let _ = done_tx.send(result); } }); let block = block.copy(); let _: () = msg_send![panel, beginWithCompletionHandler: block]; } }) .detach(); done_rx } fn reveal_path(&self, path: &Path) { unsafe { let path = path.to_path_buf(); self.0 .lock() .background_executor .spawn(async move { let full_path = ns_string(path.to_str().unwrap_or("")); let root_full_path = ns_string(""); let workspace: id = msg_send![class!(NSWorkspace), sharedWorkspace]; let _: BOOL = msg_send![ workspace, selectFile: full_path inFileViewerRootedAtPath: root_full_path ]; }) .detach(); } } fn on_become_active(&self, callback: Box) { self.0.lock().become_active = Some(callback); } fn on_resign_active(&self, callback: Box) { self.0.lock().resign_active = Some(callback); } fn on_quit(&self, callback: Box) { self.0.lock().quit = Some(callback); } fn on_reopen(&self, callback: Box) { self.0.lock().reopen = Some(callback); } fn on_event(&self, callback: Box bool>) { self.0.lock().event = Some(callback); } fn on_app_menu_action(&self, callback: Box) { self.0.lock().menu_command = Some(callback); } fn on_will_open_app_menu(&self, callback: Box) { self.0.lock().will_open_menu = Some(callback); } fn on_validate_app_menu_command(&self, callback: Box bool>) { self.0.lock().validate_menu_command = Some(callback); } fn os_name(&self) -> &'static str { "macOS" } fn os_version(&self) -> Result { unsafe { let process_info = NSProcessInfo::processInfo(nil); let version = process_info.operatingSystemVersion(); Ok(SemanticVersion::new( version.majorVersion as usize, version.minorVersion as usize, version.patchVersion as usize, )) } } fn app_version(&self) -> Result { unsafe { let bundle: id = NSBundle::mainBundle(); if bundle.is_null() { Err(anyhow!("app is not running inside a bundle")) } else { let version: id = msg_send![bundle, objectForInfoDictionaryKey: ns_string("CFBundleShortVersionString")]; if version.is_null() { bail!("bundle does not have version"); } let len = msg_send![version, lengthOfBytesUsingEncoding: NSUTF8StringEncoding]; let bytes = version.UTF8String() as *const u8; let version = str::from_utf8(slice::from_raw_parts(bytes, len)).unwrap(); version.parse() } } } fn app_path(&self) -> Result { unsafe { let bundle: id = NSBundle::mainBundle(); if bundle.is_null() { Err(anyhow!("app is not running inside a bundle")) } else { Ok(path_from_objc(msg_send![bundle, bundlePath])) } } } fn set_menus(&self, menus: Vec, keymap: &Keymap) { unsafe { let app: id = msg_send![APP_CLASS, sharedApplication]; let mut state = self.0.lock(); let actions = &mut state.menu_actions; app.setMainMenu_(self.create_menu_bar(menus, app.delegate(), actions, keymap)); } } fn add_recent_document(&self, path: &Path) { if let Some(path_str) = path.to_str() { unsafe { let document_controller: id = msg_send![class!(NSDocumentController), sharedDocumentController]; let url: id = NSURL::fileURLWithPath_(nil, ns_string(path_str)); let _: () = msg_send![document_controller, noteNewRecentDocumentURL:url]; } } } fn local_timezone(&self) -> UtcOffset { unsafe { let local_timezone: id = msg_send![class!(NSTimeZone), localTimeZone]; let seconds_from_gmt: NSInteger = msg_send![local_timezone, secondsFromGMT]; UtcOffset::from_whole_seconds(seconds_from_gmt.try_into().unwrap()).unwrap() } } fn path_for_auxiliary_executable(&self, name: &str) -> Result { unsafe { let bundle: id = NSBundle::mainBundle(); if bundle.is_null() { Err(anyhow!("app is not running inside a bundle")) } else { let name = ns_string(name); let url: id = msg_send![bundle, URLForAuxiliaryExecutable: name]; if url.is_null() { Err(anyhow!("resource not found")) } else { ns_url_to_path(url) } } } } /// Match cursor style to one of the styles available /// in macOS's [NSCursor](https://developer.apple.com/documentation/appkit/nscursor). fn set_cursor_style(&self, style: CursorStyle) { unsafe { let new_cursor: id = match style { CursorStyle::Arrow => msg_send![class!(NSCursor), arrowCursor], CursorStyle::IBeam => msg_send![class!(NSCursor), IBeamCursor], CursorStyle::Crosshair => msg_send![class!(NSCursor), crosshairCursor], CursorStyle::ClosedHand => msg_send![class!(NSCursor), closedHandCursor], CursorStyle::OpenHand => msg_send![class!(NSCursor), openHandCursor], CursorStyle::PointingHand => msg_send![class!(NSCursor), pointingHandCursor], CursorStyle::ResizeLeft => msg_send![class!(NSCursor), resizeLeftCursor], CursorStyle::ResizeRight => msg_send![class!(NSCursor), resizeRightCursor], CursorStyle::ResizeLeftRight => msg_send![class!(NSCursor), resizeLeftRightCursor], CursorStyle::ResizeUp => msg_send![class!(NSCursor), resizeUpCursor], CursorStyle::ResizeDown => msg_send![class!(NSCursor), resizeDownCursor], CursorStyle::ResizeUpDown => msg_send![class!(NSCursor), resizeUpDownCursor], CursorStyle::DisappearingItem => { msg_send![class!(NSCursor), disappearingItemCursor] } CursorStyle::IBeamCursorForVerticalLayout => { msg_send![class!(NSCursor), IBeamCursorForVerticalLayout] } CursorStyle::OperationNotAllowed => { msg_send![class!(NSCursor), operationNotAllowedCursor] } CursorStyle::DragLink => msg_send![class!(NSCursor), dragLinkCursor], CursorStyle::DragCopy => msg_send![class!(NSCursor), dragCopyCursor], CursorStyle::ContextualMenu => msg_send![class!(NSCursor), contextualMenuCursor], }; let old_cursor: id = msg_send![class!(NSCursor), currentCursor]; if new_cursor != old_cursor { let _: () = msg_send![new_cursor, set]; } } } fn should_auto_hide_scrollbars(&self) -> bool { #[allow(non_upper_case_globals)] const NSScrollerStyleOverlay: NSInteger = 1; unsafe { let style: NSInteger = msg_send![class!(NSScroller), preferredScrollerStyle]; style == NSScrollerStyleOverlay } } fn write_to_clipboard(&self, item: ClipboardItem) { let state = self.0.lock(); unsafe { state.pasteboard.clearContents(); let text_bytes = NSData::dataWithBytes_length_( nil, item.text.as_ptr() as *const c_void, item.text.len() as u64, ); state .pasteboard .setData_forType(text_bytes, NSPasteboardTypeString); if let Some(metadata) = item.metadata.as_ref() { let hash_bytes = ClipboardItem::text_hash(&item.text).to_be_bytes(); let hash_bytes = NSData::dataWithBytes_length_( nil, hash_bytes.as_ptr() as *const c_void, hash_bytes.len() as u64, ); state .pasteboard .setData_forType(hash_bytes, state.text_hash_pasteboard_type); let metadata_bytes = NSData::dataWithBytes_length_( nil, metadata.as_ptr() as *const c_void, metadata.len() as u64, ); state .pasteboard .setData_forType(metadata_bytes, state.metadata_pasteboard_type); } } } fn read_from_clipboard(&self) -> Option { let state = self.0.lock(); unsafe { if let Some(text_bytes) = self.read_from_pasteboard(state.pasteboard, NSPasteboardTypeString) { let text = String::from_utf8_lossy(text_bytes).to_string(); let hash_bytes = self .read_from_pasteboard(state.pasteboard, state.text_hash_pasteboard_type) .and_then(|bytes| bytes.try_into().ok()) .map(u64::from_be_bytes); let metadata_bytes = self .read_from_pasteboard(state.pasteboard, state.metadata_pasteboard_type) .and_then(|bytes| String::from_utf8(bytes.to_vec()).ok()); if let Some((hash, metadata)) = hash_bytes.zip(metadata_bytes) { if hash == ClipboardItem::text_hash(&text) { Some(ClipboardItem { text, metadata: Some(metadata), }) } else { Some(ClipboardItem { text, metadata: None, }) } } else { Some(ClipboardItem { text, metadata: None, }) } } else { None } } } fn write_credentials(&self, url: &str, username: &str, password: &[u8]) -> Task> { let url = url.to_string(); let username = username.to_string(); let password = password.to_vec(); self.background_executor().spawn(async move { unsafe { use security::*; let url = CFString::from(url.as_str()); let username = CFString::from(username.as_str()); let password = CFData::from_buffer(&password); // First, check if there are already credentials for the given server. If so, then // update the username and password. let mut verb = "updating"; let mut query_attrs = CFMutableDictionary::with_capacity(2); query_attrs.set(kSecClass as *const _, kSecClassInternetPassword as *const _); query_attrs.set(kSecAttrServer as *const _, url.as_CFTypeRef()); let mut attrs = CFMutableDictionary::with_capacity(4); attrs.set(kSecClass as *const _, kSecClassInternetPassword as *const _); attrs.set(kSecAttrServer as *const _, url.as_CFTypeRef()); attrs.set(kSecAttrAccount as *const _, username.as_CFTypeRef()); attrs.set(kSecValueData as *const _, password.as_CFTypeRef()); let mut status = SecItemUpdate( query_attrs.as_concrete_TypeRef(), attrs.as_concrete_TypeRef(), ); // If there were no existing credentials for the given server, then create them. if status == errSecItemNotFound { verb = "creating"; status = SecItemAdd(attrs.as_concrete_TypeRef(), ptr::null_mut()); } if status != errSecSuccess { return Err(anyhow!("{} password failed: {}", verb, status)); } } Ok(()) }) } fn read_credentials(&self, url: &str) -> Task)>>> { let url = url.to_string(); self.background_executor().spawn(async move { let url = CFString::from(url.as_str()); let cf_true = CFBoolean::true_value().as_CFTypeRef(); unsafe { use security::*; // Find any credentials for the given server URL. let mut attrs = CFMutableDictionary::with_capacity(5); attrs.set(kSecClass as *const _, kSecClassInternetPassword as *const _); attrs.set(kSecAttrServer as *const _, url.as_CFTypeRef()); attrs.set(kSecReturnAttributes as *const _, cf_true); attrs.set(kSecReturnData as *const _, cf_true); let mut result = CFTypeRef::from(ptr::null()); let status = SecItemCopyMatching(attrs.as_concrete_TypeRef(), &mut result); match status { security::errSecSuccess => {} security::errSecItemNotFound | security::errSecUserCanceled => return Ok(None), _ => return Err(anyhow!("reading password failed: {}", status)), } let result = CFType::wrap_under_create_rule(result) .downcast::() .ok_or_else(|| anyhow!("keychain item was not a dictionary"))?; let username = result .find(kSecAttrAccount as *const _) .ok_or_else(|| anyhow!("account was missing from keychain item"))?; let username = CFType::wrap_under_get_rule(*username) .downcast::() .ok_or_else(|| anyhow!("account was not a string"))?; let password = result .find(kSecValueData as *const _) .ok_or_else(|| anyhow!("password was missing from keychain item"))?; let password = CFType::wrap_under_get_rule(*password) .downcast::() .ok_or_else(|| anyhow!("password was not a string"))?; Ok(Some((username.to_string(), password.bytes().to_vec()))) } }) } fn delete_credentials(&self, url: &str) -> Task> { let url = url.to_string(); self.background_executor().spawn(async move { unsafe { use security::*; let url = CFString::from(url.as_str()); let mut query_attrs = CFMutableDictionary::with_capacity(2); query_attrs.set(kSecClass as *const _, kSecClassInternetPassword as *const _); query_attrs.set(kSecAttrServer as *const _, url.as_CFTypeRef()); let status = SecItemDelete(query_attrs.as_concrete_TypeRef()); if status != errSecSuccess { return Err(anyhow!("delete password failed: {}", status)); } } Ok(()) }) } } unsafe fn path_from_objc(path: id) -> PathBuf { let len = msg_send![path, lengthOfBytesUsingEncoding: NSUTF8StringEncoding]; let bytes = path.UTF8String() as *const u8; let path = str::from_utf8(slice::from_raw_parts(bytes, len)).unwrap(); PathBuf::from(path) } unsafe fn get_mac_platform(object: &mut Object) -> &MacPlatform { let platform_ptr: *mut c_void = *object.get_ivar(MAC_PLATFORM_IVAR); assert!(!platform_ptr.is_null()); &*(platform_ptr as *const MacPlatform) } extern "C" fn send_event(this: &mut Object, _sel: Sel, native_event: id) { unsafe { if let Some(event) = PlatformInput::from_native(native_event, None) { let platform = get_mac_platform(this); let mut lock = platform.0.lock(); if let Some(mut callback) = lock.event.take() { drop(lock); let result = callback(event); platform.0.lock().event.get_or_insert(callback); if !result { return; } } } msg_send![super(this, class!(NSApplication)), sendEvent: native_event] } } extern "C" fn did_finish_launching(this: &mut Object, _: Sel, _: id) { unsafe { let app: id = msg_send![APP_CLASS, sharedApplication]; app.setActivationPolicy_(NSApplicationActivationPolicyRegular); let platform = get_mac_platform(this); let callback = platform.0.lock().finish_launching.take(); if let Some(callback) = callback { callback(); } } } extern "C" fn should_handle_reopen(this: &mut Object, _: Sel, _: id, has_open_windows: bool) { if !has_open_windows { let platform = unsafe { get_mac_platform(this) }; let mut lock = platform.0.lock(); if let Some(mut callback) = lock.reopen.take() { drop(lock); callback(); platform.0.lock().reopen.get_or_insert(callback); } } } extern "C" fn did_become_active(this: &mut Object, _: Sel, _: id) { let platform = unsafe { get_mac_platform(this) }; let mut lock = platform.0.lock(); if let Some(mut callback) = lock.become_active.take() { drop(lock); callback(); platform.0.lock().become_active.get_or_insert(callback); } } extern "C" fn did_resign_active(this: &mut Object, _: Sel, _: id) { let platform = unsafe { get_mac_platform(this) }; let mut lock = platform.0.lock(); if let Some(mut callback) = lock.resign_active.take() { drop(lock); callback(); platform.0.lock().resign_active.get_or_insert(callback); } } extern "C" fn will_terminate(this: &mut Object, _: Sel, _: id) { let platform = unsafe { get_mac_platform(this) }; let mut lock = platform.0.lock(); if let Some(mut callback) = lock.quit.take() { drop(lock); callback(); platform.0.lock().quit.get_or_insert(callback); } } extern "C" fn open_urls(this: &mut Object, _: Sel, _: id, urls: id) { let urls = unsafe { (0..urls.count()) .filter_map(|i| { let url = urls.objectAtIndex(i); match CStr::from_ptr(url.absoluteString().UTF8String() as *mut c_char).to_str() { Ok(string) => Some(string.to_string()), Err(err) => { log::error!("error converting path to string: {}", err); None } } }) .collect::>() }; let platform = unsafe { get_mac_platform(this) }; let mut lock = platform.0.lock(); if let Some(mut callback) = lock.open_urls.take() { drop(lock); callback(urls); platform.0.lock().open_urls.get_or_insert(callback); } } extern "C" fn handle_menu_item(this: &mut Object, _: Sel, item: id) { unsafe { let platform = get_mac_platform(this); let mut lock = platform.0.lock(); if let Some(mut callback) = lock.menu_command.take() { let tag: NSInteger = msg_send![item, tag]; let index = tag as usize; if let Some(action) = lock.menu_actions.get(index) { let action = action.boxed_clone(); drop(lock); callback(&*action); } platform.0.lock().menu_command.get_or_insert(callback); } } } extern "C" fn validate_menu_item(this: &mut Object, _: Sel, item: id) -> bool { unsafe { let mut result = false; let platform = get_mac_platform(this); let mut lock = platform.0.lock(); if let Some(mut callback) = lock.validate_menu_command.take() { let tag: NSInteger = msg_send![item, tag]; let index = tag as usize; if let Some(action) = lock.menu_actions.get(index) { let action = action.boxed_clone(); drop(lock); result = callback(action.as_ref()); } platform .0 .lock() .validate_menu_command .get_or_insert(callback); } result } } extern "C" fn menu_will_open(this: &mut Object, _: Sel, _: id) { unsafe { let platform = get_mac_platform(this); let mut lock = platform.0.lock(); if let Some(mut callback) = lock.will_open_menu.take() { drop(lock); callback(); platform.0.lock().will_open_menu.get_or_insert(callback); } } } unsafe fn ns_string(string: &str) -> id { NSString::alloc(nil).init_str(string).autorelease() } unsafe fn ns_url_to_path(url: id) -> Result { let path: *mut c_char = msg_send![url, fileSystemRepresentation]; if path.is_null() { Err(anyhow!( "url is not a file path: {}", CStr::from_ptr(url.absoluteString().UTF8String()).to_string_lossy() )) } else { Ok(PathBuf::from(OsStr::from_bytes( CStr::from_ptr(path).to_bytes(), ))) } } mod security { #![allow(non_upper_case_globals)] use super::*; #[link(name = "Security", kind = "framework")] extern "C" { pub static kSecClass: CFStringRef; pub static kSecClassInternetPassword: CFStringRef; pub static kSecAttrServer: CFStringRef; pub static kSecAttrAccount: CFStringRef; pub static kSecValueData: CFStringRef; pub static kSecReturnAttributes: CFStringRef; pub static kSecReturnData: CFStringRef; pub fn SecItemAdd(attributes: CFDictionaryRef, result: *mut CFTypeRef) -> OSStatus; pub fn SecItemUpdate(query: CFDictionaryRef, attributes: CFDictionaryRef) -> OSStatus; pub fn SecItemDelete(query: CFDictionaryRef) -> OSStatus; pub fn SecItemCopyMatching(query: CFDictionaryRef, result: *mut CFTypeRef) -> OSStatus; } pub const errSecSuccess: OSStatus = 0; pub const errSecUserCanceled: OSStatus = -128; pub const errSecItemNotFound: OSStatus = -25300; } #[cfg(test)] mod tests { use crate::ClipboardItem; use super::*; #[test] fn test_clipboard() { let platform = build_platform(); assert_eq!(platform.read_from_clipboard(), None); let item = ClipboardItem::new("1".to_string()); platform.write_to_clipboard(item.clone()); assert_eq!(platform.read_from_clipboard(), Some(item)); let item = ClipboardItem::new("2".to_string()).with_metadata(vec![3, 4]); platform.write_to_clipboard(item.clone()); assert_eq!(platform.read_from_clipboard(), Some(item)); let text_from_other_app = "text from other app"; unsafe { let bytes = NSData::dataWithBytes_length_( nil, text_from_other_app.as_ptr() as *const c_void, text_from_other_app.len() as u64, ); platform .0 .lock() .pasteboard .setData_forType(bytes, NSPasteboardTypeString); } assert_eq!( platform.read_from_clipboard(), Some(ClipboardItem::new(text_from_other_app.to_string())) ); } fn build_platform() -> MacPlatform { let platform = MacPlatform::new(); platform.0.lock().pasteboard = unsafe { NSPasteboard::pasteboardWithUniqueName(nil) }; platform } }