#[cfg(not(any(target_os = "android", target_os = "ios")))] use crate::client::get_key_state; use crate::common::GrabState; #[cfg(feature = "flutter")] use crate::flutter::FlutterHandler; #[cfg(not(feature = "flutter"))] use crate::ui::remote::SciterHandler; use crate::ui_session_interface::Session; use hbb_common::{log, message_proto::*}; use rdev::{Event, EventType, Key}; use std::{ collections::{HashMap, HashSet}, sync::{ atomic::{AtomicBool, Ordering}, Arc, Mutex, }, time::SystemTime, }; static mut IS_ALT_GR: bool = false; static KEYBOARD_HOOKED: AtomicBool = AtomicBool::new(false); #[cfg(feature = "flutter")] lazy_static::lazy_static! { static ref CUR_SESSION: Arc>>> = Default::default(); } #[cfg(not(feature = "flutter"))] lazy_static::lazy_static! { static ref CUR_SESSION: Arc>>> = Default::default(); } lazy_static::lazy_static! { static ref TO_RELEASE: Arc>> = Arc::new(Mutex::new(HashSet::::new())); static ref MODIFIERS_STATE: Mutex> = { let mut m = HashMap::new(); m.insert(Key::ShiftLeft, false); m.insert(Key::ShiftRight, false); m.insert(Key::ControlLeft, false); m.insert(Key::ControlRight, false); m.insert(Key::Alt, false); m.insert(Key::AltGr, false); m.insert(Key::MetaLeft, false); m.insert(Key::MetaRight, false); Mutex::new(m) }; } pub fn set_cur_session(session: Session) { *CUR_SESSION.lock().unwrap() = Some(session); } pub mod client { use super::*; pub fn get_keyboard_mode() -> String { if let Some(handler) = CUR_SESSION.lock().unwrap().as_ref() { handler.get_keyboard_mode() } else { "legacy".to_string() } } pub fn start_grab_loop() { super::start_grab_loop(); } pub fn change_grab_status(state: GrabState) { match state { GrabState::Ready => {} GrabState::Run => { #[cfg(any(target_os = "windows", target_os = "macos"))] KEYBOARD_HOOKED.swap(true, Ordering::SeqCst); #[cfg(target_os = "linux")] rdev::enable_grab().ok(); } GrabState::Wait => { release_remote_keys(); #[cfg(any(target_os = "windows", target_os = "macos"))] KEYBOARD_HOOKED.swap(false, Ordering::SeqCst); #[cfg(target_os = "linux")] rdev::disable_grab().ok(); } GrabState::Exit => { #[cfg(target_os = "linux")] rdev::exit_grab_listen().ok(); } } } pub fn process_event(event: &Event) { if is_long_press(&event) { return; } let key_event = event_to_key_event(&event); send_key_event(&key_event); } pub fn get_modifiers_state( alt: bool, ctrl: bool, shift: bool, command: bool, ) -> (bool, bool, bool, bool) { let modifiers_lock = MODIFIERS_STATE.lock().unwrap(); let ctrl = *modifiers_lock.get(&Key::ControlLeft).unwrap() || *modifiers_lock.get(&Key::ControlRight).unwrap() || ctrl; let shift = *modifiers_lock.get(&Key::ShiftLeft).unwrap() || *modifiers_lock.get(&Key::ShiftRight).unwrap() || shift; let command = *modifiers_lock.get(&Key::MetaLeft).unwrap() || *modifiers_lock.get(&Key::MetaRight).unwrap() || command; let alt = *modifiers_lock.get(&Key::Alt).unwrap() || *modifiers_lock.get(&Key::AltGr).unwrap() || alt; (alt, ctrl, shift, command) } pub fn legacy_modifiers( key_event: &mut KeyEvent, alt: bool, ctrl: bool, shift: bool, command: bool, ) { if alt && !crate::is_control_key(&key_event, &ControlKey::Alt) && !crate::is_control_key(&key_event, &ControlKey::RAlt) { key_event.modifiers.push(ControlKey::Alt.into()); } if shift && !crate::is_control_key(&key_event, &ControlKey::Shift) && !crate::is_control_key(&key_event, &ControlKey::RShift) { key_event.modifiers.push(ControlKey::Shift.into()); } if ctrl && !crate::is_control_key(&key_event, &ControlKey::Control) && !crate::is_control_key(&key_event, &ControlKey::RControl) { key_event.modifiers.push(ControlKey::Control.into()); } if command && !crate::is_control_key(&key_event, &ControlKey::Meta) && !crate::is_control_key(&key_event, &ControlKey::RWin) { key_event.modifiers.push(ControlKey::Meta.into()); } } pub fn lock_screen() { let mut key_event = KeyEvent::new(); key_event.set_control_key(ControlKey::LockScreen); key_event.down = true; key_event.mode = KeyboardMode::Legacy.into(); send_key_event(&key_event); } pub fn ctrl_alt_del() { let mut key_event = KeyEvent::new(); if get_peer_platform() == "Windows" { key_event.set_control_key(ControlKey::CtrlAltDel); key_event.down = true; } else { key_event.set_control_key(ControlKey::Delete); legacy_modifiers(&mut key_event, true, true, false, false); key_event.press = true; } key_event.mode = KeyboardMode::Legacy.into(); send_key_event(&key_event); } } pub fn start_grab_loop() { #[cfg(any(target_os = "windows", target_os = "macos"))] std::thread::spawn(move || { let try_handle_keyboard = move |event: Event, key: Key, is_press: bool| -> Option { // fix #2211:CAPS LOCK don't work if key == Key::CapsLock || key == Key::NumLock { return Some(event); } if KEYBOARD_HOOKED.load(Ordering::SeqCst) { client::process_event(&event); if is_press { return None; } else { return Some(event); } } else { return Some(event); } }; let func = move |event: Event| match event.event_type { EventType::KeyPress(key) => try_handle_keyboard(event, key, true), EventType::KeyRelease(key) => try_handle_keyboard(event, key, false), _ => Some(event), }; if let Err(error) = rdev::grab(func) { log::error!("rdev Error: {:?}", error) } }); #[cfg(target_os = "linux")] rdev::start_grab_listen(move |event: Event| match event.event_type { EventType::KeyPress(key) | EventType::KeyRelease(key) => { if let Key::Unknown(keycode) = key { log::error!("rdev get unknown key, keycode is : {:?}", keycode); } else { client::process_event(&event); } None } _ => Some(event), }); } pub fn is_long_press(event: &Event) -> bool { let keys = MODIFIERS_STATE.lock().unwrap(); match event.event_type { EventType::KeyPress(k) => { if let Some(&state) = keys.get(&k) { if state == true { return true; } } } _ => {} }; return false; } pub fn release_remote_keys() { // todo!: client quit suddenly, how to release keys? let to_release = TO_RELEASE.lock().unwrap().clone(); TO_RELEASE.lock().unwrap().clear(); for key in to_release { let event_type = EventType::KeyRelease(key); let event = event_type_to_event(event_type); client::process_event(&event); } } pub fn get_keyboard_mode_enum() -> KeyboardMode { match client::get_keyboard_mode().as_str() { "map" => KeyboardMode::Map, "translate" => KeyboardMode::Translate, _ => KeyboardMode::Legacy, } } #[cfg(not(any(target_os = "android", target_os = "ios")))] pub fn add_numlock_capslock_state(key_event: &mut KeyEvent) { if get_key_state(enigo::Key::CapsLock) { key_event.modifiers.push(ControlKey::CapsLock.into()); } if get_key_state(enigo::Key::NumLock) { key_event.modifiers.push(ControlKey::NumLock.into()); } } #[cfg(not(any(target_os = "android", target_os = "ios")))] pub fn convert_numpad_keys(key: Key) -> Key { if get_key_state(enigo::Key::NumLock) { return key; } match key { Key::Kp0 => Key::Insert, Key::KpDecimal => Key::Delete, Key::Kp1 => Key::End, Key::Kp2 => Key::DownArrow, Key::Kp3 => Key::PageDown, Key::Kp4 => Key::LeftArrow, Key::Kp5 => Key::Clear, Key::Kp6 => Key::RightArrow, Key::Kp7 => Key::Home, Key::Kp8 => Key::UpArrow, Key::Kp9 => Key::PageUp, _ => key, } } fn update_modifiers_state(event: &Event) { // for mouse let mut keys = MODIFIERS_STATE.lock().unwrap(); match event.event_type { EventType::KeyPress(k) => { if keys.contains_key(&k) { keys.insert(k, true); } } EventType::KeyRelease(k) => { if keys.contains_key(&k) { keys.insert(k, false); } } _ => {} }; } pub fn event_to_key_event(event: &Event) -> KeyEvent { let mut key_event = KeyEvent::new(); update_modifiers_state(event); match event.event_type { EventType::KeyPress(key) => { TO_RELEASE.lock().unwrap().insert(key); } EventType::KeyRelease(key) => { TO_RELEASE.lock().unwrap().remove(&key); } _ => {} } let keyboard_mode = get_keyboard_mode_enum(); key_event.mode = keyboard_mode.into(); match keyboard_mode { KeyboardMode::Map => { map_keyboard_mode(event, &mut key_event); } KeyboardMode::Translate => { translate_keyboard_mode(event, &mut key_event); } _ => { #[cfg(not(any(target_os = "android", target_os = "ios")))] legacy_keyboard_mode(event, &mut key_event); } }; #[cfg(not(any(target_os = "android", target_os = "ios")))] add_numlock_capslock_state(&mut key_event); return key_event; } pub fn event_type_to_event(event_type: EventType) -> Event { Event { event_type, time: SystemTime::now(), name: None, code: 0, scan_code: 0, } } pub fn send_key_event(key_event: &KeyEvent) { if let Some(handler) = CUR_SESSION.lock().unwrap().as_ref() { handler.send_key_event(key_event); } } pub fn get_peer_platform() -> String { if let Some(handler) = CUR_SESSION.lock().unwrap().as_ref() { handler.peer_platform() } else { log::error!("get peer platform error"); "Windows".to_string() } } #[cfg(not(any(target_os = "android", target_os = "ios")))] pub fn legacy_keyboard_mode(event: &Event, key_event: &mut KeyEvent) { // legacy mode(0): Generate characters locally, look for keycode on other side. let (mut key, down_or_up) = match event.event_type { EventType::KeyPress(key) => (key, true), EventType::KeyRelease(key) => (key, false), _ => { return; } }; let peer = get_peer_platform(); let is_win = peer == "Windows"; if is_win { key = convert_numpad_keys(key); } let alt = get_key_state(enigo::Key::Alt); #[cfg(windows)] let ctrl = { let mut tmp = get_key_state(enigo::Key::Control) || get_key_state(enigo::Key::RightControl); unsafe { if IS_ALT_GR { if alt || key == Key::AltGr { if tmp { tmp = false; } } else { IS_ALT_GR = false; } } } tmp }; #[cfg(not(windows))] let ctrl = get_key_state(enigo::Key::Control) || get_key_state(enigo::Key::RightControl); let shift = get_key_state(enigo::Key::Shift) || get_key_state(enigo::Key::RightShift); #[cfg(windows)] let command = crate::platform::windows::get_win_key_state(); #[cfg(not(windows))] let command = get_key_state(enigo::Key::Meta); let control_key = match key { Key::Alt => Some(ControlKey::Alt), Key::AltGr => Some(ControlKey::RAlt), Key::Backspace => Some(ControlKey::Backspace), Key::ControlLeft => { // when pressing AltGr, an extra VK_LCONTROL with a special // scancode with bit 9 set is sent, let's ignore this. #[cfg(windows)] if event.scan_code & 0x200 != 0 { unsafe { IS_ALT_GR = true; } return; } Some(ControlKey::Control) } Key::ControlRight => Some(ControlKey::RControl), Key::DownArrow => Some(ControlKey::DownArrow), Key::Escape => Some(ControlKey::Escape), Key::F1 => Some(ControlKey::F1), Key::F10 => Some(ControlKey::F10), Key::F11 => Some(ControlKey::F11), Key::F12 => Some(ControlKey::F12), Key::F2 => Some(ControlKey::F2), Key::F3 => Some(ControlKey::F3), Key::F4 => Some(ControlKey::F4), Key::F5 => Some(ControlKey::F5), Key::F6 => Some(ControlKey::F6), Key::F7 => Some(ControlKey::F7), Key::F8 => Some(ControlKey::F8), Key::F9 => Some(ControlKey::F9), Key::LeftArrow => Some(ControlKey::LeftArrow), Key::MetaLeft => Some(ControlKey::Meta), Key::MetaRight => Some(ControlKey::RWin), Key::Return => Some(ControlKey::Return), Key::RightArrow => Some(ControlKey::RightArrow), Key::ShiftLeft => Some(ControlKey::Shift), Key::ShiftRight => Some(ControlKey::RShift), Key::Space => Some(ControlKey::Space), Key::Tab => Some(ControlKey::Tab), Key::UpArrow => Some(ControlKey::UpArrow), Key::Delete => { if is_win && ctrl && alt { client::ctrl_alt_del(); return; } Some(ControlKey::Delete) } Key::Apps => Some(ControlKey::Apps), Key::Cancel => Some(ControlKey::Cancel), Key::Clear => Some(ControlKey::Clear), Key::Kana => Some(ControlKey::Kana), Key::Hangul => Some(ControlKey::Hangul), Key::Junja => Some(ControlKey::Junja), Key::Final => Some(ControlKey::Final), Key::Hanja => Some(ControlKey::Hanja), Key::Hanji => Some(ControlKey::Hanja), Key::Convert => Some(ControlKey::Convert), Key::Print => Some(ControlKey::Print), Key::Select => Some(ControlKey::Select), Key::Execute => Some(ControlKey::Execute), Key::PrintScreen => Some(ControlKey::Snapshot), Key::Help => Some(ControlKey::Help), Key::Sleep => Some(ControlKey::Sleep), Key::Separator => Some(ControlKey::Separator), Key::KpReturn => Some(ControlKey::NumpadEnter), Key::Kp0 => Some(ControlKey::Numpad0), Key::Kp1 => Some(ControlKey::Numpad1), Key::Kp2 => Some(ControlKey::Numpad2), Key::Kp3 => Some(ControlKey::Numpad3), Key::Kp4 => Some(ControlKey::Numpad4), Key::Kp5 => Some(ControlKey::Numpad5), Key::Kp6 => Some(ControlKey::Numpad6), Key::Kp7 => Some(ControlKey::Numpad7), Key::Kp8 => Some(ControlKey::Numpad8), Key::Kp9 => Some(ControlKey::Numpad9), Key::KpDivide => Some(ControlKey::Divide), Key::KpMultiply => Some(ControlKey::Multiply), Key::KpDecimal => Some(ControlKey::Decimal), Key::KpMinus => Some(ControlKey::Subtract), Key::KpPlus => Some(ControlKey::Add), Key::CapsLock | Key::NumLock | Key::ScrollLock => { return; } Key::Home => Some(ControlKey::Home), Key::End => Some(ControlKey::End), Key::Insert => Some(ControlKey::Insert), Key::PageUp => Some(ControlKey::PageUp), Key::PageDown => Some(ControlKey::PageDown), Key::Pause => Some(ControlKey::Pause), _ => None, }; if let Some(k) = control_key { key_event.set_control_key(k); } else { let mut chr = match event.name { Some(ref s) => { if s.len() <= 2 { // exclude chinese characters s.chars().next().unwrap_or('\0') } else { '\0' } } _ => '\0', }; if chr == '·' { // special for Chinese chr = '`'; } if chr == '\0' { chr = match key { Key::Num1 => '1', Key::Num2 => '2', Key::Num3 => '3', Key::Num4 => '4', Key::Num5 => '5', Key::Num6 => '6', Key::Num7 => '7', Key::Num8 => '8', Key::Num9 => '9', Key::Num0 => '0', Key::KeyA => 'a', Key::KeyB => 'b', Key::KeyC => 'c', Key::KeyD => 'd', Key::KeyE => 'e', Key::KeyF => 'f', Key::KeyG => 'g', Key::KeyH => 'h', Key::KeyI => 'i', Key::KeyJ => 'j', Key::KeyK => 'k', Key::KeyL => 'l', Key::KeyM => 'm', Key::KeyN => 'n', Key::KeyO => 'o', Key::KeyP => 'p', Key::KeyQ => 'q', Key::KeyR => 'r', Key::KeyS => 's', Key::KeyT => 't', Key::KeyU => 'u', Key::KeyV => 'v', Key::KeyW => 'w', Key::KeyX => 'x', Key::KeyY => 'y', Key::KeyZ => 'z', Key::Comma => ',', Key::Dot => '.', Key::SemiColon => ';', Key::Quote => '\'', Key::LeftBracket => '[', Key::RightBracket => ']', Key::Slash => '/', Key::BackSlash => '\\', Key::Minus => '-', Key::Equal => '=', Key::BackQuote => '`', _ => '\0', } } if chr != '\0' { if chr == 'l' && is_win && command { client::lock_screen(); return; } key_event.set_chr(chr as _); } else { log::error!("Unknown key {:?}", &event); return; } } let (alt, ctrl, shift, command) = client::get_modifiers_state(alt, ctrl, shift, command); client::legacy_modifiers(key_event, alt, ctrl, shift, command); if down_or_up == true { key_event.down = true; } } pub fn map_keyboard_mode(event: &Event, key_event: &mut KeyEvent) { let peer = get_peer_platform(); let key = match event.event_type { EventType::KeyPress(key) => { key_event.down = true; key } EventType::KeyRelease(key) => { key_event.down = false; key } _ => return, }; let keycode: u32 = match peer.as_str() { "Windows" => rdev::win_keycode_from_key(key).unwrap_or_default().into(), "MacOS" => rdev::macos_keycode_from_key(key).unwrap_or_default().into(), _ => rdev::linux_keycode_from_key(key).unwrap_or_default().into(), }; key_event.set_chr(keycode); } pub fn translate_keyboard_mode(_event: &Event, _key_event: &mut KeyEvent) {}