#[cfg(not(any(target_os = "android", target_os = "ios")))] use crate::client::get_key_state; use crate::client::io_loop::Remote; use crate::client::{ check_if_retry, handle_hash, handle_login_from_ui, handle_test_delay, input_os_password, load_config, send_mouse, start_video_audio_threads, FileManager, Key, LoginConfigHandler, QualityStatus, KEY_MAP, SERVER_KEYBOARD_ENABLED, }; use crate::common::IS_X11; use crate::{client::Data, client::Interface}; use async_trait::async_trait; use hbb_common::config::{Config, LocalConfig, PeerConfig}; use hbb_common::rendezvous_proto::ConnType; use hbb_common::tokio::{self, sync::mpsc}; #[cfg(not(any(target_os = "android", target_os = "ios")))] use rdev::Keyboard as RdevKeyboard; use rdev::{Event, EventType, EventType::*, Key as RdevKey, KeyboardState}; use hbb_common::{allow_err, message_proto::*}; use hbb_common::{fs, get_version_number, log, Stream}; use std::collections::{HashMap, HashSet}; use std::ops::{Deref, DerefMut}; use std::sync::atomic::{AtomicBool, AtomicUsize, Ordering}; use std::sync::{Arc, Mutex, RwLock}; /// IS_IN KEYBOARD_HOOKED sciter only pub static IS_IN: AtomicBool = AtomicBool::new(false); pub static KEYBOARD_HOOKED: AtomicBool = AtomicBool::new(true); pub static HOTKEY_HOOK_ENABLED: AtomicBool = AtomicBool::new(false); #[cfg(target_os = "linux")] use rdev::IS_GRAB; #[cfg(windows)] static mut IS_ALT_GR: bool = false; lazy_static::lazy_static! { static ref TO_RELEASE: Arc>> = Arc::new(Mutex::new(HashSet::::new())); } #[cfg(not(any(target_os = "android", target_os = "ios")))] lazy_static::lazy_static! { static ref KEYBOARD: Arc> = Arc::new(Mutex::new(RdevKeyboard::new().unwrap())); } lazy_static::lazy_static! { static ref MUTEX_SPECIAL_KEYS: Mutex> = { let mut m = HashMap::new(); m.insert(RdevKey::ShiftLeft, false); m.insert(RdevKey::ShiftRight, false); m.insert(RdevKey::ControlLeft, false); m.insert(RdevKey::ControlRight, false); m.insert(RdevKey::Alt, false); m.insert(RdevKey::AltGr, false); m.insert(RdevKey::MetaLeft, false); m.insert(RdevKey::MetaRight, false); Mutex::new(m) }; } #[derive(Clone, Default)] pub struct Session { pub id: String, pub password: String, pub args: Vec, pub lc: Arc>, pub sender: Arc>>>, pub thread: Arc>>>, pub ui_handler: T, } impl Session { pub fn get_view_style(&self) -> String { self.lc.read().unwrap().view_style.clone() } pub fn get_image_quality(&self) -> String { self.lc.read().unwrap().image_quality.clone() } pub fn get_custom_image_quality(&self) -> Vec { self.lc.read().unwrap().custom_image_quality.clone() } pub fn get_keyboard_mode(&self) -> String { global_get_keyboard_mode() } pub fn save_keyboard_mode(&self, value: String) { global_save_keyboard_mode(value); } pub fn save_view_style(&mut self, value: String) { self.lc.write().unwrap().save_view_style(value); } pub fn toggle_option(&mut self, name: String) { let msg = self.lc.write().unwrap().toggle_option(name.clone()); if name == "enable-file-transfer" { self.send(Data::ToggleClipboardFile); } if let Some(msg) = msg { self.send(Data::Message(msg)); } } pub fn get_toggle_option(&self, name: String) -> bool { self.lc.read().unwrap().get_toggle_option(&name) } pub fn is_privacy_mode_supported(&self) -> bool { self.lc.read().unwrap().is_privacy_mode_supported() } pub fn refresh_video(&self) { self.send(Data::Message(LoginConfigHandler::refresh())); } pub fn record_screen(&self, start: bool, w: i32, h: i32) { self.send(Data::RecordScreen(start, w, h, self.id.clone())); } pub fn save_custom_image_quality(&mut self, custom_image_quality: i32) { let msg = self .lc .write() .unwrap() .save_custom_image_quality(custom_image_quality); self.send(Data::Message(msg)); } pub fn save_image_quality(&mut self, value: String) { let msg = self.lc.write().unwrap().save_image_quality(value); if let Some(msg) = msg { self.send(Data::Message(msg)); } } pub fn set_custom_fps(&mut self, custom_fps: i32) { let msg = self.lc.write().unwrap().set_custom_fps(custom_fps); self.send(Data::Message(msg)); } pub fn get_remember(&self) -> bool { self.lc.read().unwrap().remember } pub fn set_write_override( &mut self, job_id: i32, file_num: i32, is_override: bool, remember: bool, is_upload: bool, ) -> bool { self.send(Data::SetConfirmOverrideFile(( job_id, file_num, is_override, remember, is_upload, ))); true } pub fn supported_hwcodec(&self) -> (bool, bool) { #[cfg(any(feature = "hwcodec", feature = "mediacodec"))] { let decoder = scrap::codec::Decoder::video_codec_state(&self.id); let mut h264 = decoder.score_h264 > 0; let mut h265 = decoder.score_h265 > 0; let (encoding_264, encoding_265) = self .lc .read() .unwrap() .supported_encoding .unwrap_or_default(); h264 = h264 && encoding_264; h265 = h265 && encoding_265; return (h264, h265); } (false, false) } pub fn change_prefer_codec(&self) { let msg = self.lc.write().unwrap().change_prefer_codec(); self.send(Data::Message(msg)); } pub fn restart_remote_device(&self) { let mut lc = self.lc.write().unwrap(); lc.restarting_remote_device = true; let msg = lc.restart_remote_device(); self.send(Data::Message(msg)); } pub fn get_audit_server(&self) -> String { if self.lc.read().unwrap().conn_id <= 0 || LocalConfig::get_option("access_token").is_empty() { return "".to_owned(); } crate::get_audit_server( Config::get_option("api-server"), Config::get_option("custom-rendezvous-server"), ) } pub fn send_note(&self, note: String) { let url = self.get_audit_server(); let id = self.id.clone(); let conn_id = self.lc.read().unwrap().conn_id; std::thread::spawn(move || { send_note(url, id, conn_id, note); }); } pub fn is_xfce(&self) -> bool { crate::platform::is_xfce() } pub fn remove_port_forward(&self, port: i32) { let mut config = self.load_config(); config.port_forwards = config .port_forwards .drain(..) .filter(|x| x.0 != port) .collect(); self.save_config(config); self.send(Data::RemovePortForward(port)); } pub fn add_port_forward(&mut self, port: i32, remote_host: String, remote_port: i32) { let mut config = self.load_config(); if config .port_forwards .iter() .filter(|x| x.0 == port) .next() .is_some() { return; } let pf = (port, remote_host, remote_port); config.port_forwards.push(pf.clone()); self.save_config(config); self.send(Data::AddPortForward(pf)); } pub fn get_id(&self) -> String { self.id.clone() } pub fn get_option(&self, k: String) -> String { if k.eq("remote_dir") { return self.lc.read().unwrap().get_remote_dir(); } self.lc.read().unwrap().get_option(&k) } pub fn set_option(&self, k: String, mut v: String) { let mut lc = self.lc.write().unwrap(); if k.eq("remote_dir") { v = lc.get_all_remote_dir(v); } lc.set_option(k, v); } #[inline] pub fn load_config(&self) -> PeerConfig { load_config(&self.id) } #[inline] pub(super) fn save_config(&self, config: PeerConfig) { self.lc.write().unwrap().save_config(config); } pub fn is_restarting_remote_device(&self) -> bool { self.lc.read().unwrap().restarting_remote_device } #[inline] pub fn peer_platform(&self) -> String { self.lc.read().unwrap().info.platform.clone() } pub fn ctrl_alt_del(&self) { if self.peer_platform() == "Windows" { let mut key_event = KeyEvent::new(); key_event.set_control_key(ControlKey::CtrlAltDel); // todo key_event.down = true; self.send_key_event(key_event, KeyboardMode::Legacy); } else { let mut key_event = KeyEvent::new(); key_event.set_control_key(ControlKey::Delete); self.legacy_modifiers(&mut key_event, true, true, false, false); // todo key_event.press = true; self.send_key_event(key_event, KeyboardMode::Legacy); } } fn send_key_event(&self, mut evt: KeyEvent, keyboard_mode: KeyboardMode) { // mode: legacy(0), map(1), translate(2), auto(3) evt.mode = keyboard_mode.into(); let mut msg_out = Message::new(); msg_out.set_key_event(evt); self.send(Data::Message(msg_out)); } #[allow(dead_code)] fn convert_numpad_keys(&self, key: RdevKey) -> RdevKey { #[cfg(not(any(target_os = "android", target_os = "ios")))] if get_key_state(enigo::Key::NumLock) { return key; } match key { RdevKey::Kp0 => RdevKey::Insert, RdevKey::KpDecimal => RdevKey::Delete, RdevKey::Kp1 => RdevKey::End, RdevKey::Kp2 => RdevKey::DownArrow, RdevKey::Kp3 => RdevKey::PageDown, RdevKey::Kp4 => RdevKey::LeftArrow, RdevKey::Kp5 => RdevKey::Clear, RdevKey::Kp6 => RdevKey::RightArrow, RdevKey::Kp7 => RdevKey::Home, RdevKey::Kp8 => RdevKey::UpArrow, RdevKey::Kp9 => RdevKey::PageUp, _ => key, } } fn map_keyboard_mode(&self, down_or_up: bool, key: RdevKey, _evt: Option) { // map mode(1): Send keycode according to the peer platform. #[cfg(target_os = "windows")] let key = if let Some(e) = _evt { rdev::get_win_key(e.code.into(), e.scan_code) } else { key }; let peer = self.peer_platform(); let mut key_event = KeyEvent::new(); // According to peer platform. let keycode: u32 = if peer == "Linux" { rdev::linux_keycode_from_key(key).unwrap_or_default().into() } else if peer == "Windows" { rdev::win_keycode_from_key(key).unwrap_or_default().into() } else { // Without Clear Key on Mac OS if key == rdev::Key::Clear { return; } rdev::macos_keycode_from_key(key).unwrap_or_default().into() }; key_event.set_chr(keycode); key_event.down = down_or_up; #[cfg(not(any(target_os = "android", target_os = "ios")))] if get_key_state(enigo::Key::CapsLock) { key_event.modifiers.push(ControlKey::CapsLock.into()); } #[cfg(not(any(target_os = "android", target_os = "ios")))] if get_key_state(enigo::Key::NumLock) { key_event.modifiers.push(ControlKey::NumLock.into()); } self.send_key_event(key_event, KeyboardMode::Map); } #[cfg(not(any(target_os = "android", target_os = "ios")))] fn translate_keyboard_mode(&self, down_or_up: bool, key: RdevKey, evt: Event) { // translate mode(2): locally generated characters are send to the peer. // get char let string = match KEYBOARD.lock() { Ok(mut keyboard) => { let string = keyboard.add(&evt.event_type).unwrap_or_default(); if keyboard.is_dead() && string == "" && down_or_up == true { return; } string } Err(_) => "".to_owned(), }; // maybe two string let chars = if string == "" { None } else { let chars: Vec = string.chars().collect(); Some(chars) }; if let Some(chars) = chars { for chr in chars { let mut key_event = KeyEvent::new(); key_event.set_chr(chr as _); key_event.down = true; key_event.press = false; self.send_key_event(key_event, KeyboardMode::Translate); } } else { let success = if down_or_up == true { TO_RELEASE.lock().unwrap().insert(key) } else { TO_RELEASE.lock().unwrap().remove(&key) }; // AltGr && LeftControl(SpecialKey) without action if key == RdevKey::AltGr || evt.scan_code == 541 { return; } if success { self.map_keyboard_mode(down_or_up, key, None); } } } fn legacy_modifiers( &self, 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()); } #[cfg(not(any(target_os = "android", target_os = "ios")))] if get_key_state(enigo::Key::CapsLock) { key_event.modifiers.push(ControlKey::CapsLock.into()); } #[cfg(not(any(target_os = "android", target_os = "ios")))] if self.peer_platform() != "Mac OS" { if get_key_state(enigo::Key::NumLock) { key_event.modifiers.push(ControlKey::NumLock.into()); } } } #[cfg(not(any(target_os = "android", target_os = "ios")))] fn legacy_keyboard_mode(&self, down_or_up: bool, key: RdevKey, evt: Event) { // legacy mode(0): Generate characters locally, look for keycode on other side. let peer = self.peer_platform(); let is_win = peer == "Windows"; 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 == RdevKey::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 { RdevKey::Alt => Some(ControlKey::Alt), RdevKey::AltGr => Some(ControlKey::RAlt), RdevKey::Backspace => Some(ControlKey::Backspace), RdevKey::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 evt.scan_code & 0x200 != 0 { unsafe { IS_ALT_GR = true; } return; } Some(ControlKey::Control) } RdevKey::ControlRight => Some(ControlKey::RControl), RdevKey::DownArrow => Some(ControlKey::DownArrow), RdevKey::Escape => Some(ControlKey::Escape), RdevKey::F1 => Some(ControlKey::F1), RdevKey::F10 => Some(ControlKey::F10), RdevKey::F11 => Some(ControlKey::F11), RdevKey::F12 => Some(ControlKey::F12), RdevKey::F2 => Some(ControlKey::F2), RdevKey::F3 => Some(ControlKey::F3), RdevKey::F4 => Some(ControlKey::F4), RdevKey::F5 => Some(ControlKey::F5), RdevKey::F6 => Some(ControlKey::F6), RdevKey::F7 => Some(ControlKey::F7), RdevKey::F8 => Some(ControlKey::F8), RdevKey::F9 => Some(ControlKey::F9), RdevKey::LeftArrow => Some(ControlKey::LeftArrow), RdevKey::MetaLeft => Some(ControlKey::Meta), RdevKey::MetaRight => Some(ControlKey::RWin), RdevKey::Return => Some(ControlKey::Return), RdevKey::RightArrow => Some(ControlKey::RightArrow), RdevKey::ShiftLeft => Some(ControlKey::Shift), RdevKey::ShiftRight => Some(ControlKey::RShift), RdevKey::Space => Some(ControlKey::Space), RdevKey::Tab => Some(ControlKey::Tab), RdevKey::UpArrow => Some(ControlKey::UpArrow), RdevKey::Delete => { if is_win && ctrl && alt { self.ctrl_alt_del(); return; } Some(ControlKey::Delete) } RdevKey::Apps => Some(ControlKey::Apps), RdevKey::Cancel => Some(ControlKey::Cancel), RdevKey::Clear => Some(ControlKey::Clear), RdevKey::Kana => Some(ControlKey::Kana), RdevKey::Hangul => Some(ControlKey::Hangul), RdevKey::Junja => Some(ControlKey::Junja), RdevKey::Final => Some(ControlKey::Final), RdevKey::Hanja => Some(ControlKey::Hanja), RdevKey::Hanji => Some(ControlKey::Hanja), RdevKey::Convert => Some(ControlKey::Convert), RdevKey::Print => Some(ControlKey::Print), RdevKey::Select => Some(ControlKey::Select), RdevKey::Execute => Some(ControlKey::Execute), RdevKey::PrintScreen => Some(ControlKey::Snapshot), RdevKey::Help => Some(ControlKey::Help), RdevKey::Sleep => Some(ControlKey::Sleep), RdevKey::Separator => Some(ControlKey::Separator), RdevKey::KpReturn => Some(ControlKey::NumpadEnter), RdevKey::Kp0 => Some(ControlKey::Numpad0), RdevKey::Kp1 => Some(ControlKey::Numpad1), RdevKey::Kp2 => Some(ControlKey::Numpad2), RdevKey::Kp3 => Some(ControlKey::Numpad3), RdevKey::Kp4 => Some(ControlKey::Numpad4), RdevKey::Kp5 => Some(ControlKey::Numpad5), RdevKey::Kp6 => Some(ControlKey::Numpad6), RdevKey::Kp7 => Some(ControlKey::Numpad7), RdevKey::Kp8 => Some(ControlKey::Numpad8), RdevKey::Kp9 => Some(ControlKey::Numpad9), RdevKey::KpDivide => Some(ControlKey::Divide), RdevKey::KpMultiply => Some(ControlKey::Multiply), RdevKey::KpDecimal => Some(ControlKey::Decimal), RdevKey::KpMinus => Some(ControlKey::Subtract), RdevKey::KpPlus => Some(ControlKey::Add), RdevKey::CapsLock | RdevKey::NumLock | RdevKey::ScrollLock => { return; } RdevKey::Home => Some(ControlKey::Home), RdevKey::End => Some(ControlKey::End), RdevKey::Insert => Some(ControlKey::Insert), RdevKey::PageUp => Some(ControlKey::PageUp), RdevKey::PageDown => Some(ControlKey::PageDown), RdevKey::Pause => Some(ControlKey::Pause), _ => None, }; let mut key_event = KeyEvent::new(); if let Some(k) = control_key { key_event.set_control_key(k); } else { let mut chr = match evt.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 { RdevKey::Num1 => '1', RdevKey::Num2 => '2', RdevKey::Num3 => '3', RdevKey::Num4 => '4', RdevKey::Num5 => '5', RdevKey::Num6 => '6', RdevKey::Num7 => '7', RdevKey::Num8 => '8', RdevKey::Num9 => '9', RdevKey::Num0 => '0', RdevKey::KeyA => 'a', RdevKey::KeyB => 'b', RdevKey::KeyC => 'c', RdevKey::KeyD => 'd', RdevKey::KeyE => 'e', RdevKey::KeyF => 'f', RdevKey::KeyG => 'g', RdevKey::KeyH => 'h', RdevKey::KeyI => 'i', RdevKey::KeyJ => 'j', RdevKey::KeyK => 'k', RdevKey::KeyL => 'l', RdevKey::KeyM => 'm', RdevKey::KeyN => 'n', RdevKey::KeyO => 'o', RdevKey::KeyP => 'p', RdevKey::KeyQ => 'q', RdevKey::KeyR => 'r', RdevKey::KeyS => 's', RdevKey::KeyT => 't', RdevKey::KeyU => 'u', RdevKey::KeyV => 'v', RdevKey::KeyW => 'w', RdevKey::KeyX => 'x', RdevKey::KeyY => 'y', RdevKey::KeyZ => 'z', RdevKey::Comma => ',', RdevKey::Dot => '.', RdevKey::SemiColon => ';', RdevKey::Quote => '\'', RdevKey::LeftBracket => '[', RdevKey::RightBracket => ']', RdevKey::Slash => '/', RdevKey::BackSlash => '\\', RdevKey::Minus => '-', RdevKey::Equal => '=', RdevKey::BackQuote => '`', _ => '\0', } } if chr != '\0' { if chr == 'l' && is_win && command { self.lock_screen(); return; } key_event.set_chr(chr as _); } else { log::error!("Unknown key {:?}", evt); return; } } self.legacy_modifiers(&mut key_event, alt, ctrl, shift, command); if down_or_up == true { key_event.down = true; } self.send_key_event(key_event, KeyboardMode::Legacy) } fn key_down_or_up(&self, down_or_up: bool, key: RdevKey, evt: Event) { // Call different functions according to keyboard mode. let mode = match self.get_keyboard_mode().as_str() { "map" => KeyboardMode::Map, "legacy" => KeyboardMode::Legacy, "translate" => KeyboardMode::Translate, _ => KeyboardMode::Legacy, }; #[cfg(not(windows))] let key = self.convert_numpad_keys(key); match mode { KeyboardMode::Map => { if down_or_up == true { TO_RELEASE.lock().unwrap().insert(key); } else { TO_RELEASE.lock().unwrap().remove(&key); } self.map_keyboard_mode(down_or_up, key, Some(evt)); } KeyboardMode::Legacy => { #[cfg(not(any(target_os = "android", target_os = "ios")))] self.legacy_keyboard_mode(down_or_up, key, evt) } KeyboardMode::Translate => { #[cfg(not(any(target_os = "android", target_os = "ios")))] self.translate_keyboard_mode(down_or_up, key, evt); } _ => { #[cfg(not(any(target_os = "android", target_os = "ios")))] self.legacy_keyboard_mode(down_or_up, key, evt) } } } pub fn get_platform(&self, is_remote: bool) -> String { if is_remote { self.peer_platform() } else { whoami::platform().to_string() } } pub fn get_path_sep(&self, is_remote: bool) -> &'static str { let p = self.get_platform(is_remote); if &p == "Windows" { return "\\"; } else { return "/"; } } pub fn input_os_password(&self, pass: String, activate: bool) { input_os_password(pass, activate, self.clone()); } pub fn get_chatbox(&self) -> String { #[cfg(feature = "inline")] return crate::ui::inline::get_chatbox(); #[cfg(not(feature = "inline"))] return "".to_owned(); } pub fn send_chat(&self, text: String) { let mut misc = Misc::new(); misc.set_chat_message(ChatMessage { text, ..Default::default() }); let mut msg_out = Message::new(); msg_out.set_misc(misc); self.send(Data::Message(msg_out)); } pub fn switch_display(&self, display: i32) { let mut misc = Misc::new(); misc.set_switch_display(SwitchDisplay { display, ..Default::default() }); let mut msg_out = Message::new(); msg_out.set_misc(misc); self.send(Data::Message(msg_out)); } pub fn lock_screen(&self) { let mut key_event = KeyEvent::new(); key_event.set_control_key(ControlKey::LockScreen); // todo key_event.down = true; self.send_key_event(key_event, KeyboardMode::Legacy); } pub fn enter(&self) { HOTKEY_HOOK_ENABLED.store(true, Ordering::SeqCst); #[cfg(target_os = "linux")] unsafe { IS_GRAB.store(true, Ordering::SeqCst); } #[cfg(windows)] crate::platform::windows::stop_system_key_propagate(true); IS_IN.store(true, Ordering::SeqCst); } pub fn leave(&self) { HOTKEY_HOOK_ENABLED.store(false, Ordering::SeqCst); #[cfg(target_os = "linux")] unsafe { IS_GRAB.store(false, Ordering::SeqCst); } for key in TO_RELEASE.lock().unwrap().iter() { self.map_keyboard_mode(false, *key, None) } #[cfg(windows)] crate::platform::windows::stop_system_key_propagate(false); IS_IN.store(false, Ordering::SeqCst); } pub fn handle_flutter_key_event( &self, name: &str, keycode: i32, scancode: i32, down_or_up: bool, ) { if scancode < 0 || keycode < 0 { return; } let keycode: u32 = keycode as u32; let scancode: u32 = scancode as u32; let key = rdev::key_from_scancode(scancode) as RdevKey; // Windows requires special handling #[cfg(target_os = "windows")] let key = rdev::get_win_key(keycode, scancode); let event_type = if down_or_up { KeyPress(key) } else { KeyRelease(key) }; let evt = Event { time: std::time::SystemTime::now(), name: Option::Some(name.to_owned()), code: keycode as _, scan_code: scancode as _, event_type: event_type, }; self.key_down_or_up(down_or_up, key, evt) } // flutter only TODO new input pub fn input_key( &self, name: &str, down: bool, press: bool, alt: bool, ctrl: bool, shift: bool, command: bool, ) { let chars: Vec = name.chars().collect(); if chars.len() == 1 { let key = Key::_Raw(chars[0] as _); self._input_key(key, down, press, alt, ctrl, shift, command); } else { if let Some(key) = KEY_MAP.get(name) { self._input_key(key.clone(), down, press, alt, ctrl, shift, command); } } } // flutter only TODO new input pub fn input_string(&self, value: &str) { let mut key_event = KeyEvent::new(); key_event.set_seq(value.to_owned()); let mut msg_out = Message::new(); msg_out.set_key_event(key_event); self.send(Data::Message(msg_out)); } // flutter only TODO new input fn _input_key( &self, key: Key, down: bool, press: bool, alt: bool, ctrl: bool, shift: bool, command: bool, ) { let v = if press { 3 } else if down { 1 } else { 0 }; let mut key_event = KeyEvent::new(); match key { Key::Chr(chr) => { key_event.set_chr(chr); } Key::ControlKey(key) => { #[cfg(not(any(target_os = "android", target_os = "ios")))] let key = if !get_key_state(enigo::Key::NumLock) { match key { ControlKey::Numpad0 => ControlKey::Insert, ControlKey::Decimal => ControlKey::Delete, ControlKey::Numpad1 => ControlKey::End, ControlKey::Numpad2 => ControlKey::DownArrow, ControlKey::Numpad3 => ControlKey::PageDown, ControlKey::Numpad4 => ControlKey::LeftArrow, ControlKey::Numpad5 => ControlKey::Clear, ControlKey::Numpad6 => ControlKey::RightArrow, ControlKey::Numpad7 => ControlKey::Home, ControlKey::Numpad8 => ControlKey::UpArrow, ControlKey::Numpad9 => ControlKey::PageUp, _ => key, } } else { key }; key_event.set_control_key(key.clone()); } Key::_Raw(raw) => { key_event.set_chr(raw); } } #[cfg(not(any(target_os = "android", target_os = "ios")))] let (alt, ctrl, shift, command) = get_all_hotkey_state(alt, ctrl, shift, command); self.legacy_modifiers(&mut key_event, alt, ctrl, shift, command); if v == 1 { key_event.down = true; } else if v == 3 { key_event.press = true; } self.send_key_event(key_event, KeyboardMode::Legacy); } pub fn send_mouse( &self, mask: i32, x: i32, y: i32, alt: bool, ctrl: bool, shift: bool, command: bool, ) { #[allow(unused_mut)] let mut command = command; #[cfg(windows)] { if !command && crate::platform::windows::get_win_key_state() { command = true; } } #[cfg(not(any(target_os = "android", target_os = "ios")))] let (alt, ctrl, shift, command) = get_all_hotkey_state(alt, ctrl, shift, command); send_mouse(mask, x, y, alt, ctrl, shift, command, self); // on macos, ctrl + left button down = right button down, up won't emit, so we need to // emit up myself if peer is not macos // to-do: how about ctrl + left from win to macos if cfg!(target_os = "macos") { let buttons = mask >> 3; let evt_type = mask & 0x7; if buttons == 1 && evt_type == 1 && ctrl && self.peer_platform() != "Mac OS" { self.send_mouse((1 << 3 | 2) as _, x, y, alt, ctrl, shift, command); } } } pub fn reconnect(&self) { self.send(Data::Close); let cloned = self.clone(); let mut lock = self.thread.lock().unwrap(); lock.take().map(|t| t.join()); *lock = Some(std::thread::spawn(move || { io_loop(cloned); })); } pub fn get_icon_path(&self, file_type: i32, ext: String) -> String { let mut path = Config::icon_path(); if file_type == FileType::DirLink as i32 { let new_path = path.join("dir_link"); if !std::fs::metadata(&new_path).is_ok() { #[cfg(windows)] allow_err!(std::os::windows::fs::symlink_file(&path, &new_path)); #[cfg(not(windows))] allow_err!(std::os::unix::fs::symlink(&path, &new_path)); } path = new_path; } else if file_type == FileType::File as i32 { if !ext.is_empty() { path = path.join(format!("file.{}", ext)); } else { path = path.join("file"); } if !std::fs::metadata(&path).is_ok() { allow_err!(std::fs::File::create(&path)); } } else if file_type == FileType::FileLink as i32 { let new_path = path.join("file_link"); if !std::fs::metadata(&new_path).is_ok() { path = path.join("file"); if !std::fs::metadata(&path).is_ok() { allow_err!(std::fs::File::create(&path)); } #[cfg(windows)] allow_err!(std::os::windows::fs::symlink_file(&path, &new_path)); #[cfg(not(windows))] allow_err!(std::os::unix::fs::symlink(&path, &new_path)); } path = new_path; } else if file_type == FileType::DirDrive as i32 { if cfg!(windows) { path = fs::get_path("C:"); } else if cfg!(target_os = "macos") { if let Ok(entries) = fs::get_path("/Volumes/").read_dir() { for entry in entries { if let Ok(entry) = entry { path = entry.path(); break; } } } } } fs::get_string(&path) } pub fn login(&self, password: String, remember: bool) { self.send(Data::Login((password, remember))); } pub fn new_rdp(&self) { self.send(Data::NewRDP); } pub fn close(&self) { self.send(Data::Close); } pub fn load_last_jobs(&self) { self.clear_all_jobs(); let pc = self.load_config(); if pc.transfer.write_jobs.is_empty() && pc.transfer.read_jobs.is_empty() { // no last jobs return; } // TODO: can add a confirm dialog let mut cnt = 1; for job_str in pc.transfer.read_jobs.iter() { if !job_str.is_empty() { self.load_last_job(cnt, job_str); cnt += 1; log::info!("restore read_job: {:?}", job_str); } } for job_str in pc.transfer.write_jobs.iter() { if !job_str.is_empty() { self.load_last_job(cnt, job_str); cnt += 1; log::info!("restore write_job: {:?}", job_str); } } self.update_transfer_list(); } } pub trait InvokeUiSession: Send + Sync + Clone + 'static + Sized + Default { fn set_cursor_data(&self, cd: CursorData); fn set_cursor_id(&self, id: String); fn set_cursor_position(&self, cp: CursorPosition); fn set_display(&self, x: i32, y: i32, w: i32, h: i32); fn switch_display(&self, display: &SwitchDisplay); fn set_peer_info(&self, peer_info: &PeerInfo); // flutter fn update_privacy_mode(&self); fn set_permission(&self, name: &str, value: bool); fn close_success(&self); fn update_quality_status(&self, qs: QualityStatus); fn set_connection_type(&self, is_secured: bool, direct: bool); fn job_error(&self, id: i32, err: String, file_num: i32); fn job_done(&self, id: i32, file_num: i32); fn clear_all_jobs(&self); fn new_message(&self, msg: String); fn update_transfer_list(&self); fn load_last_job(&self, cnt: i32, job_json: &str); fn update_folder_files( &self, id: i32, entries: &Vec, path: String, is_local: bool, only_count: bool, ); fn confirm_delete_files(&self, id: i32, i: i32, name: String); fn override_file_confirm(&self, id: i32, file_num: i32, to: String, is_upload: bool); fn update_block_input_state(&self, on: bool); fn job_progress(&self, id: i32, file_num: i32, speed: f64, finished_size: f64); fn adapt_size(&self); fn on_rgba(&self, data: &[u8]); fn msgbox(&self, msgtype: &str, title: &str, text: &str, link: &str, retry: bool); #[cfg(any(target_os = "android", target_os = "ios"))] fn clipboard(&self, content: String); } impl Deref for Session { type Target = T; fn deref(&self) -> &Self::Target { &self.ui_handler } } impl DerefMut for Session { fn deref_mut(&mut self) -> &mut Self::Target { &mut self.ui_handler } } impl FileManager for Session {} #[async_trait] impl Interface for Session { fn send(&self, data: Data) { if let Some(sender) = self.sender.read().unwrap().as_ref() { sender.send(data).ok(); } } fn is_file_transfer(&self) -> bool { self.lc .read() .unwrap() .conn_type .eq(&ConnType::FILE_TRANSFER) } fn is_port_forward(&self) -> bool { self.lc .read() .unwrap() .conn_type .eq(&ConnType::PORT_FORWARD) } fn is_rdp(&self) -> bool { self.lc.read().unwrap().conn_type.eq(&ConnType::RDP) } fn msgbox(&self, msgtype: &str, title: &str, text: &str, link: &str) { let retry = check_if_retry(msgtype, title, text); self.ui_handler.msgbox(msgtype, title, text, link, retry); } fn handle_login_error(&mut self, err: &str) -> bool { self.lc.write().unwrap().handle_login_error(err, self) } fn handle_peer_info(&mut self, mut pi: PeerInfo) { log::debug!("handle_peer_info :{:?}", pi); pi.username = self.lc.read().unwrap().get_username(&pi); if pi.current_display as usize >= pi.displays.len() { pi.current_display = 0; } if get_version_number(&pi.version) < get_version_number("1.1.10") { self.set_permission("restart", false); } if self.is_file_transfer() { if pi.username.is_empty() { self.on_error("No active console user logged on, please connect and logon first."); return; } } else if !self.is_port_forward() { if pi.displays.is_empty() { self.lc.write().unwrap().handle_peer_info(&pi); self.update_privacy_mode(); self.msgbox("error", "Remote Error", "No Display", ""); return; } let p = self.lc.read().unwrap().should_auto_login(); if !p.is_empty() { input_os_password(p, true, self.clone()); } let current = &pi.displays[pi.current_display as usize]; self.set_display(current.x, current.y, current.width, current.height); } self.update_privacy_mode(); // Save recent peers, then push event to flutter. So flutter can refresh peer page. self.lc.write().unwrap().handle_peer_info(&pi); self.set_peer_info(&pi); if self.is_file_transfer() { self.close_success(); } else if !self.is_port_forward() { self.msgbox( "success", "Successful", "Connected, waiting for image...", "", ); } #[cfg(windows)] { let mut path = std::env::temp_dir(); path.push(&self.id); let path = path.with_extension(crate::get_app_name().to_lowercase()); std::fs::File::create(&path).ok(); if let Some(path) = path.to_str() { crate::platform::windows::add_recent_document(&path); } } #[cfg(not(any(target_os = "android", target_os = "ios")))] self.start_keyboard_hook(); #[cfg(not(any(target_os = "android", target_os = "ios")))] self.start_hotkey_grab(); } async fn handle_hash(&mut self, pass: &str, hash: Hash, peer: &mut Stream) { handle_hash(self.lc.clone(), pass, hash, self, peer).await; } async fn handle_login_from_ui(&mut self, password: String, remember: bool, peer: &mut Stream) { handle_login_from_ui(self.lc.clone(), password, remember, peer).await; } async fn handle_test_delay(&mut self, t: TestDelay, peer: &mut Stream) { if !t.from_client { self.update_quality_status(QualityStatus { delay: Some(t.last_delay as _), target_bitrate: Some(t.target_bitrate as _), ..Default::default() }); handle_test_delay(t, peer).await; } } fn set_force_relay(&mut self, direct: bool, received: bool) { let mut lc = self.lc.write().unwrap(); lc.force_relay = false; if direct && !received { let errno = errno::errno().0; log::info!("errno is {}", errno); // TODO: check mac and ios if cfg!(windows) && errno == 10054 || !cfg!(windows) && errno == 104 { lc.force_relay = true; lc.set_option("force-always-relay".to_owned(), "Y".to_owned()); } } } fn is_force_relay(&self) -> bool { self.lc.read().unwrap().force_relay } } #[cfg(not(any(target_os = "android", target_os = "ios")))] impl Session { fn handle_hot_key_event(&self, event: Event) { // keyboard long press match event.event_type { EventType::KeyPress(k) => { if MUTEX_SPECIAL_KEYS.lock().unwrap().contains_key(&k) { if *MUTEX_SPECIAL_KEYS.lock().unwrap().get(&k).unwrap() { return; } MUTEX_SPECIAL_KEYS.lock().unwrap().insert(k, true); } } EventType::KeyRelease(k) => { if MUTEX_SPECIAL_KEYS.lock().unwrap().contains_key(&k) { MUTEX_SPECIAL_KEYS.lock().unwrap().insert(k, false); } } _ => return, }; // keyboard short press match event.event_type { EventType::KeyPress(key) => { self.key_down_or_up(true, key, event); } EventType::KeyRelease(key) => { self.key_down_or_up(false, key, event); } _ => {} } } fn start_hotkey_grab(&self) { #[cfg(target_os = "linux")] if !*IS_X11.lock().unwrap() { return; } if self.is_port_forward() || self.is_file_transfer() { return; } let me = self.clone(); log::info!("hotkey grabing"); std::thread::spawn(move || { std::env::set_var("KEYBOARD_ONLY", "y"); let func = move |event: Event| { #[cfg(any(target_os = "windows", target_os = "macos"))] if !HOTKEY_HOOK_ENABLED.load(Ordering::SeqCst) { return Some(event); }; match event.event_type { EventType::KeyPress(_key) | EventType::KeyRelease(_key) => { #[cfg(any(target_os = "windows", target_os = "macos"))] if MUTEX_SPECIAL_KEYS.lock().unwrap().contains_key(&_key) { me.handle_hot_key_event(event); return None; } else { return Some(event); } #[cfg(target_os = "linux")] me.handle_hot_key_event(event); None } _ => Some(event), } }; #[cfg(target_os = "linux")] { use rdev::GRABED_KEYS; GRABED_KEYS.lock().unwrap().insert(RdevKey::ShiftLeft); GRABED_KEYS.lock().unwrap().insert(RdevKey::ShiftRight); GRABED_KEYS.lock().unwrap().insert(RdevKey::ControlLeft); GRABED_KEYS.lock().unwrap().insert(RdevKey::ControlRight); GRABED_KEYS.lock().unwrap().insert(RdevKey::Alt); GRABED_KEYS.lock().unwrap().insert(RdevKey::AltGr); GRABED_KEYS.lock().unwrap().insert(RdevKey::MetaLeft); GRABED_KEYS.lock().unwrap().insert(RdevKey::MetaRight); } if let Err(error) = rdev::grab(func) { log::error!("Error: {:?}", error) } }); } fn start_keyboard_hook(&self) { if self.is_port_forward() || self.is_file_transfer() { return; } if !KEYBOARD_HOOKED.load(Ordering::SeqCst) { return; } // rdev::grab and rdev::listen use the same api on macOS #[cfg(target_os = "macos")] if HOTKEY_HOOK_ENABLED.load(Ordering::SeqCst) { return; } log::info!("keyboard hooked"); let me = self.clone(); #[cfg(windows)] crate::platform::windows::enable_lowlevel_keyboard(std::ptr::null_mut() as _); std::thread::spawn(move || { // This will block. std::env::set_var("KEYBOARD_ONLY", "y"); let func = move |evt: Event| { if !IS_IN.load(Ordering::SeqCst) || !SERVER_KEYBOARD_ENABLED.load(Ordering::SeqCst) { return; } let (_key, down) = match evt.event_type { KeyPress(k) => { // keyboard long press if MUTEX_SPECIAL_KEYS.lock().unwrap().contains_key(&k) { if *MUTEX_SPECIAL_KEYS.lock().unwrap().get(&k).unwrap() { return; } MUTEX_SPECIAL_KEYS.lock().unwrap().insert(k, true); } (k, true) } KeyRelease(k) => { // keyboard long press if MUTEX_SPECIAL_KEYS.lock().unwrap().contains_key(&k) { MUTEX_SPECIAL_KEYS.lock().unwrap().insert(k, false); } (k, false) } _ => return, }; me.key_down_or_up(down, _key, evt); }; if let Err(error) = rdev::listen(func) { log::error!("rdev: {:?}", error); } }); } } #[tokio::main(flavor = "current_thread")] pub async fn io_loop(handler: Session) { let (sender, mut receiver) = mpsc::unbounded_channel::(); *handler.sender.write().unwrap() = Some(sender.clone()); let mut options = crate::ipc::get_options_async().await; let mut key = options.remove("key").unwrap_or("".to_owned()); let token = LocalConfig::get_option("access_token"); if key.is_empty() { key = crate::platform::get_license_key(); } #[cfg(not(any(target_os = "android", target_os = "ios")))] if handler.is_port_forward() { if handler.is_rdp() { let port = handler .get_option("rdp_port".to_owned()) .parse::() .unwrap_or(3389); std::env::set_var( "rdp_username", handler.get_option("rdp_username".to_owned()), ); std::env::set_var( "rdp_password", handler.get_option("rdp_password".to_owned()), ); log::info!("Remote rdp port: {}", port); start_one_port_forward(handler, 0, "".to_owned(), port, receiver, &key, &token).await; } else if handler.args.len() == 0 { let pfs = handler.lc.read().unwrap().port_forwards.clone(); let mut queues = HashMap::>::new(); for d in pfs { sender.send(Data::AddPortForward(d)).ok(); } loop { match receiver.recv().await { Some(Data::AddPortForward((port, remote_host, remote_port))) => { if port <= 0 || remote_port <= 0 { continue; } let (sender, receiver) = mpsc::unbounded_channel::(); queues.insert(port, sender); let handler = handler.clone(); let key = key.clone(); let token = token.clone(); tokio::spawn(async move { start_one_port_forward( handler, port, remote_host, remote_port, receiver, &key, &token, ) .await; }); } Some(Data::RemovePortForward(port)) => { if let Some(s) = queues.remove(&port) { s.send(Data::Close).ok(); } } Some(Data::Close) => { break; } Some(d) => { for (_, s) in queues.iter() { s.send(d.clone()).ok(); } } _ => {} } } } else { let port = handler.args[0].parse::().unwrap_or(0); if handler.args.len() != 3 || handler.args[2].parse::().unwrap_or(0) <= 0 || port <= 0 { handler.on_error("Invalid arguments, usage:

rustdesk --port-forward remote-id listen-port remote-host remote-port"); } let remote_host = handler.args[1].clone(); let remote_port = handler.args[2].parse::().unwrap_or(0); start_one_port_forward( handler, port, remote_host, remote_port, receiver, &key, &token, ) .await; } return; } let frame_count = Arc::new(AtomicUsize::new(0)); let frame_count_cl = frame_count.clone(); let ui_handler = handler.ui_handler.clone(); let (video_sender, audio_sender) = start_video_audio_threads(move |data: &[u8]| { frame_count_cl.fetch_add(1, Ordering::Relaxed); ui_handler.on_rgba(data); }); let mut remote = Remote::new( handler, video_sender, audio_sender, receiver, sender, frame_count, ); remote.io_loop(&key, &token).await; remote.sync_jobs_status_to_local().await; } #[cfg(not(any(target_os = "android", target_os = "ios")))] async fn start_one_port_forward( handler: Session, port: i32, remote_host: String, remote_port: i32, receiver: mpsc::UnboundedReceiver, key: &str, token: &str, ) { if let Err(err) = crate::port_forward::listen( handler.id.clone(), handler.password.clone(), port, handler.clone(), receiver, key, token, handler.lc.clone(), remote_host, remote_port, ) .await { handler.on_error(&format!("Failed to listen on {}: {}", port, err)); } log::info!("port forward (:{}) exit", port); } #[tokio::main(flavor = "current_thread")] async fn send_note(url: String, id: String, conn_id: i32, note: String) { let body = serde_json::json!({ "id": id, "Id": conn_id, "note": note }); allow_err!(crate::post_request(url, body.to_string(), "").await); } fn get_hotkey_state(key: RdevKey) -> bool { *MUTEX_SPECIAL_KEYS.lock().unwrap().get(&key).unwrap() } fn get_all_hotkey_state( alt: bool, ctrl: bool, shift: bool, command: bool, ) -> (bool, bool, bool, bool) { let ctrl = get_hotkey_state(RdevKey::ControlLeft) || get_hotkey_state(RdevKey::ControlRight) || ctrl; let shift = get_hotkey_state(RdevKey::ShiftLeft) || get_hotkey_state(RdevKey::ShiftRight) || shift; let command = get_hotkey_state(RdevKey::MetaLeft) || get_hotkey_state(RdevKey::MetaRight) || command; let alt = get_hotkey_state(RdevKey::Alt) || get_hotkey_state(RdevKey::AltGr) || alt; (alt, ctrl, shift, command) } pub fn global_get_keyboard_mode() -> String { return std::env::var("KEYBOARD_MODE") .unwrap_or(String::from("map")) .to_lowercase(); } pub fn global_save_keyboard_mode(value: String) { std::env::set_var("KEYBOARD_MODE", value); }