pub use async_trait::async_trait; #[cfg(not(any(target_os = "android")))] use cpal::{ traits::{DeviceTrait, HostTrait, StreamTrait}, Device, Host, StreamConfig, }; use hbb_common::{ allow_err, anyhow::{anyhow, Context}, bail, config::{Config, PeerConfig, PeerInfoSerde, CONNECT_TIMEOUT, RELAY_PORT, RENDEZVOUS_TIMEOUT}, log, message_proto::*, protobuf::Message as _, rendezvous_proto::*, socket_client, sodiumoxide::crypto::{box_, secretbox, sign}, timeout, tokio::time::Duration, AddrMangle, ResultType, Stream, }; use magnum_opus::{Channels::*, Decoder as AudioDecoder}; use scrap::{Decoder, Image, VideoCodecId}; use sha2::{Digest, Sha256}; use std::{ collections::HashMap, net::SocketAddr, ops::Deref, sync::{Arc, Mutex, RwLock}, }; use uuid::Uuid; pub const SEC30: Duration = Duration::from_secs(30); pub struct Client; pub use super::lang::*; #[cfg(not(any(target_os = "android")))] lazy_static::lazy_static! { static ref AUDIO_HOST: Host = cpal::default_host(); } cfg_if::cfg_if! { if #[cfg(target_os = "android")] { use libc::{c_float, c_int, c_void}; use std::cell::RefCell; type Oboe = *mut c_void; extern "C" { fn create_oboe_player(channels: c_int, sample_rate: c_int) -> Oboe; fn push_oboe_data(oboe: Oboe, d: *const c_float, n: c_int); fn destroy_oboe_player(oboe: Oboe); } struct OboePlayer { raw: Oboe, } impl Default for OboePlayer { fn default() -> Self { Self { raw: std::ptr::null_mut(), } } } impl OboePlayer { fn new(channels: i32, sample_rate: i32) -> Self { unsafe { Self { raw: create_oboe_player(channels, sample_rate), } } } fn is_null(&self) -> bool { self.raw.is_null() } fn push(&mut self, d: &[f32]) { if self.raw.is_null() { return; } unsafe { push_oboe_data(self.raw, d.as_ptr(), d.len() as _); } } } impl Drop for OboePlayer { fn drop(&mut self) { unsafe { if !self.raw.is_null() { destroy_oboe_player(self.raw); } } } } } } impl Client { pub async fn start(peer: &str, conn_type: ConnType) -> ResultType<(Stream, bool)> { match Self::_start(peer, conn_type).await { Err(err) => { let err_str = err.to_string(); if err_str.starts_with("Failed") { bail!(err_str + ": Please try later"); } else { return Err(err); } } Ok(x) => Ok(x), } } async fn _start(peer: &str, conn_type: ConnType) -> ResultType<(Stream, bool)> { // to-do: remember the port for each peer, so that we can retry easier let any_addr = Config::get_any_listen_addr(); if crate::is_ip(peer) { return Ok(( socket_client::connect_tcp( crate::check_port(peer, RELAY_PORT + 1), any_addr, RENDEZVOUS_TIMEOUT, ) .await?, true, )); } let rendezvous_server = crate::get_rendezvous_server(1_000).await; log::info!("rendezvous server: {}", rendezvous_server); let mut socket = socket_client::connect_tcp(&*rendezvous_server, any_addr, RENDEZVOUS_TIMEOUT).await?; let my_addr = socket.local_addr(); let mut pk = Vec::new(); let mut relay_server = "".to_owned(); let start = std::time::Instant::now(); let mut peer_addr = any_addr; let mut peer_nat_type = NatType::UNKNOWN_NAT; let my_nat_type = crate::get_nat_type(100).await; let mut is_local = false; for i in 1..=3 { log::info!("#{} punch attempt with {}, id: {}", i, my_addr, peer); let mut msg_out = RendezvousMessage::new(); use hbb_common::protobuf::ProtobufEnum; let nat_type = NatType::from_i32(my_nat_type).unwrap_or(NatType::UNKNOWN_NAT); msg_out.set_punch_hole_request(PunchHoleRequest { id: peer.to_owned(), nat_type: nat_type.into(), conn_type: conn_type.into(), ..Default::default() }); socket.send(&msg_out).await?; if let Some(Ok(bytes)) = socket.next_timeout(i * 6000).await { if let Ok(msg_in) = RendezvousMessage::parse_from_bytes(&bytes) { match msg_in.union { Some(rendezvous_message::Union::punch_hole_response(ph)) => { if ph.socket_addr.is_empty() { match ph.failure.enum_value_or_default() { punch_hole_response::Failure::ID_NOT_EXIST => { bail!("ID does not exist"); } punch_hole_response::Failure::OFFLINE => { bail!("Remote desktop is offline"); } punch_hole_response::Failure::LICENSE_MISMATCH => { bail!("Key mismatch"); } _ => { if !ph.other_failure.is_empty() { bail!(ph.other_failure); } } } } else { peer_nat_type = ph.get_nat_type(); is_local = ph.get_is_local(); pk = ph.pk; relay_server = ph.relay_server; peer_addr = AddrMangle::decode(&ph.socket_addr); log::info!("Hole Punched {} = {}", peer, peer_addr); break; } } Some(rendezvous_message::Union::relay_response(rr)) => { log::info!( "relay requested from peer, time used: {:?}, relay_server: {}", start.elapsed(), rr.relay_server ); pk = rr.get_pk().into(); let mut conn = Self::create_relay(peer, rr.uuid, rr.relay_server, conn_type) .await?; Self::secure_connection(peer, pk, &mut conn).await?; return Ok((conn, false)); } _ => { log::error!("Unexpected protobuf msg received: {:?}", msg_in); } } } else { log::error!("Non-protobuf message bytes received: {:?}", bytes); } } } drop(socket); if peer_addr.port() == 0 { bail!("Failed to connect via rendezvous server"); } let time_used = start.elapsed().as_millis() as u64; log::info!( "{} ms used to punch hole, relay_server: {}, {}", time_used, relay_server, if is_local { "is_local: true".to_owned() } else { format!("nat_type: {:?}", peer_nat_type) } ); Self::connect( my_addr, peer_addr, peer, pk, &relay_server, &rendezvous_server, time_used, peer_nat_type, my_nat_type, is_local, conn_type, ) .await } async fn connect( local_addr: SocketAddr, peer: SocketAddr, peer_id: &str, pk: Vec, relay_server: &str, rendezvous_server: &str, punch_time_used: u64, peer_nat_type: NatType, my_nat_type: i32, is_local: bool, conn_type: ConnType, ) -> ResultType<(Stream, bool)> { let direct_failures = PeerConfig::load(peer_id).direct_failures; let mut connect_timeout = 0; const MIN: u64 = 1000; if is_local || peer_nat_type == NatType::SYMMETRIC { connect_timeout = MIN; } else { if relay_server.is_empty() { connect_timeout = CONNECT_TIMEOUT; } else { if peer_nat_type == NatType::ASYMMETRIC { let mut my_nat_type = my_nat_type; if my_nat_type == NatType::UNKNOWN_NAT as i32 { my_nat_type = crate::get_nat_type(100).await; } if my_nat_type == NatType::ASYMMETRIC as i32 { connect_timeout = CONNECT_TIMEOUT; if direct_failures > 0 { connect_timeout = punch_time_used * 6; } } else if my_nat_type == NatType::SYMMETRIC as i32 { connect_timeout = MIN; } } if connect_timeout == 0 { let n = if direct_failures > 0 { 3 } else { 6 }; connect_timeout = punch_time_used * (n as u64); } } if connect_timeout < MIN { connect_timeout = MIN; } } log::info!("peer address: {}, timeout: {}", peer, connect_timeout); let start = std::time::Instant::now(); // NOTICE: Socks5 is be used event in intranet. Which may be not a good way. let mut conn = socket_client::connect_tcp(peer, local_addr, connect_timeout).await; let direct = !conn.is_err(); if conn.is_err() { if !relay_server.is_empty() { conn = Self::request_relay( peer_id, relay_server.to_owned(), rendezvous_server, pk.len() == sign::PUBLICKEYBYTES, conn_type, ) .await; if conn.is_err() { bail!( "Failed to connect via relay server: {}", conn.err().unwrap() ); } } else { bail!("Failed to make direct connection to remote desktop"); } } if !relay_server.is_empty() && (direct_failures == 0) != direct { let mut config = PeerConfig::load(peer_id); config.direct_failures = if direct { 0 } else { 1 }; log::info!("direct_failures updated to {}", config.direct_failures); config.store(peer_id); } let mut conn = conn?; log::info!("{:?} used to establish connection", start.elapsed()); Self::secure_connection(peer_id, pk, &mut conn).await?; Ok((conn, direct)) } async fn secure_connection(peer_id: &str, pk: Vec, conn: &mut Stream) -> ResultType<()> { let mut pk = pk; const RS_PK: &[u8; 32] = &[ 177, 155, 15, 73, 116, 147, 172, 11, 55, 38, 92, 168, 30, 116, 213, 196, 12, 134, 130, 170, 181, 161, 192, 176, 132, 229, 139, 178, 17, 165, 150, 51, ]; if !pk.is_empty() { let tmp = sign::PublicKey(*RS_PK); if let Ok(data) = sign::verify(&pk, &tmp) { pk = data; } else { log::error!("Handshake failed: invalid public key from rendezvous server"); pk.clear(); } } if pk.len() != sign::PUBLICKEYBYTES { // send an empty message out in case server is setting up secure and waiting for first message conn.send(&Message::new()).await?; return Ok(()); } let mut tmp = [0u8; sign::PUBLICKEYBYTES]; tmp[..].copy_from_slice(&pk); let sign_pk = sign::PublicKey(tmp); match timeout(CONNECT_TIMEOUT, conn.next()).await? { Some(res) => { let bytes = res?; if let Ok(msg_in) = Message::parse_from_bytes(&bytes) { if let Some(message::Union::signed_id(si)) = msg_in.union { if let Ok(data) = sign::verify(&si.id, &sign_pk) { let s = String::from_utf8_lossy(&data); let mut it = s.split("\0"); let id = it.next().unwrap_or_default(); let pk = base64::decode(it.next().unwrap_or_default()).unwrap_or_default(); let their_pk_b = if pk.len() == box_::PUBLICKEYBYTES { let mut pk_ = [0u8; box_::PUBLICKEYBYTES]; pk_[..].copy_from_slice(&pk); box_::PublicKey(pk_) } else { log::error!( "Handshake failed: invalid public box key length from peer" ); conn.send(&Message::new()).await?; return Ok(()); }; if id == peer_id { let (our_pk_b, out_sk_b) = box_::gen_keypair(); let key = secretbox::gen_key(); let nonce = box_::Nonce([0u8; box_::NONCEBYTES]); let sealed_key = box_::seal(&key.0, &nonce, &their_pk_b, &out_sk_b); let mut msg_out = Message::new(); msg_out.set_public_key(PublicKey { asymmetric_value: our_pk_b.0.into(), symmetric_value: sealed_key, ..Default::default() }); timeout(CONNECT_TIMEOUT, conn.send(&msg_out)).await??; conn.set_key(key); } else { log::error!("Handshake failed: sign failure"); conn.send(&Message::new()).await?; } } else { // fall back to non-secure connection in case pk mismatch log::info!("pk mismatch, fall back to non-secure"); let mut msg_out = Message::new(); msg_out.set_public_key(PublicKey::new()); timeout(CONNECT_TIMEOUT, conn.send(&msg_out)).await??; } } else { log::error!("Handshake failed: invalid message type"); conn.send(&Message::new()).await?; } } else { log::error!("Handshake failed: invalid message format"); conn.send(&Message::new()).await?; } } None => { bail!("Reset by the peer"); } } Ok(()) } async fn request_relay( peer: &str, relay_server: String, rendezvous_server: &str, secure: bool, conn_type: ConnType, ) -> ResultType { let any_addr = Config::get_any_listen_addr(); let mut succeed = false; let mut uuid = "".to_owned(); for i in 1..=3 { // use different socket due to current hbbs implement requiring different nat address for each attempt let mut socket = socket_client::connect_tcp(rendezvous_server, any_addr, RENDEZVOUS_TIMEOUT) .await .with_context(|| "Failed to connect to rendezvous server")?; let mut msg_out = RendezvousMessage::new(); uuid = Uuid::new_v4().to_string(); log::info!( "#{} request relay attempt, id: {}, uuid: {}, relay_server: {}, secure: {}", i, peer, uuid, relay_server, secure, ); msg_out.set_request_relay(RequestRelay { id: peer.to_owned(), uuid: uuid.clone(), relay_server: relay_server.clone(), secure, ..Default::default() }); socket.send(&msg_out).await?; if let Some(Ok(bytes)) = socket.next_timeout(CONNECT_TIMEOUT).await { if let Ok(msg_in) = RendezvousMessage::parse_from_bytes(&bytes) { if let Some(rendezvous_message::Union::relay_response(rs)) = msg_in.union { if !rs.refuse_reason.is_empty() { bail!(rs.refuse_reason); } succeed = true; break; } } } } if !succeed { bail!("Timeout"); } Self::create_relay(peer, uuid, relay_server, conn_type).await } async fn create_relay( peer: &str, uuid: String, relay_server: String, conn_type: ConnType, ) -> ResultType { let mut conn = socket_client::connect_tcp( crate::check_port(relay_server, RELAY_PORT), Config::get_any_listen_addr(), CONNECT_TIMEOUT, ) .await .with_context(|| "Failed to connect to relay server")?; let mut msg_out = RendezvousMessage::new(); msg_out.set_request_relay(RequestRelay { id: peer.to_owned(), uuid, conn_type: conn_type.into(), ..Default::default() }); conn.send(&msg_out).await?; Ok(conn) } } #[derive(Default)] pub struct AudioHandler { audio_decoder: Option<(AudioDecoder, Vec)>, #[cfg(any(target_os = "android"))] oboe: RefCell, #[cfg(not(any(target_os = "android")))] audio_buffer: Arc>>, sample_rate: (u32, u32), #[cfg(not(any(target_os = "android")))] audio_stream: Option>, channels: u16, } impl AudioHandler { #[cfg(any(target_os = "android"))] fn start_audio(&mut self, format0: AudioFormat) -> ResultType<()> { self.sample_rate = (format0.sample_rate, format0.sample_rate); Ok(()) } #[cfg(not(any(target_os = "android")))] fn start_audio(&mut self, format0: AudioFormat) -> ResultType<()> { let device = AUDIO_HOST .default_output_device() .with_context(|| "Failed to get default output device")?; log::info!( "Using default output device: \"{}\"", device.name().unwrap_or("".to_owned()) ); let config = device.default_output_config().map_err(|e| anyhow!(e))?; let sample_format = config.sample_format(); log::info!("Default output format: {:?}", config); log::info!("Remote input format: {:?}", format0); let mut config: StreamConfig = config.into(); config.channels = format0.channels as _; match sample_format { cpal::SampleFormat::F32 => self.build_output_stream::(&config, &device)?, cpal::SampleFormat::I16 => self.build_output_stream::(&config, &device)?, cpal::SampleFormat::U16 => self.build_output_stream::(&config, &device)?, } self.sample_rate = (format0.sample_rate, config.sample_rate.0); Ok(()) } pub fn handle_format(&mut self, f: AudioFormat) { match AudioDecoder::new(f.sample_rate, if f.channels > 1 { Stereo } else { Mono }) { Ok(d) => { let buffer = vec![0.; f.sample_rate as usize * f.channels as usize]; self.audio_decoder = Some((d, buffer)); self.channels = f.channels as _; allow_err!(self.start_audio(f)); } Err(err) => { log::error!("Failed to create audio decoder: {}", err); } } } pub fn handle_frame(&mut self, frame: AudioFrame, play: bool) { if !play { return; } #[cfg(not(any(target_os = "android")))] if self.audio_stream.is_none() { return; } let sample_rate0 = self.sample_rate.0; let sample_rate = self.sample_rate.1; let channels = self.channels; cfg_if::cfg_if! { if #[cfg(not(target_os = "android"))] { let audio_buffer = self.audio_buffer.clone(); // avoiding memory overflow if audio_buffer consumer side has problem if audio_buffer.lock().unwrap().len() as u32 > sample_rate * 120 { *audio_buffer.lock().unwrap() = Default::default(); } } else { if self.oboe.borrow().is_null() { self.oboe = RefCell::new(OboePlayer::new( channels as _, sample_rate0 as _, )); } let mut oboe = self.oboe.borrow_mut(); } } self.audio_decoder.as_mut().map(|(d, buffer)| { if let Ok(n) = d.decode_float(&frame.data, buffer, false) { let n = n * (channels as usize); #[cfg(not(any(target_os = "android")))] { if sample_rate != sample_rate0 { let buffer = crate::resample_channels( &buffer[0..n], sample_rate0, sample_rate, channels, ); audio_buffer.lock().unwrap().extend(buffer); } else { audio_buffer .lock() .unwrap() .extend(buffer[0..n].iter().cloned()); } } #[cfg(any(target_os = "android"))] { oboe.push(&buffer[0..n]); } } }); } #[cfg(not(any(target_os = "android")))] fn build_output_stream( &mut self, config: &StreamConfig, device: &Device, ) -> ResultType<()> { let err_fn = move |err| { // too many errors, will improve later log::trace!("an error occurred on stream: {}", err); }; let audio_buffer = self.audio_buffer.clone(); let stream = device.build_output_stream( config, move |data: &mut [T], _: &_| { let mut lock = audio_buffer.lock().unwrap(); let mut n = data.len(); if lock.len() < n { n = lock.len(); } let mut input = lock.drain(0..n); for sample in data.iter_mut() { *sample = match input.next() { Some(x) => T::from(&x), _ => T::from(&0.), }; } }, err_fn, )?; stream.play()?; self.audio_stream = Some(Box::new(stream)); Ok(()) } } pub struct VideoHandler { decoder: Decoder, pub rgb: Vec, } impl VideoHandler { pub fn new() -> Self { VideoHandler { decoder: Decoder::new(VideoCodecId::VP9, 0).unwrap(), rgb: Default::default(), } } pub fn handle_vp9s(&mut self, vp9s: &VP9s) -> ResultType { let mut last_frame = Image::new(); for vp9 in vp9s.frames.iter() { for frame in self.decoder.decode(&vp9.data)? { drop(last_frame); last_frame = frame; } } for frame in self.decoder.flush()? { drop(last_frame); last_frame = frame; } if last_frame.is_null() { Ok(false) } else { last_frame.rgb(1, true, &mut self.rgb); Ok(true) } } pub fn reset(&mut self) { self.decoder = Decoder::new(VideoCodecId::VP9, 1).unwrap(); } } #[derive(Default)] pub struct LoginConfigHandler { id: String, is_file_transfer: bool, is_port_forward: bool, hash: Hash, password: Vec, // remember password for reconnect pub remember: bool, config: PeerConfig, pub port_forward: (String, i32), pub support_press: bool, pub support_refresh: bool, pub version: i64, } impl Deref for LoginConfigHandler { type Target = PeerConfig; fn deref(&self) -> &Self::Target { &self.config } } #[inline] pub fn load_config(id: &str) -> PeerConfig { PeerConfig::load(id) } impl LoginConfigHandler { pub fn initialize(&mut self, id: String, is_file_transfer: bool, is_port_forward: bool) { self.id = id; self.is_file_transfer = is_file_transfer; self.is_port_forward = is_port_forward; let config = self.load_config(); self.remember = !config.password.is_empty(); self.config = config; } fn load_config(&self) -> PeerConfig { load_config(&self.id) } pub fn save_config(&mut self, config: PeerConfig) { config.store(&self.id); self.config = config; } pub fn set_option(&mut self, k: String, v: String) { let mut config = self.load_config(); config.options.insert(k, v); self.save_config(config); } pub fn save_view_style(&mut self, value: String) { let mut config = self.load_config(); config.view_style = value; self.save_config(config); } pub fn toggle_option(&mut self, name: String) -> Option { let mut option = OptionMessage::default(); let mut config = self.load_config(); if name == "show-remote-cursor" { config.show_remote_cursor = !config.show_remote_cursor; option.show_remote_cursor = (if config.show_remote_cursor { BoolOption::Yes } else { BoolOption::No }) .into(); } else if name == "disable-audio" { config.disable_audio = !config.disable_audio; option.disable_audio = (if config.disable_audio { BoolOption::Yes } else { BoolOption::No }) .into(); } else if name == "disable-clipboard" { config.disable_clipboard = !config.disable_clipboard; option.disable_clipboard = (if config.disable_clipboard { BoolOption::Yes } else { BoolOption::No }) .into(); } else if name == "lock-after-session-end" { config.lock_after_session_end = !config.lock_after_session_end; option.lock_after_session_end = (if config.lock_after_session_end { BoolOption::Yes } else { BoolOption::No }) .into(); } else if name == "privacy-mode" { config.privacy_mode = !config.privacy_mode; option.privacy_mode = (if config.privacy_mode { BoolOption::Yes } else { BoolOption::No }) .into(); } else if name == "block-input" { option.block_input = BoolOption::Yes.into(); } else if name == "unblock-input" { option.block_input = BoolOption::No.into(); } else { let v = self.options.get(&name).is_some(); if v { self.config.options.remove(&name); } else { self.config.options.insert(name, "Y".to_owned()); } self.config.store(&self.id); return None; } self.save_config(config); let mut misc = Misc::new(); misc.set_option(option); let mut msg_out = Message::new(); msg_out.set_misc(misc); Some(msg_out) } fn get_option_message(&self, ignore_default: bool) -> Option { if self.is_port_forward || self.is_file_transfer { return None; } let mut n = 0; let mut msg = OptionMessage::new(); let q = self.image_quality.clone(); if let Some(q) = self.get_image_quality_enum(&q, ignore_default) { msg.image_quality = q.into(); n += 1; } else if q == "custom" { let config = PeerConfig::load(&self.id); let mut it = config.custom_image_quality.iter(); let bitrate = it.next(); let quantizer = it.next(); if let Some(bitrate) = bitrate { if let Some(quantizer) = quantizer { msg.custom_image_quality = bitrate << 8 | quantizer; n += 1; } } } if self.get_toggle_option("show-remote-cursor") { msg.show_remote_cursor = BoolOption::Yes.into(); n += 1; } if self.get_toggle_option("lock-after-session-end") { msg.lock_after_session_end = BoolOption::Yes.into(); n += 1; } if self.get_toggle_option("privacy-mode") { msg.privacy_mode = BoolOption::Yes.into(); n += 1; } if n > 0 { Some(msg) } else { None } } fn get_image_quality_enum(&self, q: &str, ignore_default: bool) -> Option { if q == "low" { Some(ImageQuality::Low) } else if q == "best" { Some(ImageQuality::Best) } else if q == "balanced" { if ignore_default { None } else { Some(ImageQuality::Balanced) } } else { None } } pub fn get_toggle_option(&self, name: &str) -> bool { if name == "show-remote-cursor" { self.config.show_remote_cursor } else if name == "lock-after-session-end" { self.config.lock_after_session_end } else if name == "privacy-mode" { self.config.privacy_mode } else if name == "disable-audio" { self.config.disable_audio } else if name == "disable-clipboard" { self.config.disable_clipboard } else { !self.get_option(name).is_empty() } } pub fn refresh() -> Message { let mut misc = Misc::new(); misc.set_refresh_video(true); let mut msg_out = Message::new(); msg_out.set_misc(misc); msg_out } pub fn save_custom_image_quality(&mut self, bitrate: i32, quantizer: i32) -> Message { let mut misc = Misc::new(); misc.set_option(OptionMessage { custom_image_quality: bitrate << 8 | quantizer, ..Default::default() }); let mut msg_out = Message::new(); msg_out.set_misc(misc); let mut config = self.load_config(); config.image_quality = "custom".to_owned(); config.custom_image_quality = vec![bitrate, quantizer]; self.save_config(config); msg_out } pub fn save_image_quality(&mut self, value: String) -> Option { let mut res = None; if let Some(q) = self.get_image_quality_enum(&value, false) { let mut misc = Misc::new(); misc.set_option(OptionMessage { image_quality: q.into(), ..Default::default() }); let mut msg_out = Message::new(); msg_out.set_misc(misc); res = Some(msg_out); } let mut config = self.load_config(); config.image_quality = value; self.save_config(config); res } pub fn get_option(&self, k: &str) -> String { if let Some(v) = self.config.options.get(k) { v.clone() } else { "".to_owned() } } pub fn handle_login_error(&mut self, err: &str, interface: &impl Interface) -> bool { if err == "Wrong Password" { self.password = Default::default(); interface.msgbox("re-input-password", err, "Do you want to enter again?"); true } else { interface.msgbox("error", "Login Error", err); false } } pub fn get_username(&self, pi: &PeerInfo) -> String { return if pi.username.is_empty() { self.info.username.clone() } else { pi.username.clone() }; } pub fn handle_peer_info(&mut self, username: String, pi: PeerInfo) { if !pi.version.is_empty() { self.support_press = true; self.support_refresh = true; self.version = hbb_common::get_version_number(&pi.version); } let serde = PeerInfoSerde { username, hostname: pi.hostname.clone(), platform: pi.platform.clone(), }; let mut config = self.load_config(); config.info = serde; let password = self.password.clone(); let password0 = config.password.clone(); let remember = self.remember; if remember { if !password.is_empty() && password != password0 { config.password = password; log::debug!("remember password of {}", self.id); } } else { if !password0.is_empty() { config.password = Default::default(); log::debug!("remove password of {}", self.id); } } // no matter if change, for update file time self.save_config(config); } fn create_login_msg(&self, password: Vec) -> Message { #[cfg(any(target_os = "android", target_os = "ios"))] let my_id = crate::common::MOBILE_INFO1.lock().unwrap().clone(); #[cfg(not(any(target_os = "android", target_os = "ios")))] let my_id = Config::get_id(); let mut lr = LoginRequest { username: self.id.clone(), password, my_id, my_name: crate::username(), option: self.get_option_message(true).into(), ..Default::default() }; if self.is_file_transfer { lr.set_file_transfer(FileTransfer { dir: self.get_option("remote_dir"), show_hidden: !self.get_option("remote_show_hidden").is_empty(), ..Default::default() }); } else if self.is_port_forward { lr.set_port_forward(PortForward { host: self.port_forward.0.clone(), port: self.port_forward.1, ..Default::default() }); } let mut msg_out = Message::new(); msg_out.set_login_request(lr); msg_out } } pub async fn handle_test_delay(t: TestDelay, peer: &mut Stream) { if !t.from_client { let mut msg_out = Message::new(); msg_out.set_test_delay(t); allow_err!(peer.send(&msg_out).await); } } pub async fn handle_hash( lc: Arc>, hash: Hash, interface: &impl Interface, peer: &mut Stream, ) { let mut password = lc.read().unwrap().password.clone(); if password.is_empty() { password = lc.read().unwrap().config.password.clone(); } if password.is_empty() { // login without password, the remote side can click accept send_login(lc.clone(), Vec::new(), peer).await; interface.msgbox("input-password", "Password Required", ""); } else { let mut hasher = Sha256::new(); hasher.update(&password); hasher.update(&hash.challenge); send_login(lc.clone(), hasher.finalize()[..].into(), peer).await; } lc.write().unwrap().hash = hash; } async fn send_login(lc: Arc>, password: Vec, peer: &mut Stream) { let msg_out = lc.read().unwrap().create_login_msg(password); allow_err!(peer.send(&msg_out).await); } pub async fn handle_login_from_ui( lc: Arc>, password: String, remember: bool, peer: &mut Stream, ) { let mut hasher = Sha256::new(); hasher.update(password); hasher.update(&lc.read().unwrap().hash.salt); let res = hasher.finalize(); lc.write().unwrap().remember = remember; lc.write().unwrap().password = res[..].into(); let mut hasher2 = Sha256::new(); hasher2.update(&res[..]); hasher2.update(&lc.read().unwrap().hash.challenge); send_login(lc.clone(), hasher2.finalize()[..].into(), peer).await; } #[async_trait] pub trait Interface: Send + Clone + 'static + Sized { fn msgbox(&self, msgtype: &str, title: &str, text: &str); fn handle_login_error(&mut self, err: &str) -> bool; fn handle_peer_info(&mut self, pi: PeerInfo); async fn handle_hash(&mut self, hash: Hash, peer: &mut Stream); async fn handle_login_from_ui(&mut self, password: String, remember: bool, peer: &mut Stream); async fn handle_test_delay(&mut self, t: TestDelay, peer: &mut Stream); } #[derive(Clone)] pub enum Data { Close, Login((String, bool)), Message(Message), SendFiles((i32, String, String, bool, bool)), RemoveDirAll((i32, String, bool)), ConfirmDeleteFiles((i32, i32)), SetNoConfirm(i32), RemoveDir((i32, String)), RemoveFile((i32, String, i32, bool)), CreateDir((i32, String, bool)), CancelJob(i32), RemovePortForward(i32), AddPortForward((i32, String, i32)), NewRDP, } #[derive(Clone)] pub enum Key { ControlKey(ControlKey), Chr(u32), _Raw(u32), } lazy_static::lazy_static! { pub static ref KEY_MAP: HashMap<&'static str, Key> = [ ("VK_A", Key::Chr('a' as _)), ("VK_B", Key::Chr('b' as _)), ("VK_C", Key::Chr('c' as _)), ("VK_D", Key::Chr('d' as _)), ("VK_E", Key::Chr('e' as _)), ("VK_F", Key::Chr('f' as _)), ("VK_G", Key::Chr('g' as _)), ("VK_H", Key::Chr('h' as _)), ("VK_I", Key::Chr('i' as _)), ("VK_J", Key::Chr('j' as _)), ("VK_K", Key::Chr('k' as _)), ("VK_L", Key::Chr('l' as _)), ("VK_M", Key::Chr('m' as _)), ("VK_N", Key::Chr('n' as _)), ("VK_O", Key::Chr('o' as _)), ("VK_P", Key::Chr('p' as _)), ("VK_Q", Key::Chr('q' as _)), ("VK_R", Key::Chr('r' as _)), ("VK_S", Key::Chr('s' as _)), ("VK_T", Key::Chr('t' as _)), ("VK_U", Key::Chr('u' as _)), ("VK_V", Key::Chr('v' as _)), ("VK_W", Key::Chr('w' as _)), ("VK_X", Key::Chr('x' as _)), ("VK_Y", Key::Chr('y' as _)), ("VK_Z", Key::Chr('z' as _)), ("VK_0", Key::Chr('0' as _)), ("VK_1", Key::Chr('1' as _)), ("VK_2", Key::Chr('2' as _)), ("VK_3", Key::Chr('3' as _)), ("VK_4", Key::Chr('4' as _)), ("VK_5", Key::Chr('5' as _)), ("VK_6", Key::Chr('6' as _)), ("VK_7", Key::Chr('7' as _)), ("VK_8", Key::Chr('8' as _)), ("VK_9", Key::Chr('9' as _)), ("VK_COMMA", Key::Chr(',' as _)), ("VK_SLASH", Key::Chr('/' as _)), ("VK_SEMICOLON", Key::Chr(';' as _)), ("VK_QUOTE", Key::Chr('\'' as _)), ("VK_LBRACKET", Key::Chr('[' as _)), ("VK_RBRACKET", Key::Chr(']' as _)), ("VK_BACKSLASH", Key::Chr('\\' as _)), ("VK_MINUS", Key::Chr('-' as _)), ("VK_PLUS", Key::Chr('=' as _)), // it is =, but sciter return VK_PLUS ("VK_DIVIDE", Key::ControlKey(ControlKey::Divide)), // numpad ("VK_MULTIPLY", Key::ControlKey(ControlKey::Multiply)), // numpad ("VK_SUBTRACT", Key::ControlKey(ControlKey::Subtract)), // numpad ("VK_ADD", Key::ControlKey(ControlKey::Add)), // numpad ("VK_DECIMAL", Key::ControlKey(ControlKey::Decimal)), // numpad ("VK_F1", Key::ControlKey(ControlKey::F1)), ("VK_F2", Key::ControlKey(ControlKey::F2)), ("VK_F3", Key::ControlKey(ControlKey::F3)), ("VK_F4", Key::ControlKey(ControlKey::F4)), ("VK_F5", Key::ControlKey(ControlKey::F5)), ("VK_F6", Key::ControlKey(ControlKey::F6)), ("VK_F7", Key::ControlKey(ControlKey::F7)), ("VK_F8", Key::ControlKey(ControlKey::F8)), ("VK_F9", Key::ControlKey(ControlKey::F9)), ("VK_F10", Key::ControlKey(ControlKey::F10)), ("VK_F11", Key::ControlKey(ControlKey::F11)), ("VK_F12", Key::ControlKey(ControlKey::F12)), ("VK_ENTER", Key::ControlKey(ControlKey::Return)), ("VK_CANCEL", Key::ControlKey(ControlKey::Cancel)), ("VK_BACK", Key::ControlKey(ControlKey::Backspace)), ("VK_TAB", Key::ControlKey(ControlKey::Tab)), ("VK_CLEAR", Key::ControlKey(ControlKey::Clear)), ("VK_RETURN", Key::ControlKey(ControlKey::Return)), ("VK_SHIFT", Key::ControlKey(ControlKey::Shift)), ("VK_CONTROL", Key::ControlKey(ControlKey::Control)), ("VK_MENU", Key::ControlKey(ControlKey::Alt)), ("VK_PAUSE", Key::ControlKey(ControlKey::Pause)), ("VK_CAPITAL", Key::ControlKey(ControlKey::CapsLock)), ("VK_KANA", Key::ControlKey(ControlKey::Kana)), ("VK_HANGUL", Key::ControlKey(ControlKey::Hangul)), ("VK_JUNJA", Key::ControlKey(ControlKey::Junja)), ("VK_FINAL", Key::ControlKey(ControlKey::Final)), ("VK_HANJA", Key::ControlKey(ControlKey::Hanja)), ("VK_KANJI", Key::ControlKey(ControlKey::Kanji)), ("VK_ESCAPE", Key::ControlKey(ControlKey::Escape)), ("VK_CONVERT", Key::ControlKey(ControlKey::Convert)), ("VK_SPACE", Key::ControlKey(ControlKey::Space)), ("VK_PRIOR", Key::ControlKey(ControlKey::PageUp)), ("VK_NEXT", Key::ControlKey(ControlKey::PageDown)), ("VK_END", Key::ControlKey(ControlKey::End)), ("VK_HOME", Key::ControlKey(ControlKey::Home)), ("VK_LEFT", Key::ControlKey(ControlKey::LeftArrow)), ("VK_UP", Key::ControlKey(ControlKey::UpArrow)), ("VK_RIGHT", Key::ControlKey(ControlKey::RightArrow)), ("VK_DOWN", Key::ControlKey(ControlKey::DownArrow)), ("VK_SELECT", Key::ControlKey(ControlKey::Select)), ("VK_PRINT", Key::ControlKey(ControlKey::Print)), ("VK_EXECUTE", Key::ControlKey(ControlKey::Execute)), ("VK_SNAPSHOT", Key::ControlKey(ControlKey::Snapshot)), ("VK_INSERT", Key::ControlKey(ControlKey::Insert)), ("VK_DELETE", Key::ControlKey(ControlKey::Delete)), ("VK_HELP", Key::ControlKey(ControlKey::Help)), ("VK_SLEEP", Key::ControlKey(ControlKey::Sleep)), ("VK_SEPARATOR", Key::ControlKey(ControlKey::Separator)), ("VK_NUMPAD0", Key::ControlKey(ControlKey::Numpad0)), ("VK_NUMPAD1", Key::ControlKey(ControlKey::Numpad1)), ("VK_NUMPAD2", Key::ControlKey(ControlKey::Numpad2)), ("VK_NUMPAD3", Key::ControlKey(ControlKey::Numpad3)), ("VK_NUMPAD4", Key::ControlKey(ControlKey::Numpad4)), ("VK_NUMPAD5", Key::ControlKey(ControlKey::Numpad5)), ("VK_NUMPAD6", Key::ControlKey(ControlKey::Numpad6)), ("VK_NUMPAD7", Key::ControlKey(ControlKey::Numpad7)), ("VK_NUMPAD8", Key::ControlKey(ControlKey::Numpad8)), ("VK_NUMPAD9", Key::ControlKey(ControlKey::Numpad9)), ("Apps", Key::ControlKey(ControlKey::Apps)), ("Meta", Key::ControlKey(ControlKey::Meta)), ("RAlt", Key::ControlKey(ControlKey::RAlt)), ("RWin", Key::ControlKey(ControlKey::RWin)), ("RControl", Key::ControlKey(ControlKey::RControl)), ("RShift", Key::ControlKey(ControlKey::RShift)), ("CTRL_ALT_DEL", Key::ControlKey(ControlKey::CtrlAltDel)), ("LOCK_SCREEN", Key::ControlKey(ControlKey::LockScreen)), ].iter().cloned().collect(); } #[inline] pub fn check_if_retry(msgtype: &str, title: &str, text: &str) -> bool { msgtype == "error" && title == "Connection Error" && !text.to_lowercase().contains("offline") && !text.to_lowercase().contains("exist") && !text.to_lowercase().contains("handshake") && !text.to_lowercase().contains("failed") && !text.to_lowercase().contains("resolve") && !text.to_lowercase().contains("mismatch") && !text.to_lowercase().contains("manually") }