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rustdesk/src/mobile.rs

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46 KiB
Rust
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100% open source
2022-05-12 17:35:25 +08:00
use crate::client::*;
use hbb_common::{
allow_err,
compress::decompress,
config::{Config, LocalConfig},
fs, log,
message_proto::*,
protobuf::Message as _,
rendezvous_proto::ConnType,
tokio::{
self,
sync::mpsc,
time::{self, Duration, Instant, Interval},
},
Stream,
};
use std::{
collections::{HashMap, VecDeque},
sync::{Arc, Mutex, RwLock},
};
lazy_static::lazy_static! {
static ref SESSION: Arc<RwLock<Option<Session>>> = Default::default();
}
#[derive(Clone, Default)]
pub struct Session {
id: String,
sender: Arc<RwLock<Option<mpsc::UnboundedSender<Data>>>>,
lc: Arc<RwLock<LoginConfigHandler>>,
events2ui: Arc<RwLock<VecDeque<String>>>,
rgba: Arc<RwLock<Option<Vec<u8>>>>,
}
impl Session {
pub fn start(id: &str, is_file_transfer: bool) {
LocalConfig::set_remote_id(id);
Self::close();
let mut session = Session::default();
session
.lc
.write()
.unwrap()
.initialize(id.to_owned(), false, false);
session.id = id.to_owned();
*SESSION.write().unwrap() = Some(session.clone());
std::thread::spawn(move || {
Connection::start(session, is_file_transfer);
});
}
pub fn ensure_init_event_queue() {
let mut s = SESSION.write().unwrap();
if s.is_none() {
s.replace(Session::default());
}
}
pub fn get() -> Arc<RwLock<Option<Session>>> {
SESSION.clone()
}
pub fn get_option(name: &str) -> String {
if let Some(session) = SESSION.read().unwrap().as_ref() {
if name == "remote_dir" {
return session.lc.read().unwrap().get_remote_dir();
}
return session.lc.read().unwrap().get_option(name);
}
"".to_owned()
}
pub fn set_option(name: String, value: String) {
if let Some(session) = SESSION.read().unwrap().as_ref() {
let mut value = value;
if name == "remote_dir" {
value = session.lc.write().unwrap().get_all_remote_dir(value);
}
return session.lc.write().unwrap().set_option(name, value);
}
}
pub fn input_os_password(pass: String, activate: bool) {
if let Some(session) = SESSION.read().unwrap().as_ref() {
input_os_password(pass, activate, session.clone());
}
}
fn send(data: Data) {
if let Some(session) = SESSION.read().unwrap().as_ref() {
session.send(data);
}
}
pub fn rgba() -> Option<Vec<u8>> {
if let Some(session) = SESSION.read().unwrap().as_ref() {
session.rgba.write().unwrap().take()
} else {
None
}
}
pub fn pop_event() -> Option<String> {
if let Some(session) = SESSION.read().unwrap().as_ref() {
session.events2ui.write().unwrap().pop_front()
} else {
None
}
}
pub fn toggle_option(name: &str) {
if let Some(session) = SESSION.read().unwrap().as_ref() {
let msg = session.lc.write().unwrap().toggle_option(name.to_owned());
if let Some(msg) = msg {
session.send_msg(msg);
}
}
}
pub fn refresh() {
Self::send(Data::Message(LoginConfigHandler::refresh()));
}
pub fn get_image_quality() -> String {
if let Some(session) = SESSION.read().unwrap().as_ref() {
session.lc.read().unwrap().image_quality.clone()
} else {
"".to_owned()
}
}
pub fn set_image_quality(value: &str) {
if let Some(session) = SESSION.read().unwrap().as_ref() {
let msg = session
.lc
.write()
.unwrap()
.save_image_quality(value.to_owned());
if let Some(msg) = msg {
session.send_msg(msg);
}
}
}
pub fn get_toggle_option(name: &str) -> Option<bool> {
if let Some(session) = SESSION.read().unwrap().as_ref() {
Some(session.lc.write().unwrap().get_toggle_option(name))
} else {
None
}
}
pub fn login(password: &str, remember: bool) {
Session::send(Data::Login((password.to_owned(), remember)));
}
pub fn close() {
Session::send(Data::Close);
SESSION.write().unwrap().take();
}
pub fn reconnect() {
if let Some(session) = SESSION.read().unwrap().as_ref() {
if let Some(sender) = session.sender.read().unwrap().as_ref() {
sender.send(Data::Close).ok();
}
let session = session.clone();
std::thread::spawn(move || {
Connection::start(session, false);
});
}
}
pub fn get_remember() -> bool {
if let Some(session) = SESSION.read().unwrap().as_ref() {
session.lc.read().unwrap().remember
} else {
false
}
}
#[inline]
pub fn send_msg(&self, msg: Message) {
if let Some(sender) = self.sender.read().unwrap().as_ref() {
sender.send(Data::Message(msg)).ok();
}
}
pub fn send_chat(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_msg_static(msg_out);
}
pub fn send_files(id: i32, path: String, to: String, include_hidden: bool, is_remote: bool) {
if let Some(session) = SESSION.write().unwrap().as_mut() {
session.send_files(id, path, to, include_hidden, is_remote);
}
}
#[inline]
pub fn send_msg_static(msg: Message) {
if let Some(session) = SESSION.read().unwrap().as_ref() {
session.send_msg(msg);
}
}
fn push_event(&self, name: &str, event: Vec<(&str, &str)>) {
let mut h: HashMap<&str, &str> = event.iter().cloned().collect();
assert!(h.get("name").is_none());
h.insert("name", name);
self.events2ui
.write()
.unwrap()
.push_back(serde_json::ser::to_string(&h).unwrap_or("".to_owned()));
}
#[inline]
fn peer_platform(&self) -> String {
self.lc.read().unwrap().info.platform.clone()
}
pub fn ctrl_alt_del() {
if let Some(session) = SESSION.read().unwrap().as_ref() {
if session.peer_platform() == "Windows" {
let k = Key::ControlKey(ControlKey::CtrlAltDel);
session.key_down_or_up(1, k, false, false, false, false);
} else {
let k = Key::ControlKey(ControlKey::Delete);
session.key_down_or_up(3, k, true, true, false, false);
}
}
}
pub fn switch_display(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_msg_static(msg_out);
}
pub fn lock_screen() {
if let Some(session) = SESSION.read().unwrap().as_ref() {
let k = Key::ControlKey(ControlKey::LockScreen);
session.key_down_or_up(1, k, false, false, false, false);
}
}
pub fn input_key(name: &str, down: bool, press: bool, alt: bool, ctrl: bool, shift: bool, command: bool) {
if let Some(session) = SESSION.read().unwrap().as_ref() {
let chars: Vec<char> = name.chars().collect();
if chars.len() == 1 {
let key = Key::_Raw(chars[0] as _);
session._input_key(key, down, press, alt, ctrl, shift, command);
} else {
if let Some(key) = KEY_MAP.get(name) {
session._input_key(key.clone(), down, press, alt, ctrl, shift, command);
}
}
}
}
pub fn input_string(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_msg_static(msg_out);
}
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
};
self.key_down_or_up(v, key, alt, ctrl, shift, command);
}
pub fn send_mouse(
mask: i32,
x: i32,
y: i32,
alt: bool,
ctrl: bool,
shift: bool,
command: bool,
) {
if let Some(session) = SESSION.read().unwrap().as_ref() {
send_mouse(mask, x, y, alt, ctrl, shift, command, session);
}
}
fn key_down_or_up(
&self,
down_or_up: i32,
key: Key,
alt: bool,
ctrl: bool,
shift: bool,
command: bool,
) {
let mut down_or_up = down_or_up;
let mut key_event = KeyEvent::new();
match key {
Key::Chr(chr) => {
key_event.set_chr(chr);
}
Key::ControlKey(key) => {
key_event.set_control_key(key.clone());
}
Key::_Raw(raw) => {
if raw > 'z' as u32 || raw < 'a' as u32 {
key_event.set_unicode(raw);
if down_or_up == 0 {
// ignore up, avoiding trigger twice
return;
}
down_or_up = 1; // if press, turn into down for avoiding trigger twice on server side
} else {
// to make ctrl+c works on windows
key_event.set_chr(raw);
}
}
_ => {}
}
if alt {
key_event.modifiers.push(ControlKey::Alt.into());
}
if shift {
key_event.modifiers.push(ControlKey::Shift.into());
}
if ctrl {
key_event.modifiers.push(ControlKey::Control.into());
}
if command {
key_event.modifiers.push(ControlKey::Meta.into());
}
if down_or_up == 1 {
key_event.down = true;
} else if down_or_up == 3 {
key_event.press = true;
}
let mut msg_out = Message::new();
msg_out.set_key_event(key_event);
log::debug!("{:?}", msg_out);
self.send_msg(msg_out);
}
}
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 msgbox(&self, msgtype: &str, title: &str, text: &str) {
let has_retry = if check_if_retry(msgtype, title, text) {
"true"
} else {
""
};
self.push_event(
"msgbox",
vec![
("type", msgtype),
("title", title),
("text", text),
("hasRetry", has_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, pi: PeerInfo) {
let mut lc = self.lc.write().unwrap();
let username = lc.get_username(&pi);
let mut displays = Vec::new();
let mut current = pi.current_display as usize;
if !lc.is_file_transfer {
if pi.displays.is_empty() {
self.msgbox("error", "Remote Error", "No Display");
}
for ref d in pi.displays.iter() {
let mut h: HashMap<&str, i32> = Default::default();
h.insert("x", d.x);
h.insert("y", d.y);
h.insert("width", d.width);
h.insert("height", d.height);
displays.push(h);
}
if current >= pi.displays.len() {
current = 0;
}
}
let displays = serde_json::ser::to_string(&displays).unwrap_or("".to_owned());
self.push_event(
"peer_info",
vec![
("username", &username),
("hostname", &pi.hostname),
("platform", &pi.platform),
("sas_enabled", &pi.sas_enabled.to_string()),
("displays", &displays),
("version", &pi.version),
("current_display", &current.to_string()),
("is_file_transfer", &lc.is_file_transfer.to_string()),
],
);
lc.handle_peer_info(username, pi);
let p = lc.should_auto_login();
if !p.is_empty() {
input_os_password(p, true, self.clone());
}
}
async fn handle_hash(&mut self, hash: Hash, peer: &mut Stream) {
handle_hash(self.lc.clone(), 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) {
handle_test_delay(t, peer).await;
}
}
const MILLI1: Duration = Duration::from_millis(1);
struct Connection {
video_handler: VideoHandler,
audio_handler: AudioHandler,
session: Session,
first_frame: bool,
read_jobs: Vec<fs::TransferJob>,
write_jobs: Vec<fs::TransferJob>,
timer: Interval,
last_update_jobs_status: (Instant, HashMap<i32, u64>),
}
impl Connection {
#[tokio::main(flavor = "current_thread")]
async fn start(session: Session, is_file_transfer: bool) {
let mut last_recv_time = Instant::now();
let (sender, mut receiver) = mpsc::unbounded_channel::<Data>();
*session.sender.write().unwrap() = Some(sender);
let conn_type = if is_file_transfer {
session.lc.write().unwrap().is_file_transfer = true;
ConnType::FILE_TRANSFER
} else {
ConnType::DEFAULT_CONN
};
let mut conn = Connection {
video_handler: VideoHandler::new(),
audio_handler: Default::default(),
session: session.clone(),
first_frame: false,
read_jobs: Vec::new(),
write_jobs: Vec::new(),
timer: time::interval(SEC30),
last_update_jobs_status: (Instant::now(), Default::default()),
};
let key = Config::get_option("key");
let token = Config::get_option("access_token");
match Client::start(&session.id, &key, &token, conn_type).await {
Ok((mut peer, direct)) => {
session.push_event(
"connection_ready",
vec![
("secure", &peer.is_secured().to_string()),
("direct", &direct.to_string()),
],
);
loop {
tokio::select! {
res = peer.next() => {
if let Some(res) = res {
match res {
Err(err) => {
log::error!("Connection closed: {}", err);
session.msgbox("error", "Connection Error", &err.to_string());
break;
}
Ok(ref bytes) => {
last_recv_time = Instant::now();
if !conn.handle_msg_from_peer(bytes, &mut peer).await {
break
}
}
}
} else {
log::info!("Reset by the peer");
session.msgbox("error", "Connection Error", "Reset by the peer");
break;
}
}
d = receiver.recv() => {
if let Some(d) = d {
if !conn.handle_msg_from_ui(d, &mut peer).await {
break;
}
}
}
_ = conn.timer.tick() => {
if last_recv_time.elapsed() >= SEC30 {
session.msgbox("error", "Connection Error", "Timeout");
break;
}
if !conn.read_jobs.is_empty() {
if let Err(err) = fs::handle_read_jobs(&mut conn.read_jobs, &mut peer).await {
log::debug!("Connection Error");
break;
}
conn.update_jobs_status();
} else {
conn.timer = time::interval_at(Instant::now() + SEC30, SEC30);
}
}
}
}
log::debug!("Exit io_loop of id={}", session.id);
}
Err(err) => {
crate::common::test_rendezvous_server();
session.msgbox("error", "Connection Error", &err.to_string());
}
}
}
async fn handle_msg_from_peer(&mut self, data: &[u8], peer: &mut Stream) -> bool {
if let Ok(msg_in) = Message::parse_from_bytes(&data) {
match msg_in.union {
Some(message::Union::video_frame(vf)) => {
if !self.first_frame {
self.first_frame = true;
}
if let Some(video_frame::Union::vp9s(vp9s)) = &vf.union {
if let Ok(true) = self.video_handler.handle_vp9s(vp9s) {
*self.session.rgba.write().unwrap() =
Some(self.video_handler.rgb.clone());
}
}
}
Some(message::Union::hash(hash)) => {
self.session.handle_hash(hash, peer).await;
}
Some(message::Union::login_response(lr)) => match lr.union {
Some(login_response::Union::error(err)) => {
if !self.session.handle_login_error(&err) {
return false;
}
}
Some(login_response::Union::peer_info(pi)) => {
self.session.handle_peer_info(pi);
}
_ => {}
},
Some(message::Union::clipboard(cb)) => {
if !self.session.lc.read().unwrap().disable_clipboard {
let content = if cb.compress {
decompress(&cb.content)
} else {
cb.content
};
if let Ok(content) = String::from_utf8(content) {
self.session
.push_event("clipboard", vec![("content", &content)]);
}
}
}
Some(message::Union::cursor_data(cd)) => {
let colors = hbb_common::compress::decompress(&cd.colors);
self.session.push_event(
"cursor_data",
vec![
("id", &cd.id.to_string()),
("hotx", &cd.hotx.to_string()),
("hoty", &cd.hoty.to_string()),
("width", &cd.width.to_string()),
("height", &cd.height.to_string()),
(
"colors",
&serde_json::ser::to_string(&colors).unwrap_or("".to_owned()),
),
],
);
}
Some(message::Union::cursor_id(id)) => {
self.session
.push_event("cursor_id", vec![("id", &id.to_string())]);
}
Some(message::Union::cursor_position(cp)) => {
self.session.push_event(
"cursor_position",
vec![("x", &cp.x.to_string()), ("y", &cp.y.to_string())],
);
}
Some(message::Union::file_response(fr)) => match fr.union {
Some(file_response::Union::dir(fd)) => {
let entries = fd.entries.to_vec();
let id = fd.id;
self.session.push_event(
"file_dir",
vec![("value", &make_fd_to_json(fd)), ("is_local", "false")],
);
if let Some(job) = fs::get_job(id, &mut self.write_jobs) {
job.set_files(entries);
}
}
Some(file_response::Union::block(block)) => {
if let Some(job) = fs::get_job(block.id, &mut self.write_jobs) {
if let Err(_err) = job.write(block, None).await {
// to-do: add "skip" for writing job
}
self.update_jobs_status();
}
}
Some(file_response::Union::done(d)) => {
if let Some(job) = fs::get_job(d.id, &mut self.write_jobs) {
job.modify_time();
fs::remove_job(d.id, &mut self.write_jobs);
}
self.handle_job_status(d.id, d.file_num, None);
}
Some(file_response::Union::error(e)) => {
self.handle_job_status(e.id, e.file_num, Some(e.error));
}
_ => {}
},
Some(message::Union::misc(misc)) => match misc.union {
Some(misc::Union::audio_format(f)) => {
self.audio_handler.handle_format(f);
}
Some(misc::Union::chat_message(c)) => {
self.session
.push_event("chat_client_mode", vec![("text", &c.text)]);
}
Some(misc::Union::permission_info(p)) => {
log::info!("Change permission {:?} -> {}", p.permission, p.enabled);
use permission_info::Permission;
self.session.push_event(
"permission",
vec![(
match p.permission.enum_value_or_default() {
Permission::Keyboard => "keyboard",
Permission::Clipboard => "clipboard",
Permission::Audio => "audio",
_ => "",
},
&p.enabled.to_string(),
)],
);
}
Some(misc::Union::switch_display(s)) => {
self.video_handler.reset();
self.session.push_event(
"switch_display",
vec![
("display", &s.display.to_string()),
("x", &s.x.to_string()),
("y", &s.y.to_string()),
("width", &s.width.to_string()),
("height", &s.height.to_string()),
],
);
}
Some(misc::Union::close_reason(c)) => {
self.session.msgbox("error", "Connection Error", &c);
return false;
}
_ => {}
},
Some(message::Union::test_delay(t)) => {
self.session.handle_test_delay(t, peer).await;
}
Some(message::Union::audio_frame(frame)) => {
if !self.session.lc.read().unwrap().disable_audio {
self.audio_handler.handle_frame(frame);
}
}
_ => {}
}
}
true
}
async fn handle_msg_from_ui(&mut self, data: Data, peer: &mut Stream) -> bool {
match data {
Data::Close => {
return false;
}
Data::Login((password, remember)) => {
self.session
.handle_login_from_ui(password, remember, peer)
.await;
}
Data::Message(msg) => {
allow_err!(peer.send(&msg).await);
}
Data::SendFiles((id, path, to, include_hidden, is_remote)) => {
if is_remote {
log::debug!("New job {}, write to {} from remote {}", id, to, path);
self.write_jobs
.push(fs::TransferJob::new_write(id, to, Vec::new()));
allow_err!(peer.send(&fs::new_send(id, path, include_hidden)).await);
} else {
match fs::TransferJob::new_read(id, path.clone(), include_hidden) {
Err(err) => {
self.handle_job_status(id, -1, Some(err.to_string()));
}
Ok(job) => {
log::debug!(
"New job {}, read {} to remote {}, {} files",
id,
path,
to,
job.files().len()
);
let files = job.files().clone();
self.read_jobs.push(job);
self.timer = time::interval(MILLI1);
allow_err!(peer.send(&fs::new_receive(id, to, files)).await);
}
}
}
}
Data::RemoveDirAll((id, path, is_remote)) => {
if is_remote {
let mut msg_out = Message::new();
let mut file_action = FileAction::new();
file_action.set_all_files(ReadAllFiles {
id,
path: path.clone(),
include_hidden: true,
..Default::default()
});
msg_out.set_file_action(file_action);
allow_err!(peer.send(&msg_out).await);
} else {
match fs::get_recursive_files(&path, true) {
Ok(entries) => {
let mut fd = FileDirectory::new();
fd.id = id;
fd.path = path;
fd.entries = entries;
self.session.push_event(
"file_dir",
vec![("value", &make_fd_to_json(fd)), ("is_local", "true")],
);
}
Err(err) => {
self.handle_job_status(id, -1, Some(err.to_string()));
}
}
}
}
Data::CancelJob(id) => {
let mut msg_out = Message::new();
let mut file_action = FileAction::new();
file_action.set_cancel(FileTransferCancel {
id: id,
..Default::default()
});
msg_out.set_file_action(file_action);
allow_err!(peer.send(&msg_out).await);
if let Some(job) = fs::get_job(id, &mut self.write_jobs) {
job.remove_download_file();
fs::remove_job(id, &mut self.write_jobs);
}
fs::remove_job(id, &mut self.read_jobs);
}
Data::RemoveDir((id, path)) => {
let mut msg_out = Message::new();
let mut file_action = FileAction::new();
file_action.set_remove_dir(FileRemoveDir {
id,
path,
recursive: true,
..Default::default()
});
msg_out.set_file_action(file_action);
allow_err!(peer.send(&msg_out).await);
}
Data::RemoveFile((id, path, file_num, is_remote)) => {
if is_remote {
let mut msg_out = Message::new();
let mut file_action = FileAction::new();
file_action.set_remove_file(FileRemoveFile {
id,
path,
file_num,
..Default::default()
});
msg_out.set_file_action(file_action);
allow_err!(peer.send(&msg_out).await);
} else {
match fs::remove_file(&path) {
Err(err) => {
self.handle_job_status(id, file_num, Some(err.to_string()));
}
Ok(()) => {
self.handle_job_status(id, file_num, None);
}
}
}
}
Data::CreateDir((id, path, is_remote)) => {
if is_remote {
let mut msg_out = Message::new();
let mut file_action = FileAction::new();
file_action.set_create(FileDirCreate {
id,
path,
..Default::default()
});
msg_out.set_file_action(file_action);
allow_err!(peer.send(&msg_out).await);
} else {
match fs::create_dir(&path) {
Err(err) => {
self.handle_job_status(id, -1, Some(err.to_string()));
}
Ok(()) => {
self.handle_job_status(id, -1, None);
}
}
}
}
_ => {}
}
true
}
#[inline]
fn update_job_status(
job: &fs::TransferJob,
elapsed: i32,
last_update_jobs_status: &mut (Instant, HashMap<i32, u64>),
session: &Session,
) {
if elapsed <= 0 {
return;
}
let transferred = job.transferred();
let last_transferred = {
if let Some(v) = last_update_jobs_status.1.get(&job.id()) {
v.to_owned()
} else {
0
}
};
last_update_jobs_status.1.insert(job.id(), transferred);
let speed = (transferred - last_transferred) as f64 / (elapsed as f64 / 1000.);
let file_num = job.file_num() - 1;
session.push_event(
"job_progress",
vec![
("id", &job.id().to_string()),
("file_num", &file_num.to_string()),
("speed", &speed.to_string()),
("finished_size", &job.finished_size().to_string()),
],
);
}
fn update_jobs_status(&mut self) {
let elapsed = self.last_update_jobs_status.0.elapsed().as_millis() as i32;
if elapsed >= 1000 {
for job in self.read_jobs.iter() {
Self::update_job_status(
job,
elapsed,
&mut self.last_update_jobs_status,
&self.session,
);
}
for job in self.write_jobs.iter() {
Self::update_job_status(
job,
elapsed,
&mut self.last_update_jobs_status,
&self.session,
);
}
self.last_update_jobs_status.0 = Instant::now();
}
}
fn handle_job_status(&mut self, id: i32, file_num: i32, err: Option<String>) {
if let Some(err) = err {
self.session
.push_event("job_error", vec![("id", &id.to_string()), ("err", &err)]);
} else {
self.session.push_event(
"job_done",
vec![("id", &id.to_string()), ("file_num", &file_num.to_string())],
);
}
}
}
pub fn make_fd_to_json(fd: FileDirectory) -> String {
use serde_json::json;
let mut fd_json = serde_json::Map::new();
fd_json.insert("id".into(), json!(fd.id));
fd_json.insert("path".into(), json!(fd.path));
let mut entries = vec![];
for entry in fd.entries {
let mut entry_map = serde_json::Map::new();
entry_map.insert("entry_type".into(), json!(entry.entry_type.value()));
entry_map.insert("name".into(), json!(entry.name));
entry_map.insert("size".into(), json!(entry.size));
entry_map.insert("modified_time".into(), json!(entry.modified_time));
entries.push(entry_map);
}
fd_json.insert("entries".into(), json!(entries));
serde_json::to_string(&fd_json).unwrap_or("".into())
}
// Server Side
// TODO connection_manager need use struct and trait,impl default method
#[cfg(target_os = "android")]
pub mod connection_manager {
use std::{
iter::FromIterator,
rc::{Rc, Weak},
};
use super::*;
use crate::ipc;
use crate::ipc::Data;
use crate::server::Connection as Conn;
use hbb_common::{
allow_err, log,
tokio::{
self,
sync::mpsc::{UnboundedReceiver, UnboundedSender},
task::spawn_blocking,
},
};
use scrap::android::call_main_service_set_by_name;
use serde_derive::Serialize;
#[derive(Debug, Serialize, Clone)]
struct Client {
id: i32,
pub authorized: bool,
is_file_transfer: bool,
name: String,
peer_id: String,
keyboard: bool,
clipboard: bool,
audio: bool,
#[serde(skip)]
tx: UnboundedSender<Data>,
}
lazy_static::lazy_static! {
static ref CLIENTS: RwLock<HashMap<i32,Client>> = Default::default();
static ref WRITE_JOBS: Mutex<Vec<fs::TransferJob>> = Mutex::new(Vec::new());
}
pub fn start_channel(rx: UnboundedReceiver<Data>, tx: UnboundedSender<Data>) {
std::thread::spawn(move || start_listen(rx, tx));
}
#[tokio::main(flavor = "current_thread")]
async fn start_listen(mut rx: UnboundedReceiver<Data>, tx: UnboundedSender<Data>) {
let mut current_id = 0;
loop {
match rx.recv().await {
Some(Data::Login {
id,
is_file_transfer,
port_forward,
peer_id,
name,
authorized,
keyboard,
clipboard,
audio,
file,
file_transfer_enabled,
}) => {
current_id = id;
let mut client = Client {
id,
authorized,
is_file_transfer,
name: name.clone(),
peer_id: peer_id.clone(),
keyboard,
clipboard,
audio,
tx: tx.clone(),
};
if authorized {
client.authorized = true;
let client_json = serde_json::to_string(&client).unwrap_or("".into());
// send to Android service,active notification no matter UI is shown or not.
if let Err(e) = call_main_service_set_by_name(
"on_client_authorized",
Some(&client_json),
None,
) {
log::debug!("call_service_set_by_name fail,{}", e);
}
// send to UI,refresh widget
if let Some(session) = Session::get().read().unwrap().as_ref() {
session
.push_event("on_client_authorized", vec![("client", &client_json)]);
};
} else {
let client_json = serde_json::to_string(&client).unwrap_or("".into());
// send to Android service,active notification no matter UI is shown or not.
if let Err(e) = call_main_service_set_by_name(
"try_start_without_auth",
Some(&client_json),
None,
) {
log::debug!("call_service_set_by_name fail,{}", e);
}
// send to UI,refresh widget
if let Some(session) = Session::get().read().unwrap().as_ref() {
session.push_event(
"try_start_without_auth",
vec![("client", &client_json)],
);
};
}
CLIENTS.write().unwrap().insert(id, client);
}
Some(Data::ChatMessage { text }) => {
handle_chat(current_id, text);
}
Some(Data::FS(fs)) => {
handle_fs(fs, &tx).await;
}
Some(Data::Close) => {
break;
}
None => {
break;
}
_ => {}
}
}
remove_connection(current_id);
}
pub fn get_clients_state() -> String {
let clients = CLIENTS.read().unwrap();
let res = Vec::from_iter(clients.values().cloned());
serde_json::to_string(&res).unwrap_or("".into())
}
pub fn get_clients_length() -> usize {
let clients = CLIENTS.read().unwrap();
clients.len()
}
pub fn close_conn(id: i32) {
if let Some(client) = CLIENTS.write().unwrap().get(&id) {
allow_err!(client.tx.send(Data::Close));
};
}
pub fn on_login_res(id: i32, res: bool) {
if let Some(client) = CLIENTS.write().unwrap().get_mut(&id) {
if res {
allow_err!(client.tx.send(Data::Authorize));
client.authorized = true;
} else {
allow_err!(client.tx.send(Data::Close));
}
};
}
fn remove_connection(id: i32) {
let mut clients = CLIENTS.write().unwrap();
clients.remove(&id);
if clients
.iter()
.filter(|(k, v)| !v.is_file_transfer)
.next()
.is_none()
{
if let Err(e) = call_main_service_set_by_name("stop_capture", None, None) {
log::debug!("stop_capture err:{}", e);
}
}
if let Some(session) = Session::get().read().unwrap().as_ref() {
session.push_event("on_client_remove", vec![("id", &id.to_string())]);
};
}
// server mode handle chat from other peers
fn handle_chat(id: i32, text: String) {
if let Some(session) = Session::get().read().unwrap().as_ref() {
session.push_event(
"chat_server_mode",
vec![("id", &id.to_string()), ("text", &text)],
);
};
}
// server mode send chat to peer
pub fn send_chat(id: i32, text: String) {
let mut clients = CLIENTS.read().unwrap();
if let Some(client) = clients.get(&id) {
allow_err!(client.tx.send(Data::ChatMessage { text }));
}
}
// handle FS server
async fn handle_fs(fs: ipc::FS, tx: &UnboundedSender<Data>) {
match fs {
ipc::FS::ReadDir {
dir,
include_hidden,
} => {
read_dir(&dir, include_hidden, tx).await;
}
ipc::FS::RemoveDir {
path,
id,
recursive,
} => {
remove_dir(path, id, recursive, tx).await;
}
ipc::FS::RemoveFile { path, id, file_num } => {
remove_file(path, id, file_num, tx).await;
}
ipc::FS::CreateDir { path, id } => {
create_dir(path, id, tx).await;
}
ipc::FS::NewWrite {
path,
id,
mut files,
} => {
WRITE_JOBS.lock().unwrap().push(fs::TransferJob::new_write(
id,
path,
files
.drain(..)
.map(|f| FileEntry {
name: f.0,
modified_time: f.1,
..Default::default()
})
.collect(),
));
}
ipc::FS::CancelWrite { id } => {
let write_jobs = &mut *WRITE_JOBS.lock().unwrap();
if let Some(job) = fs::get_job(id, write_jobs) {
job.remove_download_file();
fs::remove_job(id, write_jobs);
}
}
ipc::FS::WriteDone { id, file_num } => {
let write_jobs = &mut *WRITE_JOBS.lock().unwrap();
if let Some(job) = fs::get_job(id, write_jobs) {
job.modify_time();
send_raw(fs::new_done(id, file_num), tx);
fs::remove_job(id, write_jobs);
}
}
ipc::FS::WriteBlock {
id,
file_num,
data,
compressed,
} => {
if let Some(job) = fs::get_job(id, &mut *WRITE_JOBS.lock().unwrap()) {
if let Err(err) = job
.write(
FileTransferBlock {
id,
file_num,
data,
compressed,
..Default::default()
},
None,
)
.await
{
send_raw(fs::new_error(id, err, file_num), &tx);
}
}
}
_ => {}
}
}
async fn read_dir(dir: &str, include_hidden: bool, tx: &UnboundedSender<Data>) {
let path = {
if dir.is_empty() {
Config::get_home()
} else {
fs::get_path(dir)
}
};
if let Ok(Ok(fd)) = spawn_blocking(move || fs::read_dir(&path, include_hidden)).await {
let mut msg_out = Message::new();
let mut file_response = FileResponse::new();
file_response.set_dir(fd);
msg_out.set_file_response(file_response);
send_raw(msg_out, tx);
}
}
async fn handle_result<F: std::fmt::Display, S: std::fmt::Display>(
res: std::result::Result<std::result::Result<(), F>, S>,
id: i32,
file_num: i32,
tx: &UnboundedSender<Data>,
) {
match res {
Err(err) => {
send_raw(fs::new_error(id, err, file_num), tx);
}
Ok(Err(err)) => {
send_raw(fs::new_error(id, err, file_num), tx);
}
Ok(Ok(())) => {
send_raw(fs::new_done(id, file_num), tx);
}
}
}
async fn remove_file(path: String, id: i32, file_num: i32, tx: &UnboundedSender<Data>) {
handle_result(
spawn_blocking(move || fs::remove_file(&path)).await,
id,
file_num,
tx,
)
.await;
}
async fn create_dir(path: String, id: i32, tx: &UnboundedSender<Data>) {
handle_result(
spawn_blocking(move || fs::create_dir(&path)).await,
id,
0,
tx,
)
.await;
}
async fn remove_dir(path: String, id: i32, recursive: bool, tx: &UnboundedSender<Data>) {
let path = fs::get_path(&path);
handle_result(
spawn_blocking(move || {
if recursive {
fs::remove_all_empty_dir(&path)
} else {
std::fs::remove_dir(&path).map_err(|err| err.into())
}
})
.await,
id,
0,
tx,
)
.await;
}
fn send_raw(msg: Message, tx: &UnboundedSender<Data>) {
match msg.write_to_bytes() {
Ok(bytes) => {
allow_err!(tx.send(Data::RawMessage(bytes)));
}
err => allow_err!(err),
}
}
}
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