rustdesk/src/common.rs

1136 lines
37 KiB
Rust

use std::{
future::Future,
sync::{Arc, Mutex, RwLock},
};
#[derive(Debug, Eq, PartialEq)]
pub enum GrabState {
Ready,
Run,
Wait,
Exit,
}
#[cfg(not(any(target_os = "android", target_os = "ios")))]
pub use arboard::Clipboard as ClipboardContext;
#[cfg(not(any(target_os = "android", target_os = "ios")))]
use hbb_common::compress::decompress;
use hbb_common::{
allow_err,
compress::compress as compress_func,
config::{self, Config, CONNECT_TIMEOUT, READ_TIMEOUT},
get_version_number, log,
message_proto::*,
protobuf::Enum,
protobuf::Message as _,
rendezvous_proto::*,
socket_client,
tcp::FramedStream,
tokio, ResultType,
};
// #[cfg(any(target_os = "android", target_os = "ios", feature = "cli"))]
use hbb_common::{config::RENDEZVOUS_PORT, futures::future::join_all};
use crate::ui_interface::{get_option, set_option};
pub type NotifyMessageBox = fn(String, String, String, String) -> dyn Future<Output = ()>;
pub const CLIPBOARD_NAME: &'static str = "clipboard";
pub const CLIPBOARD_INTERVAL: u64 = 333;
#[cfg(all(target_os = "macos", feature = "flutter_texture_render"))]
// https://developer.apple.com/forums/thread/712709
// Memory alignment should be multiple of 64.
pub const DST_STRIDE_RGBA: usize = 64;
#[cfg(not(all(target_os = "macos", feature = "flutter_texture_render")))]
pub const DST_STRIDE_RGBA: usize = 1;
// the executable name of the portable version
pub const PORTABLE_APPNAME_RUNTIME_ENV_KEY: &str = "RUSTDESK_APPNAME";
pub const PLATFORM_WINDOWS: &str = "Windows";
pub const PLATFORM_LINUX: &str = "Linux";
pub const PLATFORM_MACOS: &str = "Mac OS";
pub const PLATFORM_ANDROID: &str = "Android";
pub mod input {
pub const MOUSE_TYPE_MOVE: i32 = 0;
pub const MOUSE_TYPE_DOWN: i32 = 1;
pub const MOUSE_TYPE_UP: i32 = 2;
pub const MOUSE_TYPE_WHEEL: i32 = 3;
pub const MOUSE_TYPE_TRACKPAD: i32 = 4;
pub const MOUSE_BUTTON_LEFT: i32 = 0x01;
pub const MOUSE_BUTTON_RIGHT: i32 = 0x02;
pub const MOUSE_BUTTON_WHEEL: i32 = 0x04;
pub const MOUSE_BUTTON_BACK: i32 = 0x08;
pub const MOUSE_BUTTON_FORWARD: i32 = 0x10;
}
lazy_static::lazy_static! {
pub static ref CONTENT: Arc<Mutex<String>> = Default::default();
pub static ref SOFTWARE_UPDATE_URL: Arc<Mutex<String>> = Default::default();
}
lazy_static::lazy_static! {
pub static ref DEVICE_ID: Arc<Mutex<String>> = Default::default();
pub static ref DEVICE_NAME: Arc<Mutex<String>> = Default::default();
}
lazy_static::lazy_static! {
// Is server process, with "--server" args
static ref IS_SERVER: bool = std::env::args().nth(1) == Some("--server".to_owned());
// Is server logic running. The server code can invoked to run by the main process if --server is not running.
static ref SERVER_RUNNING: Arc<RwLock<bool>> = Default::default();
}
#[cfg(not(any(target_os = "android", target_os = "ios")))]
lazy_static::lazy_static! {
static ref ARBOARD_MTX: Arc<Mutex<()>> = Arc::new(Mutex::new(()));
}
pub struct SimpleCallOnReturn {
pub b: bool,
pub f: Box<dyn Fn() + 'static>,
}
impl Drop for SimpleCallOnReturn {
fn drop(&mut self) {
if self.b {
(self.f)();
}
}
}
pub fn global_init() -> bool {
#[cfg(target_os = "linux")]
{
if !*IS_X11 {
crate::server::wayland::init();
}
}
true
}
pub fn global_clean() {}
#[inline]
pub fn set_server_running(b: bool) {
*SERVER_RUNNING.write().unwrap() = b;
}
// is server process, with "--server" args
#[inline]
pub fn is_server() -> bool {
*IS_SERVER
}
// Is server logic running.
#[inline]
pub fn is_server_running() -> bool {
*SERVER_RUNNING.read().unwrap()
}
#[inline]
pub fn valid_for_numlock(evt: &KeyEvent) -> bool {
if let Some(key_event::Union::ControlKey(ck)) = evt.union {
let v = ck.value();
(v >= ControlKey::Numpad0.value() && v <= ControlKey::Numpad9.value())
|| v == ControlKey::Decimal.value()
} else {
false
}
}
pub fn create_clipboard_msg(content: String) -> Message {
let bytes = content.into_bytes();
let compressed = compress_func(&bytes);
let compress = compressed.len() < bytes.len();
let content = if compress { compressed } else { bytes };
let mut msg = Message::new();
msg.set_clipboard(Clipboard {
compress,
content: content.into(),
..Default::default()
});
msg
}
#[cfg(not(any(target_os = "android", target_os = "ios")))]
pub fn check_clipboard(
ctx: &mut ClipboardContext,
old: Option<&Arc<Mutex<String>>>,
) -> Option<Message> {
let side = if old.is_none() { "host" } else { "client" };
let old = if let Some(old) = old { old } else { &CONTENT };
let content = {
let _lock = ARBOARD_MTX.lock().unwrap();
ctx.get_text()
};
if let Ok(content) = content {
if content.len() < 2_000_000 && !content.is_empty() {
let changed = content != *old.lock().unwrap();
if changed {
log::info!("{} update found on {}", CLIPBOARD_NAME, side);
*old.lock().unwrap() = content.clone();
return Some(create_clipboard_msg(content));
}
}
}
None
}
/// Set sound input device.
pub fn set_sound_input(device: String) {
let prior_device = get_option("audio-input".to_owned());
if prior_device != device {
log::info!("switch to audio input device {}", device);
std::thread::spawn(move || {
set_option("audio-input".to_owned(), device);
});
} else {
log::info!("audio input is already set to {}", device);
}
}
/// Get system's default sound input device name.
#[inline]
#[cfg(not(any(target_os = "android", target_os = "ios")))]
pub fn get_default_sound_input() -> Option<String> {
#[cfg(not(target_os = "linux"))]
{
use cpal::traits::{DeviceTrait, HostTrait};
let host = cpal::default_host();
let dev = host.default_input_device();
return if let Some(dev) = dev {
match dev.name() {
Ok(name) => Some(name),
Err(_) => None,
}
} else {
None
};
}
#[cfg(target_os = "linux")]
{
let input = crate::platform::linux::get_default_pa_source();
return if let Some(input) = input {
Some(input.1)
} else {
None
};
}
}
#[inline]
#[cfg(any(target_os = "android", target_os = "ios"))]
pub fn get_default_sound_input() -> Option<String> {
None
}
#[cfg(not(any(target_os = "android", target_os = "ios")))]
pub fn update_clipboard(clipboard: Clipboard, old: Option<&Arc<Mutex<String>>>) {
let content = if clipboard.compress {
decompress(&clipboard.content)
} else {
clipboard.content.into()
};
if let Ok(content) = String::from_utf8(content) {
if content.is_empty() {
// ctx.set_text may crash if content is empty
return;
}
match ClipboardContext::new() {
Ok(mut ctx) => {
let side = if old.is_none() { "host" } else { "client" };
let old = if let Some(old) = old { old } else { &CONTENT };
*old.lock().unwrap() = content.clone();
let _lock = ARBOARD_MTX.lock().unwrap();
allow_err!(ctx.set_text(content));
log::debug!("{} updated on {}", CLIPBOARD_NAME, side);
}
Err(err) => {
log::error!("Failed to create clipboard context: {}", err);
}
}
}
}
pub async fn send_opts_after_login(
config: &crate::client::LoginConfigHandler,
peer: &mut FramedStream,
) {
if let Some(opts) = config.get_option_message_after_login() {
let mut misc = Misc::new();
misc.set_option(opts);
let mut msg_out = Message::new();
msg_out.set_misc(misc);
allow_err!(peer.send(&msg_out).await);
}
}
#[cfg(feature = "use_rubato")]
pub fn resample_channels(
data: &[f32],
sample_rate0: u32,
sample_rate: u32,
channels: u16,
) -> Vec<f32> {
use rubato::{
InterpolationParameters, InterpolationType, Resampler, SincFixedIn, WindowFunction,
};
let params = InterpolationParameters {
sinc_len: 256,
f_cutoff: 0.95,
interpolation: InterpolationType::Nearest,
oversampling_factor: 160,
window: WindowFunction::BlackmanHarris2,
};
let mut resampler = SincFixedIn::<f64>::new(
sample_rate as f64 / sample_rate0 as f64,
params,
data.len() / (channels as usize),
channels as _,
);
let mut waves_in = Vec::new();
if channels == 2 {
waves_in.push(
data.iter()
.step_by(2)
.map(|x| *x as f64)
.collect::<Vec<_>>(),
);
waves_in.push(
data.iter()
.skip(1)
.step_by(2)
.map(|x| *x as f64)
.collect::<Vec<_>>(),
);
} else {
waves_in.push(data.iter().map(|x| *x as f64).collect::<Vec<_>>());
}
if let Ok(x) = resampler.process(&waves_in) {
if x.is_empty() {
Vec::new()
} else if x.len() == 2 {
x[0].chunks(1)
.zip(x[1].chunks(1))
.flat_map(|(a, b)| a.into_iter().chain(b))
.map(|x| *x as f32)
.collect()
} else {
x[0].iter().map(|x| *x as f32).collect()
}
} else {
Vec::new()
}
}
#[cfg(feature = "use_dasp")]
pub fn audio_resample(
data: &[f32],
sample_rate0: u32,
sample_rate: u32,
channels: u16,
) -> Vec<f32> {
use dasp::{interpolate::linear::Linear, signal, Signal};
let n = data.len() / (channels as usize);
let n = n * sample_rate as usize / sample_rate0 as usize;
if channels == 2 {
let mut source = signal::from_interleaved_samples_iter::<_, [_; 2]>(data.iter().cloned());
let a = source.next();
let b = source.next();
let interp = Linear::new(a, b);
let mut data = Vec::with_capacity(n << 1);
for x in source
.from_hz_to_hz(interp, sample_rate0 as _, sample_rate as _)
.take(n)
{
data.push(x[0]);
data.push(x[1]);
}
data
} else {
let mut source = signal::from_iter(data.iter().cloned());
let a = source.next();
let b = source.next();
let interp = Linear::new(a, b);
source
.from_hz_to_hz(interp, sample_rate0 as _, sample_rate as _)
.take(n)
.collect()
}
}
#[cfg(feature = "use_samplerate")]
pub fn audio_resample(
data: &[f32],
sample_rate0: u32,
sample_rate: u32,
channels: u16,
) -> Vec<f32> {
use samplerate::{convert, ConverterType};
convert(
sample_rate0 as _,
sample_rate as _,
channels as _,
ConverterType::SincBestQuality,
data,
)
.unwrap_or_default()
}
pub fn audio_rechannel(
input: Vec<f32>,
in_hz: u32,
out_hz: u32,
in_chan: u16,
output_chan: u16,
) -> Vec<f32> {
if in_chan == output_chan {
return input;
}
let mut input = input;
input.truncate(input.len() / in_chan as usize * in_chan as usize);
match (in_chan, output_chan) {
(1, 2) => audio_rechannel_1_2(&input, in_hz, out_hz),
(1, 3) => audio_rechannel_1_3(&input, in_hz, out_hz),
(1, 4) => audio_rechannel_1_4(&input, in_hz, out_hz),
(1, 5) => audio_rechannel_1_5(&input, in_hz, out_hz),
(1, 6) => audio_rechannel_1_6(&input, in_hz, out_hz),
(1, 7) => audio_rechannel_1_7(&input, in_hz, out_hz),
(1, 8) => audio_rechannel_1_8(&input, in_hz, out_hz),
(2, 1) => audio_rechannel_2_1(&input, in_hz, out_hz),
(2, 3) => audio_rechannel_2_3(&input, in_hz, out_hz),
(2, 4) => audio_rechannel_2_4(&input, in_hz, out_hz),
(2, 5) => audio_rechannel_2_5(&input, in_hz, out_hz),
(2, 6) => audio_rechannel_2_6(&input, in_hz, out_hz),
(2, 7) => audio_rechannel_2_7(&input, in_hz, out_hz),
(2, 8) => audio_rechannel_2_8(&input, in_hz, out_hz),
(3, 1) => audio_rechannel_3_1(&input, in_hz, out_hz),
(3, 2) => audio_rechannel_3_2(&input, in_hz, out_hz),
(3, 4) => audio_rechannel_3_4(&input, in_hz, out_hz),
(3, 5) => audio_rechannel_3_5(&input, in_hz, out_hz),
(3, 6) => audio_rechannel_3_6(&input, in_hz, out_hz),
(3, 7) => audio_rechannel_3_7(&input, in_hz, out_hz),
(3, 8) => audio_rechannel_3_8(&input, in_hz, out_hz),
(4, 1) => audio_rechannel_4_1(&input, in_hz, out_hz),
(4, 2) => audio_rechannel_4_2(&input, in_hz, out_hz),
(4, 3) => audio_rechannel_4_3(&input, in_hz, out_hz),
(4, 5) => audio_rechannel_4_5(&input, in_hz, out_hz),
(4, 6) => audio_rechannel_4_6(&input, in_hz, out_hz),
(4, 7) => audio_rechannel_4_7(&input, in_hz, out_hz),
(4, 8) => audio_rechannel_4_8(&input, in_hz, out_hz),
(5, 1) => audio_rechannel_5_1(&input, in_hz, out_hz),
(5, 2) => audio_rechannel_5_2(&input, in_hz, out_hz),
(5, 3) => audio_rechannel_5_3(&input, in_hz, out_hz),
(5, 4) => audio_rechannel_5_4(&input, in_hz, out_hz),
(5, 6) => audio_rechannel_5_6(&input, in_hz, out_hz),
(5, 7) => audio_rechannel_5_7(&input, in_hz, out_hz),
(5, 8) => audio_rechannel_5_8(&input, in_hz, out_hz),
(6, 1) => audio_rechannel_6_1(&input, in_hz, out_hz),
(6, 2) => audio_rechannel_6_2(&input, in_hz, out_hz),
(6, 3) => audio_rechannel_6_3(&input, in_hz, out_hz),
(6, 4) => audio_rechannel_6_4(&input, in_hz, out_hz),
(6, 5) => audio_rechannel_6_5(&input, in_hz, out_hz),
(6, 7) => audio_rechannel_6_7(&input, in_hz, out_hz),
(6, 8) => audio_rechannel_6_8(&input, in_hz, out_hz),
(7, 1) => audio_rechannel_7_1(&input, in_hz, out_hz),
(7, 2) => audio_rechannel_7_2(&input, in_hz, out_hz),
(7, 3) => audio_rechannel_7_3(&input, in_hz, out_hz),
(7, 4) => audio_rechannel_7_4(&input, in_hz, out_hz),
(7, 5) => audio_rechannel_7_5(&input, in_hz, out_hz),
(7, 6) => audio_rechannel_7_6(&input, in_hz, out_hz),
(7, 8) => audio_rechannel_7_8(&input, in_hz, out_hz),
(8, 1) => audio_rechannel_8_1(&input, in_hz, out_hz),
(8, 2) => audio_rechannel_8_2(&input, in_hz, out_hz),
(8, 3) => audio_rechannel_8_3(&input, in_hz, out_hz),
(8, 4) => audio_rechannel_8_4(&input, in_hz, out_hz),
(8, 5) => audio_rechannel_8_5(&input, in_hz, out_hz),
(8, 6) => audio_rechannel_8_6(&input, in_hz, out_hz),
(8, 7) => audio_rechannel_8_7(&input, in_hz, out_hz),
_ => input,
}
}
macro_rules! audio_rechannel {
($name:ident, $in_channels:expr, $out_channels:expr) => {
fn $name(input: &[f32], in_hz: u32, out_hz: u32) -> Vec<f32> {
use fon::{chan::Ch32, Audio, Frame};
let mut in_audio =
Audio::<Ch32, $in_channels>::with_silence(in_hz, input.len() / $in_channels);
for (x, y) in input.chunks_exact($in_channels).zip(in_audio.iter_mut()) {
let mut f = Frame::<Ch32, $in_channels>::default();
let mut i = 0;
for c in f.channels_mut() {
*c = x[i].into();
i += 1;
}
*y = f;
}
Audio::<Ch32, $out_channels>::with_audio(out_hz, &in_audio)
.as_f32_slice()
.to_owned()
}
};
}
audio_rechannel!(audio_rechannel_1_2, 1, 2);
audio_rechannel!(audio_rechannel_1_3, 1, 3);
audio_rechannel!(audio_rechannel_1_4, 1, 4);
audio_rechannel!(audio_rechannel_1_5, 1, 5);
audio_rechannel!(audio_rechannel_1_6, 1, 6);
audio_rechannel!(audio_rechannel_1_7, 1, 7);
audio_rechannel!(audio_rechannel_1_8, 1, 8);
audio_rechannel!(audio_rechannel_2_1, 2, 1);
audio_rechannel!(audio_rechannel_2_3, 2, 3);
audio_rechannel!(audio_rechannel_2_4, 2, 4);
audio_rechannel!(audio_rechannel_2_5, 2, 5);
audio_rechannel!(audio_rechannel_2_6, 2, 6);
audio_rechannel!(audio_rechannel_2_7, 2, 7);
audio_rechannel!(audio_rechannel_2_8, 2, 8);
audio_rechannel!(audio_rechannel_3_1, 3, 1);
audio_rechannel!(audio_rechannel_3_2, 3, 2);
audio_rechannel!(audio_rechannel_3_4, 3, 4);
audio_rechannel!(audio_rechannel_3_5, 3, 5);
audio_rechannel!(audio_rechannel_3_6, 3, 6);
audio_rechannel!(audio_rechannel_3_7, 3, 7);
audio_rechannel!(audio_rechannel_3_8, 3, 8);
audio_rechannel!(audio_rechannel_4_1, 4, 1);
audio_rechannel!(audio_rechannel_4_2, 4, 2);
audio_rechannel!(audio_rechannel_4_3, 4, 3);
audio_rechannel!(audio_rechannel_4_5, 4, 5);
audio_rechannel!(audio_rechannel_4_6, 4, 6);
audio_rechannel!(audio_rechannel_4_7, 4, 7);
audio_rechannel!(audio_rechannel_4_8, 4, 8);
audio_rechannel!(audio_rechannel_5_1, 5, 1);
audio_rechannel!(audio_rechannel_5_2, 5, 2);
audio_rechannel!(audio_rechannel_5_3, 5, 3);
audio_rechannel!(audio_rechannel_5_4, 5, 4);
audio_rechannel!(audio_rechannel_5_6, 5, 6);
audio_rechannel!(audio_rechannel_5_7, 5, 7);
audio_rechannel!(audio_rechannel_5_8, 5, 8);
audio_rechannel!(audio_rechannel_6_1, 6, 1);
audio_rechannel!(audio_rechannel_6_2, 6, 2);
audio_rechannel!(audio_rechannel_6_3, 6, 3);
audio_rechannel!(audio_rechannel_6_4, 6, 4);
audio_rechannel!(audio_rechannel_6_5, 6, 5);
audio_rechannel!(audio_rechannel_6_7, 6, 7);
audio_rechannel!(audio_rechannel_6_8, 6, 8);
audio_rechannel!(audio_rechannel_7_1, 7, 1);
audio_rechannel!(audio_rechannel_7_2, 7, 2);
audio_rechannel!(audio_rechannel_7_3, 7, 3);
audio_rechannel!(audio_rechannel_7_4, 7, 4);
audio_rechannel!(audio_rechannel_7_5, 7, 5);
audio_rechannel!(audio_rechannel_7_6, 7, 6);
audio_rechannel!(audio_rechannel_7_8, 7, 8);
audio_rechannel!(audio_rechannel_8_1, 8, 1);
audio_rechannel!(audio_rechannel_8_2, 8, 2);
audio_rechannel!(audio_rechannel_8_3, 8, 3);
audio_rechannel!(audio_rechannel_8_4, 8, 4);
audio_rechannel!(audio_rechannel_8_5, 8, 5);
audio_rechannel!(audio_rechannel_8_6, 8, 6);
audio_rechannel!(audio_rechannel_8_7, 8, 7);
pub fn test_nat_type() {
let mut i = 0;
std::thread::spawn(move || loop {
match test_nat_type_() {
Ok(true) => break,
Err(err) => {
log::error!("test nat: {}", err);
}
_ => {}
}
if Config::get_nat_type() != 0 {
break;
}
i = i * 2 + 1;
if i > 300 {
i = 300;
}
std::thread::sleep(std::time::Duration::from_secs(i));
});
}
#[tokio::main(flavor = "current_thread")]
async fn test_nat_type_() -> ResultType<bool> {
log::info!("Testing nat ...");
#[cfg(not(any(target_os = "android", target_os = "ios")))]
let is_direct = crate::ipc::get_socks_async(1_000).await.is_none(); // sync socks BTW
#[cfg(any(target_os = "android", target_os = "ios"))]
let is_direct = Config::get_socks().is_none(); // sync socks BTW
if !is_direct {
Config::set_nat_type(NatType::SYMMETRIC as _);
return Ok(true);
}
let start = std::time::Instant::now();
let (rendezvous_server, _, _) = get_rendezvous_server(1_000).await;
let server1 = rendezvous_server;
let server2 = crate::increase_port(&server1, -1);
let mut msg_out = RendezvousMessage::new();
let serial = Config::get_serial();
msg_out.set_test_nat_request(TestNatRequest {
serial,
..Default::default()
});
let mut port1 = 0;
let mut port2 = 0;
let mut local_addr = None;
for i in 0..2 {
let server = if i == 0 { &*server1 } else { &*server2 };
let mut socket =
socket_client::connect_tcp_local(server, local_addr, CONNECT_TIMEOUT).await?;
if i == 0 {
// reuse the local addr is required for nat test
local_addr = Some(socket.local_addr());
Config::set_option(
"local-ip-addr".to_owned(),
socket.local_addr().ip().to_string(),
);
}
socket.send(&msg_out).await?;
if let Some(msg_in) = get_next_nonkeyexchange_msg(&mut socket, None).await {
if let Some(rendezvous_message::Union::TestNatResponse(tnr)) = msg_in.union {
log::debug!("Got nat response from {}: port={}", server, tnr.port);
if i == 0 {
port1 = tnr.port;
} else {
port2 = tnr.port;
}
if let Some(cu) = tnr.cu.as_ref() {
Config::set_option(
"rendezvous-servers".to_owned(),
cu.rendezvous_servers.join(","),
);
Config::set_serial(cu.serial);
}
}
} else {
break;
}
}
let ok = port1 > 0 && port2 > 0;
if ok {
let t = if port1 == port2 {
NatType::ASYMMETRIC
} else {
NatType::SYMMETRIC
};
Config::set_nat_type(t as _);
log::info!("Tested nat type: {:?} in {:?}", t, start.elapsed());
}
Ok(ok)
}
pub async fn get_rendezvous_server(ms_timeout: u64) -> (String, Vec<String>, bool) {
#[cfg(any(target_os = "android", target_os = "ios"))]
let (mut a, mut b) = get_rendezvous_server_(ms_timeout);
#[cfg(not(any(target_os = "android", target_os = "ios")))]
let (mut a, mut b) = get_rendezvous_server_(ms_timeout).await;
#[cfg(windows)]
if let Ok(lic) = crate::platform::get_license_from_exe_name() {
if !lic.host.is_empty() {
a = lic.host;
}
}
let mut b: Vec<String> = b
.drain(..)
.map(|x| socket_client::check_port(x, config::RENDEZVOUS_PORT))
.collect();
let c = if b.contains(&a) {
b = b.drain(..).filter(|x| x != &a).collect();
true
} else {
a = b.pop().unwrap_or(a);
false
};
(a, b, c)
}
#[inline]
#[cfg(any(target_os = "android", target_os = "ios"))]
fn get_rendezvous_server_(_ms_timeout: u64) -> (String, Vec<String>) {
(
Config::get_rendezvous_server(),
Config::get_rendezvous_servers(),
)
}
#[inline]
#[cfg(not(any(target_os = "android", target_os = "ios")))]
async fn get_rendezvous_server_(ms_timeout: u64) -> (String, Vec<String>) {
crate::ipc::get_rendezvous_server(ms_timeout).await
}
#[inline]
#[cfg(any(target_os = "android", target_os = "ios"))]
pub async fn get_nat_type(_ms_timeout: u64) -> i32 {
Config::get_nat_type()
}
#[inline]
#[cfg(not(any(target_os = "android", target_os = "ios")))]
pub async fn get_nat_type(ms_timeout: u64) -> i32 {
crate::ipc::get_nat_type(ms_timeout).await
}
// used for client to test which server is faster in case stop-servic=Y
#[tokio::main(flavor = "current_thread")]
async fn test_rendezvous_server_() {
let servers = Config::get_rendezvous_servers();
if servers.len() <= 1 {
return;
}
let mut futs = Vec::new();
for host in servers {
futs.push(tokio::spawn(async move {
let tm = std::time::Instant::now();
if socket_client::connect_tcp(
crate::check_port(&host, RENDEZVOUS_PORT),
CONNECT_TIMEOUT,
)
.await
.is_ok()
{
let elapsed = tm.elapsed().as_micros();
Config::update_latency(&host, elapsed as _);
} else {
Config::update_latency(&host, -1);
}
}));
}
join_all(futs).await;
Config::reset_online();
}
// #[cfg(any(target_os = "android", target_os = "ios", feature = "cli"))]
pub fn test_rendezvous_server() {
std::thread::spawn(test_rendezvous_server_);
}
pub fn refresh_rendezvous_server() {
#[cfg(any(target_os = "android", target_os = "ios", feature = "cli"))]
test_rendezvous_server();
#[cfg(not(any(target_os = "android", target_os = "ios", feature = "cli")))]
std::thread::spawn(|| {
if crate::ipc::test_rendezvous_server().is_err() {
test_rendezvous_server();
}
});
}
pub fn run_me<T: AsRef<std::ffi::OsStr>>(args: Vec<T>) -> std::io::Result<std::process::Child> {
#[cfg(not(feature = "appimage"))]
{
let cmd = std::env::current_exe()?;
return std::process::Command::new(cmd).args(&args).spawn();
}
#[cfg(feature = "appimage")]
{
let appdir = std::env::var("APPDIR").map_err(|_| std::io::ErrorKind::Other)?;
let appimage_cmd = std::path::Path::new(&appdir).join("AppRun");
log::info!("path: {:?}", appimage_cmd);
return std::process::Command::new(appimage_cmd).args(&args).spawn();
}
}
#[inline]
pub fn username() -> String {
// fix bug of whoami
#[cfg(not(any(target_os = "android", target_os = "ios")))]
return whoami::username().trim_end_matches('\0').to_owned();
#[cfg(any(target_os = "android", target_os = "ios"))]
return DEVICE_NAME.lock().unwrap().clone();
}
#[inline]
pub fn hostname() -> String {
#[cfg(not(any(target_os = "android", target_os = "ios")))]
return whoami::hostname();
#[cfg(any(target_os = "android", target_os = "ios"))]
return DEVICE_NAME.lock().unwrap().clone();
}
#[inline]
pub fn get_sysinfo() -> serde_json::Value {
use hbb_common::sysinfo::{CpuExt, System, SystemExt};
let system = System::new_all();
let memory = system.total_memory();
let memory = (memory as f64 / 1024. / 1024. / 1024. * 100.).round() / 100.;
let cpus = system.cpus();
let cpu_name = cpus.first().map(|x| x.brand()).unwrap_or_default();
let cpu_name = cpu_name.trim_end();
let cpu_freq = cpus.first().map(|x| x.frequency()).unwrap_or_default();
let cpu_freq = (cpu_freq as f64 / 1024. * 100.).round() / 100.;
let cpu = if cpu_freq > 0. {
format!("{}, {}GHz, ", cpu_name, cpu_freq)
} else {
"".to_owned() // android
};
let num_cpus = num_cpus::get();
let num_pcpus = num_cpus::get_physical();
let mut os = system.distribution_id();
os = format!("{} / {}", os, system.long_os_version().unwrap_or_default());
#[cfg(windows)]
{
os = format!("{os} - {}", system.os_version().unwrap_or_default());
}
let hostname = hostname(); // sys.hostname() return localhost on android in my test
use serde_json::json;
let mut out = json!({
"cpu": format!("{cpu}{num_cpus}/{num_pcpus} cores"),
"memory": format!("{memory}GB"),
"os": os,
"hostname": hostname,
});
#[cfg(not(any(target_os = "android", target_os = "ios")))]
{
out["username"] = json!(crate::platform::get_active_username());
}
out
}
#[inline]
pub fn check_port<T: std::string::ToString>(host: T, port: i32) -> String {
hbb_common::socket_client::check_port(host, port)
}
#[inline]
pub fn increase_port<T: std::string::ToString>(host: T, offset: i32) -> String {
hbb_common::socket_client::increase_port(host, offset)
}
pub const POSTFIX_SERVICE: &'static str = "_service";
#[inline]
pub fn is_control_key(evt: &KeyEvent, key: &ControlKey) -> bool {
if let Some(key_event::Union::ControlKey(ck)) = evt.union {
ck.value() == key.value()
} else {
false
}
}
#[inline]
pub fn is_modifier(evt: &KeyEvent) -> bool {
if let Some(key_event::Union::ControlKey(ck)) = evt.union {
let v = ck.value();
v == ControlKey::Alt.value()
|| v == ControlKey::Shift.value()
|| v == ControlKey::Control.value()
|| v == ControlKey::Meta.value()
|| v == ControlKey::RAlt.value()
|| v == ControlKey::RShift.value()
|| v == ControlKey::RControl.value()
|| v == ControlKey::RWin.value()
} else {
false
}
}
pub fn check_software_update() {
std::thread::spawn(move || allow_err!(check_software_update_()));
}
#[tokio::main(flavor = "current_thread")]
async fn check_software_update_() -> hbb_common::ResultType<()> {
let url = "https://github.com/rustdesk/rustdesk/releases/latest";
let latest_release_response = reqwest::get(url).await?;
let latest_release_version = latest_release_response
.url()
.path()
.rsplit('/')
.next()
.unwrap();
let response_url = latest_release_response.url().to_string();
if get_version_number(&latest_release_version) > get_version_number(crate::VERSION) {
*SOFTWARE_UPDATE_URL.lock().unwrap() = response_url;
}
Ok(())
}
pub fn get_app_name() -> String {
hbb_common::config::APP_NAME.read().unwrap().clone()
}
#[cfg(target_os = "macos")]
pub fn get_full_name() -> String {
format!(
"{}.{}",
hbb_common::config::ORG.read().unwrap(),
hbb_common::config::APP_NAME.read().unwrap(),
)
}
pub fn is_setup(name: &str) -> bool {
name.to_lowercase().ends_with("install.exe")
}
pub fn get_custom_rendezvous_server(custom: String) -> String {
#[cfg(windows)]
if let Ok(lic) = crate::platform::windows::get_license_from_exe_name() {
if !lic.host.is_empty() {
return lic.host.clone();
}
}
if !custom.is_empty() {
return custom;
}
if !config::PROD_RENDEZVOUS_SERVER.read().unwrap().is_empty() {
return config::PROD_RENDEZVOUS_SERVER.read().unwrap().clone();
}
"".to_owned()
}
pub fn get_api_server(api: String, custom: String) -> String {
#[cfg(windows)]
if let Ok(lic) = crate::platform::windows::get_license_from_exe_name() {
if !lic.api.is_empty() {
return lic.api.clone();
}
}
if !api.is_empty() {
return api.to_owned();
}
let api = option_env!("API_SERVER").unwrap_or_default();
if !api.is_empty() {
return api.into();
}
let s0 = get_custom_rendezvous_server(custom);
if !s0.is_empty() {
let s = crate::increase_port(&s0, -2);
if s == s0 {
return format!("http://{}:{}", s, config::RENDEZVOUS_PORT - 2);
} else {
return format!("http://{}", s);
}
}
"https://admin.rustdesk.com".to_owned()
}
pub fn get_audit_server(api: String, custom: String, typ: String) -> String {
let url = get_api_server(api, custom);
if url.is_empty() || url.contains("rustdesk.com") {
return "".to_owned();
}
format!("{}/api/audit/{}", url, typ)
}
pub async fn post_request(url: String, body: String, header: &str) -> ResultType<String> {
let mut req = reqwest::Client::new().post(url);
if !header.is_empty() {
let tmp: Vec<&str> = header.split(": ").collect();
if tmp.len() == 2 {
req = req.header(tmp[0], tmp[1]);
}
}
req = req.header("Content-Type", "application/json");
let to = std::time::Duration::from_secs(12);
Ok(req.body(body).timeout(to).send().await?.text().await?)
}
#[tokio::main(flavor = "current_thread")]
pub async fn post_request_sync(url: String, body: String, header: &str) -> ResultType<String> {
post_request(url, body, header).await
}
#[inline]
pub fn make_privacy_mode_msg(state: back_notification::PrivacyModeState) -> Message {
let mut misc = Misc::new();
let mut back_notification = BackNotification::new();
back_notification.set_privacy_mode_state(state);
misc.set_back_notification(back_notification);
let mut msg_out = Message::new();
msg_out.set_misc(misc);
msg_out
}
pub fn is_keyboard_mode_supported(keyboard_mode: &KeyboardMode, version_number: i64) -> bool {
match keyboard_mode {
KeyboardMode::Legacy => true,
KeyboardMode::Map => version_number >= hbb_common::get_version_number("1.2.0"),
KeyboardMode::Translate => version_number >= hbb_common::get_version_number("1.2.0"),
KeyboardMode::Auto => version_number >= hbb_common::get_version_number("1.2.0"),
}
}
pub fn get_supported_keyboard_modes(version: i64) -> Vec<KeyboardMode> {
KeyboardMode::iter()
.filter(|&mode| is_keyboard_mode_supported(mode, version))
.map(|&mode| mode)
.collect::<Vec<_>>()
}
#[cfg(not(target_os = "linux"))]
lazy_static::lazy_static! {
pub static ref IS_X11: bool = false;
}
#[cfg(target_os = "linux")]
lazy_static::lazy_static! {
pub static ref IS_X11: bool = hbb_common::platform::linux::is_x11_or_headless();
}
pub fn make_fd_to_json(id: i32, path: String, entries: &Vec<FileEntry>) -> String {
use serde_json::json;
let mut fd_json = serde_json::Map::new();
fd_json.insert("id".into(), json!(id));
fd_json.insert("path".into(), json!(path));
let mut entries_out = vec![];
for entry in 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_out.push(entry_map);
}
fd_json.insert("entries".into(), json!(entries_out));
serde_json::to_string(&fd_json).unwrap_or("".into())
}
/// The function to handle the url scheme sent by the system.
///
/// 1. Try to send the url scheme from ipc.
/// 2. If failed to send the url scheme, we open a new main window to handle this url scheme.
pub fn handle_url_scheme(url: String) {
#[cfg(not(target_os = "ios"))]
if let Err(err) = crate::ipc::send_url_scheme(url.clone()) {
log::debug!("Send the url to the existing flutter process failed, {}. Let's open a new program to handle this.", err);
let _ = crate::run_me(vec![url]);
}
}
#[inline]
pub fn encode64<T: AsRef<[u8]>>(input: T) -> String {
#[allow(deprecated)]
base64::encode(input)
}
#[inline]
pub fn decode64<T: AsRef<[u8]>>(input: T) -> Result<Vec<u8>, base64::DecodeError> {
#[allow(deprecated)]
base64::decode(input)
}
pub async fn get_key(sync: bool) -> String {
#[cfg(windows)]
if let Ok(lic) = crate::platform::windows::get_license_from_exe_name() {
if !lic.key.is_empty() {
return lic.key;
}
}
#[cfg(target_os = "ios")]
let mut key = Config::get_option("key");
#[cfg(not(target_os = "ios"))]
let mut key = if sync {
Config::get_option("key")
} else {
let mut options = crate::ipc::get_options_async().await;
options.remove("key").unwrap_or_default()
};
if key.is_empty() && !option_env!("RENDEZVOUS_SERVER").unwrap_or("").is_empty() {
key = config::RS_PUB_KEY.to_owned();
}
key
}
pub fn is_peer_version_ge(v: &str) -> bool {
#[cfg(not(any(feature = "flutter", feature = "cli")))]
if let Some(session) = crate::ui::CUR_SESSION.lock().unwrap().as_ref() {
return session.get_peer_version() >= hbb_common::get_version_number(v);
}
#[cfg(feature = "flutter")]
if let Some(session) = crate::flutter::SESSIONS
.read()
.unwrap()
.get(&*crate::flutter::CUR_SESSION_ID.read().unwrap())
{
return session.get_peer_version() >= hbb_common::get_version_number(v);
}
false
}
pub fn pk_to_fingerprint(pk: Vec<u8>) -> String {
let s: String = pk.iter().map(|u| format!("{:02x}", u)).collect();
s.chars()
.enumerate()
.map(|(i, c)| {
if i > 0 && i % 4 == 0 {
format!(" {}", c)
} else {
format!("{}", c)
}
})
.collect()
}
#[inline]
pub async fn get_next_nonkeyexchange_msg(
conn: &mut FramedStream,
timeout: Option<u64>,
) -> Option<RendezvousMessage> {
let timeout = timeout.unwrap_or(READ_TIMEOUT);
for _ in 0..2 {
if let Some(Ok(bytes)) = conn.next_timeout(timeout).await {
if let Ok(msg_in) = RendezvousMessage::parse_from_bytes(&bytes) {
match &msg_in.union {
Some(rendezvous_message::Union::KeyExchange(_)) => {
continue;
}
_ => {
return Some(msg_in);
}
}
}
}
break;
}
None
}
#[cfg(not(any(target_os = "android", target_os = "ios")))]
pub fn check_process(arg: &str, same_uid: bool) -> bool {
use hbb_common::sysinfo::{ProcessExt, System, SystemExt};
let mut sys = System::new();
sys.refresh_processes();
let mut path = std::env::current_exe().unwrap_or_default();
if let Ok(linked) = path.read_link() {
path = linked;
}
let path = path.to_string_lossy().to_lowercase();
let my_uid = sys
.process((std::process::id() as usize).into())
.map(|x| x.user_id())
.unwrap_or_default();
for (_, p) in sys.processes().iter() {
let mut cur_path = p.exe().to_path_buf();
if let Ok(linked) = cur_path.read_link() {
cur_path = linked;
}
if cur_path.to_string_lossy().to_lowercase() != path {
continue;
}
if p.pid().to_string() == std::process::id().to_string() {
continue;
}
if same_uid && p.user_id() != my_uid {
continue;
}
let parg = if p.cmd().len() <= 1 { "" } else { &p.cmd()[1] };
if arg == parg {
return true;
}
}
false
}