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https://github.com/Cyrix126/gupaxx.git
synced 2024-12-22 22:59:27 +00:00
helper: start xmrig with sudo, implement [restart_xmrig()]
This commit takes care of correctly starting [sudo] with XMRig as a command argument. The frontend [restart_*] function is also implemented. In XMRig's case, the threads will sleep [3/5 seconds] before [starting/restarting] so that [sudo] has time to open its STDIN. This prevents premature inputs and outputting the password to the STDOUT.
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4 changed files with 84 additions and 58 deletions
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@ -232,7 +232,7 @@ impl Gupax {
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// Saved [Tab]
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ui.group(|ui| {
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let height = ui.available_height()/2.0;
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let width = (width/5.0)-(SPACE*1.8);
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let width = (width/5.0)-(SPACE*1.93);
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ui.horizontal(|ui| {
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if ui.add_sized([width, height], SelectableLabel::new(self.tab == Tab::About, "About")).on_hover_text(GUPAX_TAB_ABOUT).clicked() { self.tab = Tab::About; }
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ui.separator();
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111
src/helper.rs
111
src/helper.rs
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@ -43,8 +43,11 @@ use std::{
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time::*,
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thread,
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};
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use crate::{
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constants::*,
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SudoState,
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};
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use serde::{Serialize,Deserialize};
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use crate::constants::*;
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use num_format::{Buffer,Locale};
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use log::*;
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@ -558,29 +561,32 @@ impl Helper {
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helper.lock().unwrap().xmrig.lock().unwrap().state = ProcessState::Middle;
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}
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// // The "restart frontend" to a "frontend" function.
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// // Basically calls to kill the current p2pool, waits a little, then starts the below function in a a new thread, then exit.
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// pub fn restart_p2pool(helper: &Arc<Mutex<Self>>, state: &crate::disk::P2pool, path: &std::path::PathBuf) {
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// info!("P2Pool | Attempting to restart...");
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// helper.lock().unwrap().p2pool.lock().unwrap().signal = ProcessSignal::Restart;
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// helper.lock().unwrap().p2pool.lock().unwrap().state = ProcessState::Middle;
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//
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// let helper = Arc::clone(&helper);
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// let state = state.clone();
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// let path = path.clone();
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// // This thread lives to wait, start p2pool then die.
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// thread::spawn(move || {
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// while helper.lock().unwrap().p2pool.lock().unwrap().is_alive() {
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// warn!("P2Pool | Want to restart but process is still alive, waiting...");
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// thread::sleep(SECOND);
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// }
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// // Ok, process is not alive, start the new one!
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// Self::start_p2pool(&helper, &state, &path);
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// });
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// info!("P2Pool | Restart ... OK");
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// }
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// The "restart frontend" to a "frontend" function.
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// Basically calls to kill the current xmrig, waits a little, then starts the below function in a a new thread, then exit.
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pub fn restart_xmrig(helper: &Arc<Mutex<Self>>, state: &crate::disk::Xmrig, path: &std::path::PathBuf, sudo: Arc<Mutex<SudoState>>) {
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info!("XMRig | Attempting to restart...");
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helper.lock().unwrap().xmrig.lock().unwrap().signal = ProcessSignal::Restart;
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helper.lock().unwrap().xmrig.lock().unwrap().state = ProcessState::Middle;
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pub fn start_xmrig(helper: &Arc<Mutex<Self>>, state: &crate::disk::Xmrig, path: &std::path::PathBuf) {
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let helper = Arc::clone(&helper);
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let state = state.clone();
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let path = path.clone();
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// This thread lives to wait, start xmrig then die.
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thread::spawn(move || {
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while helper.lock().unwrap().xmrig.lock().unwrap().is_alive() {
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warn!("XMRig | Want to restart but process is still alive, waiting...");
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thread::sleep(SECOND);
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}
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// We should reallllly sleep so all the components have a chance to catch up.
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// Premature starting could miss the [sudo] STDIN timeframe and output it to STDOUT.
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thread::sleep(std::time::Duration::from_secs(3));
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// Ok, process is not alive, start the new one!
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Self::start_xmrig(&helper, &state, &path, sudo);
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});
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info!("XMRig | Restart ... OK");
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}
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pub fn start_xmrig(helper: &Arc<Mutex<Self>>, state: &crate::disk::Xmrig, path: &std::path::PathBuf, sudo: Arc<Mutex<SudoState>>) {
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helper.lock().unwrap().xmrig.lock().unwrap().state = ProcessState::Middle;
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let args = Self::build_xmrig_args_and_mutate_img(helper, state, path);
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@ -596,7 +602,7 @@ impl Helper {
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let priv_api = Arc::clone(&helper.lock().unwrap().priv_api_xmrig);
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let path = path.clone();
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thread::spawn(move || {
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Self::spawn_xmrig_watchdog(process, gui_api, pub_api, priv_api, args, path);
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Self::spawn_xmrig_watchdog(process, gui_api, pub_api, priv_api, args, path, sudo);
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});
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}
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@ -606,6 +612,12 @@ impl Helper {
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pub fn build_xmrig_args_and_mutate_img(helper: &Arc<Mutex<Self>>, state: &crate::disk::Xmrig, path: &std::path::PathBuf) -> Vec<String> {
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let mut args = Vec::with_capacity(500);
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let path = path.clone();
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// The actual binary we're executing is [sudo], technically
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// the XMRig path is just an argument to sudo, so add it.
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// Before that though, add the ["--prompt"] flag and set it
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// to emptyness so that it doesn't show up in the output.
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args.push(r#"--prompt="#.to_string());
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args.push(path.display().to_string());
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// [Simple]
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if state.simple {
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@ -666,7 +678,7 @@ impl Helper {
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// The P2Pool watchdog. Spawns 1 OS thread for reading a PTY (STDOUT+STDERR), and combines the [Child] with a PTY so STDIN actually works.
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#[tokio::main]
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async fn spawn_xmrig_watchdog(process: Arc<Mutex<Process>>, gui_api: Arc<Mutex<PubXmrigApi>>, pub_api: Arc<Mutex<PubXmrigApi>>, priv_api: Arc<Mutex<PrivXmrigApi>>, args: Vec<String>, mut path: std::path::PathBuf) {
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async fn spawn_xmrig_watchdog(process: Arc<Mutex<Process>>, gui_api: Arc<Mutex<PubXmrigApi>>, pub_api: Arc<Mutex<PubXmrigApi>>, priv_api: Arc<Mutex<PrivXmrigApi>>, args: Vec<String>, mut path: std::path::PathBuf, sudo: Arc<Mutex<SudoState>>) {
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// 1a. Create PTY
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let pty = portable_pty::native_pty_system();
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let pair = pty.openpty(portable_pty::PtySize {
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@ -676,12 +688,15 @@ impl Helper {
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pixel_height: 0,
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}).unwrap();
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// 1b. Create command
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let mut cmd = portable_pty::CommandBuilder::new(path.as_path());
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let mut cmd = portable_pty::CommandBuilder::new("sudo");
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cmd.args(args);
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cmd.cwd(path.as_path().parent().unwrap());
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// 1c. Create child
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let child_pty = Arc::new(Mutex::new(pair.slave.spawn_command(cmd).unwrap()));
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// 1d. Wait a bit for [sudo].
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thread::sleep(std::time::Duration::from_secs(3));
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// 2. Set process state
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let mut lock = process.lock().unwrap();
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lock.state = ProcessState::Alive;
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@ -690,6 +705,11 @@ impl Helper {
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lock.child = Some(Arc::clone(&child_pty));
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let reader = pair.master.try_clone_reader().unwrap(); // Get STDOUT/STDERR before moving the PTY
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lock.stdin = Some(pair.master);
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// 3. Input [sudo] pass, wipe, then drop.
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writeln!(lock.stdin.as_mut().unwrap(), "{}", sudo.lock().unwrap().pass);
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SudoState::wipe(&sudo);
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drop(sudo);
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drop(lock);
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// 3. Spawn PTY read thread
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@ -712,37 +732,38 @@ impl Helper {
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// Set timer
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let now = Instant::now();
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// Check SIGNAL
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if process.lock().unwrap().signal == ProcessSignal::Stop {
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// Stop on [Stop/Restart] SIGNAL
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let signal = process.lock().unwrap().signal;
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if signal == ProcessSignal::Stop || signal == ProcessSignal::Restart {
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child_pty.lock().unwrap().kill();
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let exit_status = match child_pty.lock().unwrap().wait() {
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Ok(e) => {
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let mut process = process.lock().unwrap();
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if e.success() {
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process.lock().unwrap().state = ProcessState::Dead; "Successful"
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if process.signal == ProcessSignal::Stop { process.state = ProcessState::Dead; }
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"Successful"
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} else {
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process.lock().unwrap().state = ProcessState::Failed; "Failed"
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if process.signal == ProcessSignal::Stop { process.state = ProcessState::Failed; }
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"Failed"
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}
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},
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_ => { process.lock().unwrap().state = ProcessState::Failed; "Unknown Error" },
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_ => {
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let mut process = process.lock().unwrap();
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if process.signal == ProcessSignal::Stop { process.state = ProcessState::Failed; }
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"Unknown Error"
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},
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};
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let uptime = HumanTime::into_human(start.elapsed());
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info!("XMRig | Stopped ... Uptime was: [{}], Exit status: [{}]", uptime, exit_status);
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writeln!(gui_api.lock().unwrap().output, "{}\nXMRig stopped | Uptime: [{}] | Exit status: [{}]\n{}\n\n\n\n", HORI_CONSOLE, uptime, exit_status, HORI_CONSOLE);
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process.lock().unwrap().signal = ProcessSignal::None;
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let mut process = process.lock().unwrap();
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match process.signal {
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ProcessSignal::Stop => process.signal = ProcessSignal::None,
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ProcessSignal::Restart => process.state = ProcessState::Waiting,
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_ => (),
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}
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break
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// Check RESTART
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} else if process.lock().unwrap().signal == ProcessSignal::Restart {
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child_pty.lock().unwrap().kill();
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let exit_status = match child_pty.lock().unwrap().wait() {
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Ok(e) => if e.success() { "Successful" } else { "Failed" },
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_ => "Unknown Error",
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};
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let uptime = HumanTime::into_human(start.elapsed());
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info!("XMRig | Stopped ... Uptime was: [{}], Exit status: [{}]", uptime, exit_status);
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writeln!(gui_api.lock().unwrap().output, "{}\nXMRig stopped | Uptime: [{}] | Exit status: [{}]\n{}\n\n\n\n", HORI_CONSOLE, uptime, exit_status, HORI_CONSOLE);
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process.lock().unwrap().state = ProcessState::Waiting;
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break
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// Check if the process is secretly died without us knowing :)
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// Check if the process secretly died without us knowing :)
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} else if let Ok(Some(code)) = child_pty.lock().unwrap().try_wait() {
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let exit_status = match code.success() {
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true => { process.lock().unwrap().state = ProcessState::Dead; "Successful" },
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@ -965,7 +965,7 @@ impl eframe::App for App {
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if ui.add_sized([box_width, height], Button::new(RichText::new("👁").color(color))).on_hover_text(PASSWORD_HIDE).clicked() { sudo.hide = !sudo.hide; }
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});
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if esc || ui.add_sized([width, height*4.0], Button::new("Leave")).clicked() { self.error_state.reset(); };
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// If [test_sudo()] finished, reset sudo state + error state.
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// If [test_sudo()] finished, reset error state.
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if sudo.success {
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self.error_state.reset();
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}
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@ -1164,8 +1164,8 @@ impl eframe::App for App {
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});
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} else if self.xmrig.lock().unwrap().is_alive() {
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if ui.add_sized([width, height], Button::new("⟲")).on_hover_text("Restart XMRig").clicked() {
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// self.error_state.ask_sudo(&self.sudo);
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// Helper::restart_xmrig(&self.helper, &self.state.xmrig, &self.state.gupax.absolute_xmrig_path);
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self.sudo.lock().unwrap().signal = ProcessSignal::Restart;
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self.error_state.ask_sudo(&self.sudo);
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}
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if ui.add_sized([width, height], Button::new("⏹")).on_hover_text("Stop XMRig").clicked() {
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Helper::stop_xmrig(&self.helper);
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@ -1179,8 +1179,8 @@ impl eframe::App for App {
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ui.add_sized([width, height], Button::new("⏹")).on_hover_text("Stop XMRig");
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});
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if ui.add_sized([width, height], Button::new("⏺")).on_hover_text("Start XMRig").clicked() {
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self.sudo.lock().unwrap().signal = ProcessSignal::Start;
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self.error_state.ask_sudo(&self.sudo);
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// Helper::start_xmrig(&self.helper, &self.state.xmrig, &self.state.gupax.absolute_xmrig_path);
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}
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}
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});
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19
src/sudo.rs
19
src/sudo.rs
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@ -42,6 +42,7 @@ pub struct SudoState {
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pub hide: bool, // Are we hiding the password?
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pub msg: String, // The message shown to the user if unsuccessful
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pub pass: String, // The actual password wrapped in a [SecretVec]
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pub signal: ProcessSignal, // Main GUI will set this depending on if we want [Start] or [Restart]
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}
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impl SudoState {
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@ -52,6 +53,7 @@ impl SudoState {
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hide: true,
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msg: "".to_string(),
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pass: String::with_capacity(256),
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signal: ProcessSignal::None,
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}
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}
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@ -61,15 +63,15 @@ impl SudoState {
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let mut state = state.lock().unwrap();
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state.testing = false;
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state.success = false;
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state.signal = ProcessSignal::None;
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}
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// Swaps the pass with another 256-capacity String,
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// zeroizes the old and drops it.
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pub fn wipe(state: &Arc<Mutex<Self>>) {
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let mut new = String::with_capacity(256);
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let mut state = state.lock().unwrap();
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// new is now == old, and vice-versa.
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std::mem::swap(&mut new, &mut state.pass);
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std::mem::swap(&mut new, &mut state.lock().unwrap().pass);
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// we're wiping & dropping the old pass here.
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new.zeroize();
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std::mem::drop(new);
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Ok(Some(code)) => if code.success() {
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info!("Sudo | Password ... OK!");
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state.lock().unwrap().success = true;
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crate::helper::Helper::start_xmrig(&helper, &xmrig, &path); //----------- Start XMRig
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break
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},
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Ok(None) => {
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},
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}
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}
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let mut lock = state.lock().unwrap();
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if !lock.success { lock.msg = "Incorrect password!".to_string(); }
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drop(lock);
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sudo.kill();
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if state.lock().unwrap().success {
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match state.lock().unwrap().signal {
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ProcessSignal::Restart => crate::helper::Helper::restart_xmrig(&helper, &xmrig, &path, Arc::clone(&state)),
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_ => crate::helper::Helper::start_xmrig(&helper, &xmrig, &path, Arc::clone(&state)),
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}
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} else {
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state.lock().unwrap().msg = "Incorrect password!".to_string();
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Self::wipe(&state);
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state.lock().unwrap().testing = false;
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}
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});
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}
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}
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