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https://github.com/Cyrix126/gupaxx.git
synced 2024-12-22 14:49:21 +00:00
macOS: handle killing XMRig with [sudo]
Even with the parent-child relationship and direct process handle, Gupax can't kill an XMRig spawned with [sudo] on macOS, even though it can do it fine on Linux. So, on macOS, get the user's [sudo] pass on the [Stop] button and summon a [sudo kill] on XMRig's PID. This also complicates things since now we have to keep [SudoState] somehow between a [Stop] and a [Start]. So there is macOS specific code that now handles that.
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parent
4da775667b
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4 changed files with 83 additions and 41 deletions
11
Cargo.lock
generated
11
Cargo.lock
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@ -30,6 +30,7 @@ dependencies = [
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"rfd",
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"serde",
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"serde_json",
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"static_vcruntime",
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"sudo",
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"tar",
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"tls-api",
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@ -3740,6 +3741,12 @@ version = "1.1.0"
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source = "registry+https://github.com/rust-lang/crates.io-index"
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checksum = "a2eb9349b6444b326872e140eb1cf5e7c522154d69e7a0ffb0fb81c06b37543f"
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[[package]]
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name = "static_vcruntime"
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version = "2.0.0"
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source = "registry+https://github.com/rust-lang/crates.io-index"
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checksum = "954e3e877803def9dc46075bf4060147c55cd70db97873077232eae0269dc89b"
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[[package]]
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name = "str-buf"
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version = "1.0.6"
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@ -3911,9 +3918,9 @@ dependencies = [
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[[package]]
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name = "tiff"
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version = "0.8.0"
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version = "0.8.1"
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source = "registry+https://github.com/rust-lang/crates.io-index"
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checksum = "f17def29300a156c19ae30814710d9c63cd50288a49c6fd3a10ccfbe4cf886fd"
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checksum = "7449334f9ff2baf290d55d73983a7d6fa15e01198faef72af07e2a8db851e471"
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dependencies = [
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"flate2",
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"jpeg-decoder",
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@ -23,12 +23,11 @@
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// way down and (if possible) asynchronously executing them at the very end.
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//
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// The main GUI thread will interface with this thread by mutating the Arc<Mutex>'s
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// found here, e.g: User clicks [Start P2Pool] -> Arc<Mutex<ProcessSignal> is set
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// indicating to this thread during its loop: "I should start P2Pool!", e.g:
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// found here, e.g: User clicks [Stop P2Pool] -> Arc<Mutex<ProcessSignal> is set
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// indicating to this thread during its loop: "I should stop P2Pool!", e.g:
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//
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// match p2pool.lock().unwrap().signal {
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// ProcessSignal::Start => start_p2pool(),
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// ...
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// if p2pool.lock().unwrap().signal == ProcessSignal::Stop {
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// stop_p2pool(),
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// }
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//
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// This also includes all things related to handling the child processes (P2Pool/XMRig):
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@ -60,7 +59,7 @@ const MAX_PROCESS_OUTPUT_BYTES: usize = 56_000_000;
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// Just a little leeway so a reset will go off before the [String] allocates more memory.
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const PROCESS_OUTPUT_LEEWAY: usize = MAX_PROCESS_OUTPUT_BYTES - 1000;
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// The max bytes the GUI thread should hold
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const MAX_GUI_OUTPUT_BYTES: usize = 1_000_000;
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const MAX_GUI_OUTPUT_BYTES: usize = 500_000;
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const GUI_OUTPUT_LEEWAY: usize = MAX_GUI_OUTPUT_BYTES - 1000;
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@ -234,7 +233,7 @@ impl Helper {
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}
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}
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// For the GUI thread, the max is 1_000_000 bytes.
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// For the GUI thread
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fn check_reset_gui_p2pool_output(gui_api: &Arc<Mutex<PubP2poolApi>>) {
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let mut gui_api = gui_api.lock().unwrap();
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if gui_api.output.len() > GUI_OUTPUT_LEEWAY {
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@ -554,6 +553,25 @@ impl Helper {
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// }
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// }
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//
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// If processes are started with [sudo] on macOS, they must also
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// be killed with [sudo] (even if I have a direct handle to it as the
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// parent process...!). This is only needed on macOS, not Linux.
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fn sudo_kill(pid: u32, sudo: &Arc<Mutex<SudoState>>) -> bool {
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// Spawn [sudo] to execute [kill] on the given [pid]
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let mut child = std::process::Command::new("sudo")
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.args(["--stdin", "kill", "-9", &pid.to_string()])
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.stdin(Stdio::piped())
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.spawn().unwrap();
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// Write the [sudo] password to STDIN.
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let mut stdin = child.stdin.take().unwrap();
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use std::io::Write;
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writeln!(stdin, "{}\n", sudo.lock().unwrap().pass);
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// Return exit code of [sudo/kill].
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child.wait().unwrap().success()
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}
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// Just sets some signals for the watchdog thread to pick up on.
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pub fn stop_xmrig(helper: &Arc<Mutex<Self>>) {
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info!("XMRig | Attempting to stop...");
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@ -573,13 +591,10 @@ impl Helper {
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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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while helper.lock().unwrap().xmrig.lock().unwrap().state != ProcessState::Waiting {
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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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@ -616,10 +631,11 @@ impl Helper {
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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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#[cfg(target_family = "unix")] // Of course, only on Unix.
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args.push(r#"--prompt="#.to_string());
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#[cfg(target_family = "unix")]
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args.push(path.display().to_string());
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if cfg!(unix) {
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args.push("--stdin".to_string());
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args.push(r#"--prompt="#.to_string());
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args.push(path.display().to_string());
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}
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// [Simple]
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if state.simple {
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@ -716,10 +732,6 @@ impl Helper {
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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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#[cfg(target_family = "unix")]
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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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@ -733,7 +745,6 @@ impl Helper {
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if cfg!(unix) {
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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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}
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drop(lock);
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@ -757,10 +768,34 @@ impl Helper {
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// Set timer
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let now = Instant::now();
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// Check if the process secretly died without us knowing :)
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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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false => { process.lock().unwrap().state = ProcessState::Failed; "Failed" },
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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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break
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}
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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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// macOS requires [sudo] again to kill [XMRig]
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if cfg!(target_os = "macos") {
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// If we're at this point, that means the user has
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// entered their [sudo] pass again, after we wiped it.
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// So, we should be able to find it in our [Arc<Mutex<SudoState>>].
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Self::sudo_kill(child_pty.lock().unwrap().process_id().unwrap(), &sudo);
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// And... wipe it again (only if we're stopping full).
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// If we're restarting, the next start will wipe it for us.
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if signal != ProcessSignal::Restart { SudoState::wipe(&sudo); }
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} else {
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child_pty.lock().unwrap().kill();
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}
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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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@ -788,17 +823,6 @@ impl Helper {
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_ => (),
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}
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break
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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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false => { process.lock().unwrap().state = ProcessState::Failed; "Failed" },
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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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break
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}
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// Check vector of user input
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21
src/main.rs
21
src/main.rs
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@ -1207,14 +1207,23 @@ 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.sudo.lock().unwrap().signal = ProcessSignal::Restart;
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#[cfg(target_family = "unix")]
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self.error_state.ask_sudo(&self.sudo);
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#[cfg(target_os = "windows")]
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Helper::restart_xmrig(&self.helper, &self.state.xmrig, &self.state.gupax.absolute_xmrig_path, Arc::clone(&self.sudo));
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if cfg!(windows) {
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Helper::restart_xmrig(&self.helper, &self.state.xmrig, &self.state.gupax.absolute_xmrig_path, Arc::clone(&self.sudo));
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} else if cfg!(target_os = "macos") {
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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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} else {
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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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}
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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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if cfg!(target_os = "macos") {
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self.sudo.lock().unwrap().signal = ProcessSignal::Stop;
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self.error_state.ask_sudo(&self.sudo);
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} else {
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Helper::stop_xmrig(&self.helper);
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}
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}
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ui.add_enabled_ui(false, |ui| {
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ui.add_sized([width, height], Button::new("⏺")).on_hover_text("Start XMRig");
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@ -78,7 +78,7 @@ 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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// state.signal = ProcessSignal::None;
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}
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// Swaps the pass with another 256-capacity String,
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@ -163,12 +163,14 @@ impl SudoState {
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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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ProcessSignal::Stop => crate::helper::Helper::stop_xmrig(&helper),
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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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}
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state.lock().unwrap().signal = ProcessSignal::None;
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});
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}
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}
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