gupaxx/src/main.rs

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// Gupax - GUI Uniting P2Pool And XMRig
//
// Copyright (c) 2022 hinto-janaiyo
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <https://www.gnu.org/licenses/>.
// Hide console in Windows
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#![cfg_attr(not(debug_assertions), windows_subsystem = "windows")]
//---------------------------------------------------------------------------------------------------- Imports
// egui/eframe
use egui::{
TextStyle::*,
color::Color32,
FontFamily::Proportional,
TextStyle,
Layout,Align,
FontId,Label,RichText,Stroke,Vec2,Button,SelectableLabel,
Key,Modifiers,
CentralPanel,TopBottomPanel,
};
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use egui_extras::RetainedImage;
use eframe::{egui,NativeOptions};
// Logging
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use log::*;
use env_logger::{Builder,WriteStyle};
// Regex
use regex::Regex;
// std
use std::{
env,
io::Write,
process::exit,
sync::{Arc,Mutex},
time::Instant,
path::PathBuf,
};
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// Modules
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mod ferris;
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mod constants;
mod node;
mod disk;
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mod status;
mod gupax;
mod p2pool;
mod xmrig;
mod update;
mod helper;
use {ferris::*,constants::*,node::*,disk::*,status::*,update::*,gupax::*,helper::*};
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//---------------------------------------------------------------------------------------------------- Struct + Impl
// The state of the outer main [App].
// See the [State] struct in [state.rs] for the
// actual inner state of the tab settings.
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pub struct App {
// Misc state
tab: Tab, // What tab are we on?
width: f32, // Top-level width
height: f32, // Top-level height
// Alpha (transparency)
// This value is used to incrementally increase/decrease
// the transparency when resizing. Basically, it fades
// in/out of black to hide jitter when resizing with [init_text_styles()]
alpha: u8,
// This is a one time trigger so [init_text_styles()] isn't
// called 60x a second when resizing the window. Instead,
// it only gets called if this bool is true and the user
// is hovering over egui (ctx.is_pointer_over_area()).
must_resize: bool, // Sets the flag so we know to [init_text_styles()]
resizing: bool, // Are we in the process of resizing? (For black fade in/out)
// State
og: Arc<Mutex<State>>, // og = Old state to compare against
state: State, // state = Working state (current settings)
update: Arc<Mutex<Update>>, // State for update data [update.rs]
file_window: Arc<Mutex<FileWindow>>, // State for the path selector in [Gupax]
ping: Arc<Mutex<Ping>>, // Ping data found in [node.rs]
og_node_vec: Vec<(String, Node)>, // Manual Node database
node_vec: Vec<(String, Node)>, // Manual Node database
og_pool_vec: Vec<(String, Pool)>, // Manual Pool database
pool_vec: Vec<(String, Pool)>, // Manual Pool database
diff: bool, // This bool indicates state changes
// Restart state:
// If Gupax updated itself, this represents that the
// user should (but isn't required to) restart Gupax.
restart: Arc<Mutex<Restart>>,
// Error State:
// These values are essentially global variables that
// indicate if an error message needs to be displayed
// (it takes up the whole screen with [error_msg] and buttons for ok/quit/etc)
error_state: ErrorState,
// Helper State:
// This holds everything related to the data
// processed by the "helper thread", including
helper: Arc<Mutex<Helper>>,
// Fix-me.
// These shouldn't exist
// Just for debugging.
p2pool: bool,
xmrig: bool,
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// State from [--flags]
no_startup: bool,
// Static stuff
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now: Instant, // Internal timer
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exe: String, // Path for [Gupax] binary
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dir: String, // Directory [Gupax] binary is in
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resolution: Vec2, // Frame resolution
os: &'static str, // OS
os_data_path: PathBuf, // OS data path (e.g: ~/.local/share/gupax)
state_path: PathBuf, // State file path
node_path: PathBuf, // Node file path
pool_path: PathBuf, // Pool file path
version: &'static str, // Gupax version
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name_version: String, // [Gupax vX.X.X]
img: Images, // Custom Struct holding pre-compiled bytes of [Images]
regex: Regexes, // Custom Struct holding pre-made [Regex]'s
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}
impl App {
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fn cc(cc: &eframe::CreationContext<'_>, app: Self) -> Self {
let resolution = cc.integration_info.window_info.size;
init_text_styles(&cc.egui_ctx, resolution[0] as f32);
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Self {
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resolution,
..app
}
}
fn new(now: Instant) -> Self {
info!("Initializing App Struct...");
let mut app = Self {
tab: Tab::default(),
ping: Arc::new(Mutex::new(Ping::new())),
width: APP_DEFAULT_WIDTH,
height: APP_DEFAULT_HEIGHT,
must_resize: false,
og: Arc::new(Mutex::new(State::new())),
state: State::new(),
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update: Arc::new(Mutex::new(Update::new(String::new(), PathBuf::new(), PathBuf::new(), true))),
file_window: FileWindow::new(),
og_node_vec: Node::new_vec(),
node_vec: Node::new_vec(),
og_pool_vec: Pool::new_vec(),
pool_vec: Pool::new_vec(),
restart: Arc::new(Mutex::new(Restart::No)),
diff: false,
error_state: ErrorState::new(),
helper: Arc::new(Mutex::new(Helper::new(now))),
// TODO
// these p2pool/xmrig bools are here for debugging purposes
// they represent the online/offline status.
// fix this later when [Helper] is integrated.
resizing: false,
alpha: 0,
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p2pool: false,
xmrig: false,
no_startup: false,
now,
exe: String::new(),
dir: String::new(),
resolution: Vec2::new(APP_DEFAULT_HEIGHT, APP_DEFAULT_WIDTH),
os: OS,
os_data_path: PathBuf::new(),
state_path: PathBuf::new(),
node_path: PathBuf::new(),
pool_path: PathBuf::new(),
version: GUPAX_VERSION,
name_version: format!("Gupax {}", GUPAX_VERSION),
img: Images::new(),
regex: Regexes::new(),
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};
//---------------------------------------------------------------------------------------------------- App init data that *could* panic
let mut panic = String::new();
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// Get exe path
app.exe = match get_exe() {
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Ok(exe) => exe,
Err(e) => { panic = format!("get_exe(): {}", e); app.error_state.set(panic.clone(), ErrorFerris::Panic, ErrorButtons::Quit); String::new() },
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};
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// Get exe directory path
app.dir = match get_exe_dir() {
Ok(dir) => dir,
Err(e) => { panic = format!("get_exe_dir(): {}", e); app.error_state.set(panic.clone(), ErrorFerris::Panic, ErrorButtons::Quit); String::new() },
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};
// Get OS data path
app.os_data_path = match get_gupax_data_path() {
Ok(dir) => dir,
Err(e) => { panic = format!("get_os_data_path(): {}", e); app.error_state.set(panic.clone(), ErrorFerris::Panic, ErrorButtons::Quit); PathBuf::new() },
};
// Set [*.toml] path
app.state_path = app.os_data_path.clone();
app.state_path.push("state.toml");
app.node_path = app.os_data_path.clone();
app.node_path.push("node.toml");
app.pool_path = app.os_data_path.clone();
app.pool_path.push("pool.toml");
// Apply arg state
// It's not safe to [--reset] if any of the previous variables
// are unset (null path), so make sure we just abort if the [panic] String contains something.
let mut app = parse_args(app, panic);
// Read disk state
use TomlError::*;
app.state = match State::get(&app.state_path) {
Ok(toml) => toml,
Err(err) => {
error!("State ... {}", err);
match err {
Io(e) => app.error_state.set(format!("State file: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Path(e) => app.error_state.set(format!("State file: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Serialize(e) => app.error_state.set(format!("State file: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Deserialize(e) => app.error_state.set(format!("State file: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
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Format(e) => app.error_state.set(format!("State file: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Merge(e) => app.error_state.set(format!("State file: {}", e), ErrorFerris::Error, ErrorButtons::ResetState),
};
State::new()
},
};
app.og = Arc::new(Mutex::new(app.state.clone()));
// Read node list
app.og_node_vec = match Node::get(&app.node_path) {
Ok(toml) => toml,
Err(err) => {
error!("Node ... {}", err);
match err {
Io(e) => app.error_state.set(format!("Node list: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Path(e) => app.error_state.set(format!("Node list: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Serialize(e) => app.error_state.set(format!("Node list: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Deserialize(e) => app.error_state.set(format!("Node list: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Format(e) => app.error_state.set(format!("Node file: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Merge(e) => app.error_state.set(format!("Node list: {}", e), ErrorFerris::Error, ErrorButtons::ResetState),
};
Node::new_vec()
},
};
// Read pool list
app.og_pool_vec = match Pool::get(&app.pool_path) {
Ok(toml) => toml,
Err(err) => {
error!("Pool ... {}", err);
match err {
Io(e) => app.error_state.set(format!("Pool list: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Path(e) => app.error_state.set(format!("Pool list: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Serialize(e) => app.error_state.set(format!("Pool list: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Deserialize(e) => app.error_state.set(format!("Pool list: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Format(e) => app.error_state.set(format!("Pool file: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
Merge(e) => app.error_state.set(format!("Pool list: {}", e), ErrorFerris::Error, ErrorButtons::ResetState),
};
Pool::new_vec()
},
};
app.pool_vec = app.og_pool_vec.clone();
//----------------------------------------------------------------------------------------------------
let mut og = app.og.lock().unwrap(); // Lock [og]
// Handle max threads
og.xmrig.max_threads = num_cpus::get();
let current = og.xmrig.current_threads;
let max = og.xmrig.max_threads;
if current > max {
og.xmrig.current_threads = max;
}
// Handle [node_vec] overflow
if og.p2pool.selected_index > app.og_node_vec.len() {
warn!("App | Overflowing manual node index [{} > {}], resetting to 1", og.p2pool.selected_index, app.og_node_vec.len());
let (name, node) = app.og_node_vec[0].clone();
og.p2pool.selected_index = 0;
og.p2pool.selected_name = name.clone();
og.p2pool.selected_ip = node.ip.clone();
og.p2pool.selected_rpc = node.rpc.clone();
og.p2pool.selected_zmq = node.zmq.clone();
app.state.p2pool.selected_index = 0;
app.state.p2pool.selected_name = name;
app.state.p2pool.selected_ip = node.ip;
app.state.p2pool.selected_rpc = node.rpc;
app.state.p2pool.selected_zmq = node.zmq;
}
// Handle [pool_vec] overflow
if og.xmrig.selected_index > app.og_pool_vec.len() {
warn!("App | Overflowing manual pool index [{} > {}], resetting to 1", og.xmrig.selected_index, app.og_pool_vec.len());
let (name, pool) = app.og_pool_vec[0].clone();
og.xmrig.selected_index = 0;
og.xmrig.selected_name = name.clone();
og.xmrig.selected_ip = pool.ip.clone();
og.xmrig.selected_port = pool.port.clone();
app.state.xmrig.selected_index = 0;
app.state.xmrig.selected_name = name;
app.state.xmrig.selected_ip = pool.ip;
app.state.xmrig.selected_port = pool.port;
}
// Apply TOML values to [Update]
let p2pool_path = og.gupax.absolute_p2pool_path.clone();
let xmrig_path = og.gupax.absolute_xmrig_path.clone();
let tor = og.gupax.update_via_tor;
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app.update = Arc::new(Mutex::new(Update::new(app.exe.clone(), p2pool_path, xmrig_path, tor)));
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// Set state version as compiled in version
og.version.lock().unwrap().gupax = GUPAX_VERSION.to_string();
app.state.version.lock().unwrap().gupax = GUPAX_VERSION.to_string();
drop(og); // Unlock [og]
info!("App ... OK");
app
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}
}
//---------------------------------------------------------------------------------------------------- [Tab] Enum + Impl
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// The tabs inside [App].
#[derive(Clone, Copy, Debug, PartialEq)]
enum Tab {
About,
Status,
Gupax,
P2pool,
Xmrig,
}
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impl Default for Tab {
fn default() -> Self {
Self::About
}
}
//---------------------------------------------------------------------------------------------------- [Restart] Enum
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub enum Restart {
No, // We don't need to restart
Yes, // We updated, user should probably (but isn't required to) restart
}
//---------------------------------------------------------------------------------------------------- [ErrorState] struct
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#[derive(Clone, Copy, Debug, PartialEq, Eq)]
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pub enum ErrorButtons {
YesNo,
StayQuit,
ResetState,
ResetNode,
Okay,
Quit,
}
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#[derive(Clone, Copy, Debug, PartialEq, Eq)]
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pub enum ErrorFerris {
Happy,
Oops,
Error,
Panic,
}
pub struct ErrorState {
error: bool, // Is there an error?
msg: String, // What message to display?
ferris: ErrorFerris, // Which ferris to display?
buttons: ErrorButtons, // Which buttons to display?
}
impl ErrorState {
pub fn new() -> Self {
Self {
error: false,
msg: "Unknown Error".to_string(),
ferris: ErrorFerris::Oops,
buttons: ErrorButtons::Okay,
}
}
// Convenience function to enable the [App] error state
pub fn set(&mut self, msg: impl Into<String>, ferris: ErrorFerris, buttons: ErrorButtons) {
if self.error {
// If a panic error is already set, return
if self.ferris == ErrorFerris::Panic { return }
// If we shouldn't be overriding the current error, return
match self.buttons {
ErrorButtons::YesNo => (), // Not important
ErrorButtons::Okay => (), // Not important
_ => return, // Overwrite, Quits, etc
}
}
*self = Self {
error: true,
msg: msg.into(),
ferris,
buttons,
};
}
}
//---------------------------------------------------------------------------------------------------- [Images] struct
struct Images {
banner: RetainedImage,
happy: RetainedImage,
oops: RetainedImage,
error: RetainedImage,
panic: RetainedImage,
}
impl Images {
fn new() -> Self {
Self {
banner: RetainedImage::from_image_bytes("banner.png", BYTES_BANNER).unwrap(),
happy: RetainedImage::from_image_bytes("happy.png", FERRIS_HAPPY).unwrap(),
oops: RetainedImage::from_image_bytes("oops.png", FERRIS_OOPS).unwrap(),
error: RetainedImage::from_image_bytes("error.png", FERRIS_ERROR).unwrap(),
panic: RetainedImage::from_image_bytes("panic.png", FERRIS_PANIC).unwrap(),
}
}
}
//---------------------------------------------------------------------------------------------------- [Regexes] struct
#[derive(Clone, Debug)]
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pub struct Regexes {
pub name: Regex,
pub address: Regex,
pub ipv4: Regex,
pub domain: Regex,
pub port: Regex,
}
impl Regexes {
fn new() -> Self {
Regexes {
name: Regex::new("^[A-Za-z0-9-_]+( [A-Za-z0-9-_]+)*$").unwrap(),
address: Regex::new("^4[A-Za-z1-9]+$").unwrap(), // This still needs to check for (l, I, o, 0)
ipv4: Regex::new(r#"^((25[0-5]|(2[0-4]|1\d|[1-9]|)\d)\.?\b){4}$"#).unwrap(),
domain: Regex::new(r#"^(([a-zA-Z]{1})|([a-zA-Z]{1}[a-zA-Z]{1})|([a-zA-Z]{1}[0-9]{1})|([0-9]{1}[a-zA-Z]{1})|([a-zA-Z0-9][a-zA-Z0-9-_]{1,61}[a-zA-Z0-9]))\.([a-zA-Z]{2,6}|[a-zA-Z0-9-]{2,30}\.[a-zA-Z]{2,3})$"#).unwrap(),
port: Regex::new(r#"^([1-9][0-9]{0,3}|[1-5][0-9]{4}|6[0-4][0-9]{3}|65[0-4][0-9]{2}|655[0-2][0-9]|6553[0-5])$"#).unwrap(),
}
}
}
//---------------------------------------------------------------------------------------------------- Init functions
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fn init_text_styles(ctx: &egui::Context, width: f32) {
let scale = width / 26.666;
let mut style = (*ctx.style()).clone();
style.text_styles = [
(Small, FontId::new(scale/3.0, Proportional)),
(Body, FontId::new(scale/2.0, Proportional)),
(Button, FontId::new(scale/2.0, Proportional)),
(Monospace, FontId::new(scale/2.0, egui::FontFamily::Monospace)),
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(Heading, FontId::new(scale/1.5, Proportional)),
(Name("Tab".into()), FontId::new(scale*1.2, Proportional)),
(Name("Bottom".into()), FontId::new(scale/2.0, Proportional)),
(Name("MonospaceSmall".into()), FontId::new(scale/2.5, egui::FontFamily::Monospace)),
(Name("MonospaceLarge".into()), FontId::new(scale/1.5, egui::FontFamily::Monospace)),
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].into();
style.spacing.icon_width_inner = width / 35.0;
style.spacing.icon_width = width / 25.0;
style.spacing.icon_spacing = 20.0;
style.spacing.scroll_bar_width = width / 150.0;
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ctx.set_style(style);
ctx.set_pixels_per_point(1.0);
ctx.request_repaint();
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}
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fn init_logger(now: Instant) {
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use env_logger::fmt::Color;
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Builder::new().format(move |buf, record| {
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let mut style = buf.style();
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let level = match record.level() {
Level::Error => { style.set_color(Color::Red); "ERROR" },
Level::Warn => { style.set_color(Color::Yellow); "WARN" },
Level::Info => { style.set_color(Color::White); "INFO" },
Level::Debug => { style.set_color(Color::Blue); "DEBUG" },
Level::Trace => { style.set_color(Color::Magenta); "TRACE" },
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};
writeln!(
buf,
"[{}] [{}] [{}:{}] {}",
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style.set_bold(true).value(level),
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buf.style().set_dimmed(true).value(format!("{:.3}", now.elapsed().as_secs_f32())),
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buf.style().set_dimmed(true).value(record.file().unwrap_or("???")),
buf.style().set_dimmed(true).value(record.line().unwrap_or(0)),
record.args(),
)
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}).filter_level(LevelFilter::Info).write_style(WriteStyle::Always).parse_default_env().format_timestamp_millis().init();
info!("init_logger() ... OK");
}
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fn init_options(initial_window_size: Option<Vec2>) -> NativeOptions {
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let mut options = eframe::NativeOptions::default();
options.min_window_size = Some(Vec2::new(APP_MIN_WIDTH, APP_MIN_HEIGHT));
options.max_window_size = Some(Vec2::new(APP_MAX_WIDTH, APP_MAX_HEIGHT));
options.initial_window_size = initial_window_size;
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options.follow_system_theme = false;
options.default_theme = eframe::Theme::Dark;
let icon = image::load_from_memory(BYTES_ICON).expect("Failed to read icon bytes").to_rgba8();
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let (icon_width, icon_height) = icon.dimensions();
options.icon_data = Some(eframe::IconData {
rgba: icon.into_raw(),
width: icon_width,
height: icon_height,
});
info!("init_options() ... OK");
options
}
fn init_auto(app: &mut App) {
// Return early if [--no-startup] was not passed
if app.no_startup {
info!("[--no-startup] flag passed, skipping init_auto()...");
return
} else if app.error_state.error {
info!("App error detected, skipping init_auto()...");
return
} else {
info!("Starting init_auto()...");
}
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// [Auto-Update]
if app.state.gupax.auto_update {
Update::spawn_thread(&app.og, &app.state.gupax, &app.state_path, &app.update, &mut app.error_state, &app.restart);
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} else {
info!("Skipping auto-update...");
}
// [Auto-Ping]
let auto_node = app.og.lock().unwrap().p2pool.auto_node;
let simple = app.og.lock().unwrap().p2pool.simple;
if auto_node && simple {
Ping::spawn_thread(&app.ping, &app.og)
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} else {
info!("Skipping auto-ping...");
}
}
//---------------------------------------------------------------------------------------------------- Reset functions
fn reset_state(path: &PathBuf) -> Result<(), TomlError> {
match State::create_new(path) {
Ok(_) => { info!("Resetting [state.toml] ... OK"); Ok(()) },
Err(e) => { error!("Resetting [state.toml] ... FAIL ... {}", e); Err(e) },
}
}
fn reset_nodes(path: &PathBuf) -> Result<(), TomlError> {
match Node::create_new(path) {
Ok(_) => { info!("Resetting [node.toml] ... OK"); Ok(()) },
Err(e) => { error!("Resetting [node.toml] ... FAIL ... {}", e); Err(e) },
}
}
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fn reset_pools(path: &PathBuf) -> Result<(), TomlError> {
match Pool::create_new(path) {
Ok(_) => { info!("Resetting [pool.toml] ... OK"); Ok(()) },
Err(e) => { error!("Resetting [pool.toml] ... FAIL ... {}", e); Err(e) },
}
}
fn reset(path: &PathBuf, state: &PathBuf, node: &PathBuf, pool: &PathBuf) {
let mut code = 0;
// Attempt to remove directory first
match std::fs::remove_dir_all(path) {
Ok(_) => info!("Removing OS data path ... OK"),
Err(e) => { error!("Removing OS data path ... FAIL ... {}", e); code = 1; },
}
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// Recreate
match create_gupax_dir(path) {
Ok(_) => (),
Err(_) => code = 1,
}
match reset_state(state) {
Ok(_) => (),
Err(_) => code = 1,
}
match reset_nodes(node) {
Ok(_) => (),
Err(_) => code = 1,
}
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match reset_pools(pool) {
Ok(_) => (),
Err(_) => code = 1,
}
match code {
0 => println!("\nGupax reset ... OK"),
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_ => eprintln!("\nGupax reset ... FAIL"),
}
exit(code);
}
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//---------------------------------------------------------------------------------------------------- Misc functions
fn parse_args<S: Into<String>>(mut app: App, panic: S) -> App {
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info!("Parsing CLI arguments...");
let mut args: Vec<String> = env::args().collect();
if args.len() == 1 { info!("No args ... OK"); return app } else { args.remove(0); info!("Args ... {:?}", args); }
// [help/version], exit early
for arg in &args {
match arg.as_str() {
"--help" => { println!("{}", ARG_HELP); exit(0); },
"--version" => {
println!("Gupax {} [OS: {}, Commit: {}]\n\n{}", GUPAX_VERSION, OS_NAME, &COMMIT[..40], ARG_COPYRIGHT);
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exit(0);
},
"--ferris" => { println!("{}", FERRIS_ANSI); exit(0); },
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_ => (),
}
}
// Abort on panic
let panic = panic.into();
if ! panic.is_empty() {
info!("[Gupax error] {}", panic);
exit(1);
}
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// Everything else
for arg in args {
match arg.as_str() {
"--state" => { info!("Printing state..."); print_disk_file(&app.state_path); }
"--nodes" => { info!("Printing node list..."); print_disk_file(&app.node_path); }
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"--reset-state" => if let Ok(()) = reset_state(&app.state_path) { println!("\nState reset ... OK"); exit(0); } else { eprintln!("\nState reset ... FAIL"); exit(1) },
"--reset-nodes" => if let Ok(()) = reset_nodes(&app.node_path) { println!("\nNode reset ... OK"); exit(0) } else { eprintln!("\nNode reset ... FAIL"); exit(1) },
"--reset-pools" => if let Ok(()) = reset_pools(&app.pool_path) { println!("\nPool reset ... OK"); exit(0) } else { eprintln!("\nPool reset ... FAIL"); exit(1) },
"--reset-all" => reset(&app.os_data_path, &app.state_path, &app.node_path, &app.pool_path),
"--no-startup" => app.no_startup = true,
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_ => { eprintln!("\n[Gupax error] Invalid option: [{}]\nFor help, use: [--help]", arg); exit(1); },
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}
}
app
}
// Get absolute [Gupax] binary path
pub fn get_exe() -> Result<String, std::io::Error> {
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match std::env::current_exe() {
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Ok(path) => { Ok(path.display().to_string()) },
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Err(err) => { error!("Couldn't get absolute Gupax PATH"); Err(err) },
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}
}
// Get absolute [Gupax] directory path
pub fn get_exe_dir() -> Result<String, std::io::Error> {
match std::env::current_exe() {
Ok(mut path) => { path.pop(); Ok(path.display().to_string()) },
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Err(err) => { error!("Couldn't get exe basepath PATH"); Err(err) },
}
}
// Clean any [gupax_update_.*] directories
// The trailing random bits must be exactly 10 alphanumeric characters
pub fn clean_dir() -> Result<(), anyhow::Error> {
let regex = Regex::new("^gupax_update_[A-Za-z0-9]{10}$").unwrap();
for entry in std::fs::read_dir(get_exe_dir()?)? {
let entry = entry?;
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if ! entry.path().is_dir() { continue }
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if Regex::is_match(&regex, entry.file_name().to_str().ok_or_else(|| anyhow::Error::msg("Basename failed"))?) {
let path = entry.path();
match std::fs::remove_dir_all(&path) {
Ok(_) => info!("Remove [{}] ... OK", path.display()),
Err(e) => warn!("Remove [{}] ... FAIL ... {}", path.display(), e),
}
}
}
Ok(())
}
// Print disk files to console
fn print_disk_file(path: &PathBuf) {
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match std::fs::read_to_string(path) {
Ok(string) => { print!("{}", string); exit(0); },
Err(e) => { error!("{}", e); exit(1); },
}
}
//---------------------------------------------------------------------------------------------------- Main [App] frame
fn main() {
let now = Instant::now();
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init_logger(now);
let mut app = App::new(now);
init_auto(&mut app);
let initial_window_size = match app.state.gupax.simple {
true => Some(Vec2::new(app.state.gupax.selected_width as f32, app.state.gupax.selected_height as f32)),
false => Some(Vec2::new(APP_DEFAULT_WIDTH, APP_DEFAULT_HEIGHT)),
};
let options = init_options(initial_window_size);
match clean_dir() {
Ok(_) => info!("Temporary folder cleanup ... OK"),
Err(e) => warn!("Could not cleanup [gupax_tmp] folders: {}", e),
}
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info!("Init ... DONE");
eframe::run_native(&app.name_version.clone(), options, Box::new(|cc| Box::new(App::cc(cc, app))),);
}
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impl eframe::App for App {
fn on_close_event(&mut self) -> bool {
if self.state.gupax.ask_before_quit {
self.error_state.set("", ErrorFerris::Oops, ErrorButtons::StayQuit);
false
} else {
true
}
}
fn update(&mut self, ctx: &egui::Context, frame: &mut eframe::Frame) {
// *-------*
// | DEBUG |
// *-------*
// If [F11] was pressed, reverse [fullscreen] bool
if ctx.input_mut().consume_key(Modifiers::NONE, Key::F11) {
let info = frame.info();
frame.set_fullscreen(!info.window_info.fullscreen);
}
// This sets the top level Ui dimensions.
// Used as a reference for other uis.
CentralPanel::default().show(ctx, |ui| {
let available_width = ui.available_width();
if self.width != available_width {
self.width = available_width;
if self.now.elapsed().as_secs() > 5 {
self.must_resize = true;
}
};
self.height = ui.available_height();
});
// This resizes fonts/buttons/etc globally depending on the width.
// This is separate from the [self.width != available_width] logic above
// because placing [init_text_styles()] above would mean calling it 60x a second
// while the user was readjusting the frame. It's a pretty heavy operation and looks
// buggy when calling it that many times. Looking for a [must_resize] in addtion to
// checking if the user is hovering over the app means that we only have call it once.
if self.must_resize && ctx.is_pointer_over_area() {
self.resizing = true;
self.must_resize = false;
}
// This (ab)uses [Area] and [TextEdit] to overlay a full black layer over whatever UI we had before.
// It incrementally becomes more opaque until [self.alpha] >= 250, when we just switch to pure black (no alpha).
// When black, we're safe to [init_text_styles()], and then incrementally go transparent, until we remove the layer.
if self.resizing {
egui::Area::new("resize_layer").order(egui::Order::Foreground).anchor(egui::Align2::CENTER_CENTER, (0.0, 0.0)).show(ctx, |ui| {
if self.alpha < 250 {
egui::Frame::none().fill(Color32::from_rgba_premultiplied(0,0,0,self.alpha)).show(ui, |ui| {
ui.add_sized([ui.available_width()+SPACE, ui.available_height()+SPACE], egui::TextEdit::multiline(&mut ""));
});
ctx.request_repaint();
self.alpha += 10;
} else {
egui::Frame::none().fill(Color32::from_rgb(0,0,0)).show(ui, |ui| {
ui.add_sized([ui.available_width()+SPACE, ui.available_height()+SPACE], egui::TextEdit::multiline(&mut ""));
});
ctx.request_repaint();
info!("App | Resizing frame to match new internal resolution: [{}x{}]", self.width, self.height);
init_text_styles(ctx, self.width);
self.resizing = false;
}
});
} else if self.alpha != 0 {
egui::Area::new("resize_layer").order(egui::Order::Foreground).anchor(egui::Align2::CENTER_CENTER, (0.0, 0.0)).show(ctx, |ui| {
egui::Frame::none().fill(Color32::from_rgba_premultiplied(0,0,0,self.alpha)).show(ui, |ui| {
ui.add_sized([ui.available_width()+SPACE, ui.available_height()+SPACE], egui::TextEdit::multiline(&mut ""));
})
});
self.alpha -= 10;
ctx.request_repaint();
}
// If there's an error, display [ErrorState] on the whole screen until user responds
if self.error_state.error {
CentralPanel::default().show(ctx, |ui| {
ui.vertical_centered(|ui| {
// Set width/height/font
let width = self.width;
let height = self.height/4.0;
ui.style_mut().override_text_style = Some(Name("MonospaceLarge".into()));
// Display ferris
use ErrorFerris::*;
use ErrorButtons::*;
let ferris = match self.error_state.ferris {
Happy => &self.img.happy,
Oops => &self.img.oops,
Error => &self.img.error,
Panic => &self.img.panic,
};
ferris.show_max_size(ui, Vec2::new(width, height));
// Error/Quit screen
match self.error_state.buttons {
StayQuit => {
let mut text = "".to_string();
if *self.update.lock().unwrap().updating.lock().unwrap() { text = format!("{}\nUpdate is in progress...!", text); }
if self.p2pool { text = format!("{}\nP2Pool is online...!", text); }
if self.xmrig { text = format!("{}\nXMRig is online...!", text); }
ui.add_sized([width, height], Label::new("--- Are you sure you want to quit? ---"));
ui.add_sized([width, height], Label::new(text))
},
ResetState => {
ui.add_sized([width, height], Label::new(format!("--- Gupax has encountered an error! ---\n{}", &self.error_state.msg)));
ui.add_sized([width, height], Label::new("Reset Gupax state? (Your settings)"))
},
ResetNode => {
ui.add_sized([width, height], Label::new(format!("--- Gupax has encountered an error! ---\n{}", &self.error_state.msg)));
ui.add_sized([width, height], Label::new("Reset the manual node list?"))
},
_ => {
match self.error_state.ferris {
Panic => ui.add_sized([width, height], Label::new("--- Gupax has encountered an un-recoverable error! ---")),
Happy => ui.add_sized([width, height], Label::new("--- Success! ---")),
_ => ui.add_sized([width, height], Label::new("--- Gupax has encountered an error! ---")),
};
ui.add_sized([width, height], Label::new(&self.error_state.msg))
},
};
let height = ui.available_height();
// Capture [Esc] key
let esc = ctx.input_mut().consume_key(Modifiers::NONE, Key::Escape);
match self.error_state.buttons {
YesNo => {
if ui.add_sized([width, height/2.0], Button::new("Yes")).clicked() { self.error_state = ErrorState::new(); }
// If [Esc] was pressed, assume [No]
if esc || ui.add_sized([width, height/2.0], Button::new("No")).clicked() { exit(0); }
},
StayQuit => {
// If [Esc] was pressed, assume [Stay]
if esc || ui.add_sized([width, height/2.0], Button::new("Stay")).clicked() {
self.error_state = ErrorState::new();
}
if ui.add_sized([width, height/2.0], Button::new("Quit")).clicked() { exit(0); }
},
// This code handles the [state.toml/node.toml] resetting, [panic!]'ing if it errors once more
// Another error after this either means an IO error or permission error, which Gupax can't fix.
// [Yes/No] buttons
ResetState => {
if ui.add_sized([width, height/2.0], Button::new("Yes")).clicked() {
match reset_state(&self.state_path) {
Ok(_) => {
match State::get(&self.state_path) {
Ok(s) => {
self.state = s;
self.og = Arc::new(Mutex::new(self.state.clone()));
self.error_state.set("State read OK", ErrorFerris::Happy, ErrorButtons::Okay);
},
Err(e) => self.error_state.set(format!("State read fail: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
}
},
Err(e) => self.error_state.set(format!("State reset fail: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
};
}
if esc || ui.add_sized([width, height/2.0], Button::new("No")).clicked() { self.error_state = ErrorState::new() }
},
ResetNode => {
if ui.add_sized([width, height/2.0], Button::new("Yes")).clicked() {
match reset_nodes(&self.node_path) {
Ok(_) => {
match Node::get(&self.node_path) {
Ok(s) => {
self.node_vec = s;
self.og_node_vec = self.node_vec.clone();
self.error_state.set("Node read OK", ErrorFerris::Happy, ErrorButtons::Okay);
},
Err(e) => self.error_state.set(format!("Node read fail: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
}
},
Err(e) => self.error_state.set(format!("Node reset fail: {}", e), ErrorFerris::Panic, ErrorButtons::Quit),
};
}
if esc || ui.add_sized([width, height/2.0], Button::new("No")).clicked() { self.error_state = ErrorState::new() }
},
Okay => if esc || ui.add_sized([width, height], Button::new("Okay")).clicked() { self.error_state = ErrorState::new(); },
Quit => if ui.add_sized([width, height], Button::new("Quit")).clicked() { exit(1); },
}
})});
return
}
// Compare [og == state] and the [node_vec] and enable diff if found.
// The struct fields are compared directly because [Version]
// contains Arc<Mutex>'s that cannot be compared easily.
// They don't need to be compared anyway.
let og = self.og.lock().unwrap();
if og.gupax != self.state.gupax || og.p2pool != self.state.p2pool || og.xmrig != self.state.xmrig || self.og_node_vec != self.node_vec {
self.diff = true;
} else {
self.diff = false;
}
drop(og);
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// Top: Tabs
TopBottomPanel::top("top").show(ctx, |ui| {
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let width = (self.width - (SPACE*10.0))/5.0;
let height = self.height/12.0;
ui.group(|ui| {
ui.add_space(4.0);
ui.horizontal(|ui| {
let style = ui.style_mut();
style.override_text_style = Some(Name("Tab".into()));
style.visuals.widgets.inactive.fg_stroke.color = Color32::from_rgb(100, 100, 100);
style.visuals.selection.bg_fill = Color32::from_rgb(255, 120, 120);
style.visuals.selection.stroke = Stroke { width: 5.0, color: Color32::from_rgb(255, 255, 255) };
if ui.add_sized([width, height], SelectableLabel::new(self.tab == Tab::About, "About")).clicked() { self.tab = Tab::About; }
ui.separator();
if ui.add_sized([width, height], SelectableLabel::new(self.tab == Tab::Status, "Status")).clicked() { self.tab = Tab::Status; }
ui.separator();
if ui.add_sized([width, height], SelectableLabel::new(self.tab == Tab::Gupax, "Gupax")).clicked() { self.tab = Tab::Gupax; }
ui.separator();
if ui.add_sized([width, height], SelectableLabel::new(self.tab == Tab::P2pool, "P2Pool")).clicked() { self.tab = Tab::P2pool; }
ui.separator();
if ui.add_sized([width, height], SelectableLabel::new(self.tab == Tab::Xmrig, "XMRig")).clicked() { self.tab = Tab::Xmrig; }
});
ui.add_space(4.0);
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});
});
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// Bottom: app info + state/process buttons
TopBottomPanel::bottom("bottom").show(ctx, |ui| {
let height = self.height/20.0;
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ui.style_mut().override_text_style = Some(Name("Bottom".into()));
ui.horizontal(|ui| {
ui.group(|ui| {
let width = ((self.width/2.0)/4.0)-(SPACE*2.0);
// [Gupax Version]
// Is yellow if the user updated and should (but isn't required to) restart.
match *self.restart.lock().unwrap() {
Restart::Yes => ui.add_sized([width, height], Label::new(RichText::new(&self.name_version).color(YELLOW))).on_hover_text("Gupax was updated. A restart is recommended but not required."),
_ => ui.add_sized([width, height], Label::new(&self.name_version)).on_hover_text("Gupax is up-to-date"),
};
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ui.separator();
// [OS]
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ui.add_sized([width, height], Label::new(self.os));
ui.separator();
// [P2Pool/XMRig] Status
if self.p2pool {
ui.add_sized([width, height], Label::new(RichText::new("P2Pool ⏺").color(GREEN))).on_hover_text("P2Pool is online");
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} else {
ui.add_sized([width, height], Label::new(RichText::new("P2Pool ⏺").color(RED))).on_hover_text("P2Pool is offline");
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}
ui.separator();
if self.xmrig {
ui.add_sized([width, height], Label::new(RichText::new("XMRig ⏺").color(GREEN))).on_hover_text("XMRig is online");
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} else {
ui.add_sized([width, height], Label::new(RichText::new("XMRig ⏺").color(RED))).on_hover_text("XMRig is offline");
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}
});
// [Save/Reset]
ui.with_layout(Layout::right_to_left(Align::RIGHT), |ui| {
let width = match self.tab {
Tab::Gupax => (ui.available_width()/2.0)-(SPACE*3.0),
_ => (ui.available_width()/3.0)-(SPACE*3.0),
};
ui.group(|ui| {
ui.set_enabled(self.diff);
let width = width / 2.0;
if ui.add_sized([width, height], Button::new("Reset")).on_hover_text("Reset changes").clicked() {
let og = self.og.lock().unwrap().clone();
self.state.gupax = og.gupax;
self.state.p2pool = og.p2pool;
self.state.xmrig = og.xmrig;
self.node_vec = self.og_node_vec.clone();
self.pool_vec = self.og_pool_vec.clone();
}
if ui.add_sized([width, height], Button::new("Save")).on_hover_text("Save changes").clicked() {
match State::save(&mut self.state, &self.state_path) {
Ok(_) => {
let mut og = self.og.lock().unwrap();
og.gupax = self.state.gupax.clone();
og.p2pool = self.state.p2pool.clone();
og.xmrig = self.state.xmrig.clone();
},
Err(e) => {
self.error_state.set(format!("State file: {}", e), ErrorFerris::Error, ErrorButtons::Okay);
},
};
match Node::save(&self.og_node_vec, &self.node_path) {
Ok(_) => self.og_node_vec = self.node_vec.clone(),
Err(e) => self.error_state.set(format!("Node list: {}", e), ErrorFerris::Error, ErrorButtons::Okay),
};
match Pool::save(&self.og_pool_vec, &self.pool_path) {
Ok(_) => self.og_pool_vec = self.pool_vec.clone(),
Err(e) => self.error_state.set(format!("Pool list: {}", e), ErrorFerris::Error, ErrorButtons::Okay),
};
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}
});
// [Simple/Advanced] + [Start/Stop/Restart]
match self.tab {
Tab::Gupax => {
ui.group(|ui| {
let width = width / 2.0;
if ui.add_sized([width, height], SelectableLabel::new(!self.state.gupax.simple, "Advanced")).on_hover_text(GUPAX_ADVANCED).clicked() {
self.state.gupax.simple = false;
}
ui.separator();
if ui.add_sized([width, height], SelectableLabel::new(self.state.gupax.simple, "Simple")).on_hover_text(GUPAX_SIMPLE).clicked() {
self.state.gupax.simple = true;
}
});
},
Tab::P2pool => {
ui.group(|ui| {
let width = width / 1.5;
if ui.add_sized([width, height], SelectableLabel::new(!self.state.p2pool.simple, "Advanced")).on_hover_text(P2POOL_ADVANCED).clicked() {
self.state.p2pool.simple = false;
}
ui.separator();
if ui.add_sized([width, height], SelectableLabel::new(self.state.p2pool.simple, "Simple")).on_hover_text(P2POOL_SIMPLE).clicked() {
self.state.p2pool.simple = true;
}
});
ui.group(|ui| {
let width = (ui.available_width()/3.0)-5.0;
if self.p2pool {
if ui.add_sized([width, height], Button::new("")).on_hover_text("Restart P2Pool").clicked() { self.p2pool = false; }
if ui.add_sized([width, height], Button::new("")).on_hover_text("Stop P2Pool").clicked() { self.p2pool = false; }
ui.add_enabled_ui(false, |ui| {
if ui.add_sized([width, height], Button::new("")).on_hover_text("Start P2Pool").clicked() {
Helper::spawn_p2pool(&self.helper, &self.state.p2pool, self.state.gupax.absolute_p2pool_path.clone());
}
});
} else {
ui.add_enabled_ui(false, |ui| {
ui.add_sized([width, height], Button::new("")).on_hover_text("Restart P2Pool");
ui.add_sized([width, height], Button::new("")).on_hover_text("Stop P2Pool");
});
if ui.add_sized([width, height], Button::new("")).on_hover_text("Start P2Pool").clicked() {
Helper::spawn_p2pool(&self.helper, &self.state.p2pool, self.state.gupax.absolute_p2pool_path.clone());
}
}
});
},
Tab::Xmrig => {
ui.group(|ui| {
let width = width / 1.5;
if ui.add_sized([width, height], SelectableLabel::new(!self.state.xmrig.simple, "Advanced")).on_hover_text(XMRIG_ADVANCED).clicked() {
self.state.xmrig.simple = false;
}
ui.separator();
if ui.add_sized([width, height], SelectableLabel::new(self.state.xmrig.simple, "Simple")).on_hover_text(XMRIG_SIMPLE).clicked() {
self.state.xmrig.simple = true;
}
});
ui.group(|ui| {
let width = (ui.available_width()/3.0)-5.0;
if self.xmrig {
if ui.add_sized([width, height], Button::new("")).on_hover_text("Restart XMRig").clicked() { self.xmrig = false; }
if ui.add_sized([width, height], Button::new("")).on_hover_text("Stop XMRig").clicked() { self.xmrig = false; }
ui.add_enabled_ui(false, |ui| {
ui.add_sized([width, height], Button::new("")).on_hover_text("Start XMRig");
});
} else {
ui.add_enabled_ui(false, |ui| {
ui.add_sized([width, height], Button::new("")).on_hover_text("Restart XMRig");
ui.add_sized([width, height], Button::new("")).on_hover_text("Stop XMRig");
});
if ui.add_sized([width, height], Button::new("")).on_hover_text("Start XMRig").clicked() { self.xmrig = true; }
}
});
},
_ => (),
}
});
});
});
// Middle panel, contents of the [Tab]
CentralPanel::default().show(ctx, |ui| {
// This sets the Ui dimensions after Top/Bottom are filled
self.width = ui.available_width();
self.height = ui.available_height();
ui.style_mut().override_text_style = Some(TextStyle::Body);
match self.tab {
Tab::About => {
ui.add_space(10.0);
ui.vertical_centered(|ui| {
// Display [Gupax] banner at max, 1/4 the available length
self.img.banner.show_max_size(ui, Vec2::new(self.width, self.height/4.0));
ui.label("Gupax is a cross-platform GUI for mining");
ui.hyperlink_to("[Monero]", "https://www.github.com/monero-project/monero");
ui.label("on the decentralized");
ui.hyperlink_to("[P2Pool]", "https://www.github.com/SChernykh/p2pool");
ui.label("using the dedicated");
ui.hyperlink_to("[XMRig]", "https://www.github.com/xmrig/xmrig");
ui.label("miner for max hashrate");
ui.add_space(ui.available_height()/1.8);
ui.hyperlink_to("Powered by egui", "https://github.com/emilk/egui");
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ui.hyperlink_to("Made by hinto-janaiyo".to_string(), "https://gupax.io");
ui.label("egui is licensed under MIT & Apache-2.0");
ui.label("Gupax, P2Pool, and XMRig are licensed under GPLv3");
});
}
Tab::Status => {
Status::show(self, self.width, self.height, ctx, ui);
}
Tab::Gupax => {
Gupax::show(&mut self.state.gupax, &self.og, &self.state_path, &self.update, &self.file_window, &mut self.error_state, &self.restart, self.width, self.height, frame, ctx, ui);
}
Tab::P2pool => {
P2pool::show(&mut self.state.p2pool, &mut self.node_vec, &self.og, self.p2pool, &self.ping, &self.regex, self.width, self.height, ctx, ui);
}
Tab::Xmrig => {
Xmrig::show(&mut self.state.xmrig, &mut self.pool_vec, &self.regex, self.width, self.height, ctx, ui);
}
}
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});
}
}