gupaxx/src/node.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/>.
use crate::{
State,
constants::*,
};
use serde::{Serialize,Deserialize};
use std::time::{Instant,Duration};
use std::sync::{Arc,Mutex};
use egui::Color32;
use log::*;
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use hyper::{
client::HttpConnector,
Client,Body,Request,
};
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//---------------------------------------------------------------------------------------------------- Node list
// Community Monerod nodes. ALL BUT ONE of these have ZMQ on 18083 (plowsof pls)
// Adding/removing nodes will need changes to pretty
// much all the code in this file, and the code that
// handles the actual Enum selector in the P2Pool tab.
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pub const C3POOL: &str = "node.c3pool.com:18081";
pub const CAKE: &str = "xmr-node.cakewallet.com:18081";
pub const CAKE_EU: &str = "xmr-node-eu.cakewallet.com:18081";
pub const CAKE_UK: &str = "xmr-node-uk.cakewallet.com:18081";
pub const CAKE_US: &str = "xmr-node-usa-east.cakewallet.com:18081";
pub const FEATHER_1: &str = "selsta1.featherwallet.net:18081";
pub const FEATHER_2: &str = "selsta2.featherwallet.net:18081";
pub const MAJESTICBANK_IS: &str = "node.majesticbank.is:18089";
pub const MAJESTICBANK_SU: &str = "node.majesticbank.su:18089";
pub const MONERUJO: &str = "nodex.monerujo.io:18081";
pub const PLOWSOF_1: &str = "node.monerodevs.org:18089"; // ZMQ = 18084
pub const PLOWSOF_2: &str = "node2.monerodevs.org:18089"; // ZMQ = 18084
pub const RINO: &str = "node.community.rino.io:18081";
pub const SETH: &str = "node.sethforprivacy.com:18089";
pub const SUPPORTXMR: &str = "node.supportxmr.com:18081";
pub const SUPPORTXMR_IR: &str = "node.supportxmr.ir:18081";
pub const SINGAPORE: &str = "singapore.node.xmr.pm:18089";
pub const XMRVSBEAST: &str = "p2pmd.xmrvsbeast.com:18081";
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pub const NODE_IPS: [&str; 18] = [
C3POOL,CAKE,CAKE_EU,CAKE_UK,CAKE_US,FEATHER_1,FEATHER_2,MAJESTICBANK_IS,MAJESTICBANK_SU,
MONERUJO,PLOWSOF_1,PLOWSOF_2,RINO,SETH,SUPPORTXMR,SUPPORTXMR_IR,SINGAPORE,XMRVSBEAST,
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];
#[derive(Copy,Clone,Eq,PartialEq,Debug,Deserialize,Serialize)]
pub enum NodeEnum {
C3pool,Cake,CakeEu,CakeUk,CakeUs,MajesticBankIs,MajesticBankSu,Monerujo,Plowsof1,
Plowsof2,Rino,Feather1,Feather2,Seth,SupportXmr,SupportXmrIr,Singapore,XmrVsBeast,
}
impl std::fmt::Display for NodeEnum {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
write!(f, "{:#?}", self)
}
}
//---------------------------------------------------------------------------------------------------- Node data
#[derive(Debug, Clone)]
pub struct NodeData {
pub id: NodeEnum,
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pub ip: &'static str,
pub ms: u128,
pub color: Color32,
}
impl NodeData {
pub fn new_vec() -> Vec<Self> {
let mut vec = Vec::new();
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for ip in NODE_IPS {
vec.push(Self {
id: ip_to_enum(ip),
ip,
ms: 0,
color: Color32::LIGHT_GRAY,
});
}
vec
}
}
//---------------------------------------------------------------------------------------------------- IP <-> Enum functions
use crate::NodeEnum::*;
// Function for returning IP/Enum
pub fn ip_to_enum(ip: &'static str) -> NodeEnum {
match ip {
C3POOL => C3pool,
CAKE => Cake,
CAKE_EU => CakeEu,
CAKE_UK => CakeUk,
CAKE_US => CakeUs,
FEATHER_1 => Feather1,
FEATHER_2 => Feather2,
MAJESTICBANK_IS => MajesticBankIs,
MAJESTICBANK_SU => MajesticBankSu,
MONERUJO => Monerujo,
PLOWSOF_1 => Plowsof1,
PLOWSOF_2 => Plowsof2,
RINO => Rino,
SETH => Seth,
SINGAPORE => Singapore,
SUPPORTXMR => SupportXmr,
SUPPORTXMR_IR => SupportXmrIr,
_ => XmrVsBeast,
}
}
pub fn enum_to_ip(node: NodeEnum) -> &'static str {
match node {
C3pool => C3POOL,
Cake => CAKE,
CakeEu => CAKE_EU,
CakeUk => CAKE_UK,
CakeUs => CAKE_US,
Feather1 => FEATHER_1,
Feather2 => FEATHER_2,
MajesticBankIs => MAJESTICBANK_IS,
MajesticBankSu => MAJESTICBANK_SU,
Monerujo => MONERUJO,
Plowsof1 => PLOWSOF_1,
Plowsof2 => PLOWSOF_2,
Rino => RINO,
Seth => SETH,
Singapore => SINGAPORE,
SupportXmr => SUPPORTXMR,
SupportXmrIr => SUPPORTXMR_IR,
_ => XMRVSBEAST
}
}
// Returns a tuple of (IP, RPC_PORT, ZMQ_PORT)
pub fn enum_to_ip_rpc_zmq_tuple(node: NodeEnum) -> (&'static str, &'static str, &'static str) {
// [.unwrap()] should be safe, IP:PORTs are constants after all.
let (ip, rpc) = enum_to_ip(node).rsplit_once(':').unwrap();
// Get ZMQ, grr... plowsof is the only 18084 zmq person.
let zmq = match node {
Plowsof1|Plowsof2 => "18084",
_ => "18083",
};
(ip, rpc, zmq)
}
// 5000 = 4 max length
pub fn format_ms(ms: u128) -> String {
match ms.to_string().len() {
1 => format!("{}ms ", ms),
2 => format!("{}ms ", ms),
3 => format!("{}ms ", ms),
_ => format!("{}ms", ms),
}
}
// MajesticBankIs = 14 max length
pub fn format_enum(id: NodeEnum) -> String {
match id.to_string().len() {
1 => format!("{} ", id),
2 => format!("{} ", id),
3 => format!("{} ", id),
4 => format!("{} ", id),
5 => format!("{} ", id),
6 => format!("{} ", id),
7 => format!("{} ", id),
8 => format!("{} ", id),
9 => format!("{} ", id),
10 => format!("{} ", id),
11 => format!("{} ", id),
12 => format!("{} ", id),
13 => format!("{} ", id),
_ => format!("{}", id),
}
}
//---------------------------------------------------------------------------------------------------- Ping data
#[derive(Debug)]
pub struct Ping {
pub nodes: Vec<NodeData>,
pub fastest: NodeEnum,
pub pinging: bool,
pub msg: String,
pub prog: f32,
pub pinged: bool,
pub auto_selected: bool,
}
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impl Ping {
pub fn new() -> Self {
Self {
nodes: NodeData::new_vec(),
fastest: NodeEnum::C3pool,
pinging: false,
msg: "No ping in progress".to_string(),
prog: 0.0,
pinged: false,
auto_selected: true,
}
}
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//---------------------------------------------------------------------------------------------------- Main Ping function
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// Intermediate function for spawning thread
pub fn spawn_thread(ping: &Arc<Mutex<Self>>) {
info!("Spawning ping thread...");
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let ping = Arc::clone(ping);
std::thread::spawn(move|| {
let now = Instant::now();
match Self::ping(&ping) {
Ok(msg) => {
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info!("Ping ... OK");
ping.lock().unwrap().msg = msg;
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ping.lock().unwrap().pinged = true;
ping.lock().unwrap().auto_selected = false;
},
Err(err) => {
error!("Ping ... FAIL ... {}", err);
ping.lock().unwrap().pinged = false;
ping.lock().unwrap().msg = err.to_string();
},
}
info!("Ping ... Took [{}] seconds...", now.elapsed().as_secs_f32());
ping.lock().unwrap().pinging = false;
});
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}
// This is for pinging the community nodes to
// find the fastest/slowest one for the user.
// The process:
// - Send [get_info] JSON-RPC request over HTTP to all IPs
// - Measure each request in milliseconds
// - Timeout on requests over 5 seconds
// - Add data to appropriate struct
// - Sorting fastest to lowest is automatic (fastest nodes return ... the fastest)
//
// This used to be done 3x linearly but after testing, sending a single
// JSON-RPC call to all IPs asynchronously resulted in the same data.
//
// <300ms = GREEN
// <1000ms = YELLOW
// >1000ms = RED
// timeout = BLACK
// default = GRAY
#[tokio::main]
pub async fn ping(ping: &Arc<Mutex<Self>>) -> Result<String, anyhow::Error> {
// Timer
let now = Instant::now();
let ping = Arc::clone(ping);
// Start ping
ping.lock().unwrap().pinging = true;
ping.lock().unwrap().prog = 0.0;
let percent = (100.0 / ((NODE_IPS.len()) as f32)).floor();
// Create HTTP client
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let info = "Creating HTTP Client".to_string();
ping.lock().unwrap().msg = info;
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let client: Client<HttpConnector> = Client::builder()
.build(HttpConnector::new());
// Random User Agent
let rand_user_agent = crate::Pkg::get_user_agent();
// Handle vector
let mut handles = Vec::with_capacity(NODE_IPS.len());
let node_vec = Arc::new(Mutex::new(Vec::with_capacity(NODE_IPS.len())));
for ip in NODE_IPS {
let client = client.clone();
let ping = Arc::clone(&ping);
let node_vec = Arc::clone(&node_vec);
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let request = Request::builder()
.method("POST")
.uri("http://".to_string() + ip + "/json_rpc")
.header("User-Agent", rand_user_agent)
.body(hyper::Body::from(r#"{"jsonrpc":"2.0","id":"0","method":"get_info"}"#))
.unwrap();
let handle = tokio::spawn(async move { Self::response(client, request, ip, ping, percent, node_vec).await });
handles.push(handle);
}
for handle in handles {
handle.await?;
}
let node_vec = std::mem::take(&mut *node_vec.lock().unwrap());
let fastest_info = format!("Fastest node: {}ms ... {} @ {}", node_vec[0].ms, node_vec[0].id, node_vec[0].ip);
let info = format!("Cleaning up connections");
info!("Ping | {}...", info);
let mut ping = ping.lock().unwrap();
ping.fastest = node_vec[0].id;
ping.nodes = node_vec;
ping.prog = 100.0;
ping.msg = info;
drop(ping);
Ok(fastest_info)
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}
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async fn response(client: Client<HttpConnector>, request: Request<Body>, ip: &'static str, ping: Arc<Mutex<Self>>, percent: f32, node_vec: Arc<Mutex<Vec<NodeData>>>) {
let id = ip_to_enum(ip);
let now = Instant::now();
let ms;
let info;
match tokio::time::timeout(Duration::from_secs(5), client.request(request)).await {
Ok(_) => {
ms = now.elapsed().as_millis();
info = format!("{}ms ... {}: {}", ms, id, ip);
info!("Ping | {}", info)
},
Err(_) => {
ms = 5000;
info = format!("{}ms ... {}: {}", ms, id, ip);
warn!("Ping | {}", info)
},
};
let color;
if ms < 300 {
color = GREEN;
} else if ms < 1000 {
color = YELLOW;
} else if ms < 5000 {
color = RED;
} else {
color = BLACK;
}
let mut ping = ping.lock().unwrap();
ping.msg = info;
ping.prog += percent;
drop(ping);
node_vec.lock().unwrap().push(NodeData { id: ip_to_enum(ip), ip, ms, color, });
}
}