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|
mod ringbuffer;
use crate::plot_data::PlotData;
use anyhow::{anyhow, Result};
use crossterm::event::{KeyEvent, KeyModifiers};
use crossterm::{
event::{self, DisableMouseCapture, EnableMouseCapture, Event as CEvent, KeyCode},
execute,
terminal::{disable_raw_mode, enable_raw_mode, EnterAlternateScreen, LeaveAlternateScreen},
};
use dns_lookup::lookup_host;
use pinger::{ping, PingResult};
use std::io;
use std::io::Write;
use std::iter;
use std::net::IpAddr;
use std::ops::Add;
use std::process::{Command, Stdio};
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::mpsc::Sender;
use std::sync::{mpsc, Arc};
use std::thread;
use std::thread::JoinHandle;
use std::time::{Duration, Instant};
use structopt::StructOpt;
use tui::backend::CrosstermBackend;
use tui::layout::{Constraint, Direction, Layout};
use tui::style::{Color, Style};
use tui::text::Span;
use tui::widgets::{Axis, Block, Borders, Chart, Dataset};
use tui::Terminal;
mod plot_data;
#[derive(Debug, StructOpt)]
#[structopt(name = "gping", about = "Ping, but with a graph.")]
struct Args {
#[structopt(
long,
help = "Graph the execution time for a list of commands rather than pinging hosts"
)]
cmd: bool,
#[structopt(
short = "n",
long,
help = "Watch interval seconds (provide partial seconds like '0.5')",
default_value = "0.5"
)]
watch_interval: f32,
#[structopt(help = "Hosts or IPs to ping, or commands to run if --cmd is provided.")]
hosts_or_commands: Vec<String>,
#[structopt(
short,
long,
default_value = "100",
help = "Determines the number pings to display."
)]
buffer: usize,
}
struct App {
data: Vec<PlotData>,
}
impl App {
fn new(data: Vec<PlotData>) -> Self {
App { data }
}
fn update(&mut self, host_idx: usize, item: Option<Duration>) {
let host = &mut self.data[host_idx];
host.update(item);
}
fn y_axis_bounds(&self) -> [f64; 2] {
// Find the Y axis bounds for our chart.
// This is trickier than the x-axis. We iterate through all our PlotData structs
// and find the min/max of all the values. Then we add a 10% buffer to them.
let iter = self
.data
.iter()
.map(|b| b.data.as_slice())
.flatten()
.map(|v| v.1);
let min = iter.clone().fold(f64::INFINITY, |a, b| a.min(b));
let max = iter.fold(0f64, |a, b| a.max(b));
// Add a 10% buffer to the top and bottom
let max_10_percent = (max * 10_f64) / 100_f64;
let min_10_percent = (min * 10_f64) / 100_f64;
[min - min_10_percent, max + max_10_percent]
}
fn x_axis_bounds(&self) -> [f64; 2] {
let window_min = self.data.iter().map(|d| d.window_min);
let window_max = self.data.iter().map(|d| d.window_max);
[
window_min.fold(f64::INFINITY, |a, b| a.min(b)),
window_max.fold(0f64, |a, b| a.max(b)),
]
}
fn y_axis_labels(&self, bounds: [f64; 2]) -> Vec<Span> {
// Create 7 labels for our y axis, based on the y-axis bounds we computed above.
let min = bounds[0];
let max = bounds[1];
let difference = max - min;
let increment = Duration::from_micros((difference / 3f64) as u64);
let duration = Duration::from_micros(min as u64);
(0..7)
.map(|i| Span::raw(format!("{:?}", duration.add(increment * i))))
.collect()
}
}
#[derive(Debug)]
enum Update {
Result(Duration),
Timeout,
Unknown,
}
impl From<PingResult> for Update {
fn from(result: PingResult) -> Self {
match result {
PingResult::Pong(duration, _) => Update::Result(duration),
PingResult::Timeout(_) => Update::Timeout,
PingResult::Unknown(_) => Update::Unknown,
}
}
}
#[derive(Debug)]
enum Event {
Update(usize, Update),
Input(KeyEvent),
}
fn start_cmd_thread(
watch_cmd: &str,
host_id: usize,
watch_interval: f32,
cmd_tx: Sender<Event>,
kill_event: Arc<AtomicBool>,
) -> JoinHandle<Result<()>> {
let mut words = watch_cmd.split_ascii_whitespace();
let cmd = words
.next()
.expect("Must specify a command to watch")
.to_string();
let cmd_args = words
.into_iter()
.map(|w| w.to_string())
.collect::<Vec<String>>();
let interval = Duration::from_millis((watch_interval * 1000.0) as u64);
// Pump cmd watches into the queue
thread::spawn(move || -> Result<()> {
while !kill_event.load(Ordering::Acquire) {
let start = Instant::now();
let mut child = Command::new(&cmd)
.args(&cmd_args)
.stderr(Stdio::null())
.stdout(Stdio::null())
.spawn()?;
let status = child.wait()?;
let duration = start.elapsed();
let update = if status.success() {
Update::Result(duration)
} else {
Update::Timeout
};
cmd_tx.send(Event::Update(host_id, update))?;
thread::sleep(interval);
}
Ok(())
})
}
fn start_ping_thread(
host: String,
host_id: usize,
ping_tx: Sender<Event>,
kill_event: Arc<AtomicBool>,
) -> JoinHandle<Result<()>> {
// Pump ping messages into the queue
thread::spawn(move || -> Result<()> {
let stream = ping(host)?;
while !kill_event.load(Ordering::Acquire) {
ping_tx.send(Event::Update(host_id, stream.recv()?.into()))?;
}
Ok(())
})
}
fn get_host_ipaddr(host: &str) -> Result<String> {
let ipaddr: Vec<IpAddr> = match lookup_host(host) {
Ok(ip) => ip,
Err(_) => return Err(anyhow!("Could not resolve hostname {}", host)),
};
let ipaddr = ipaddr.first();
Ok(ipaddr.unwrap().to_string())
}
fn main() -> Result<()> {
let args = Args::from_args();
let mut data = vec![];
for (idx, host_or_cmd) in args.hosts_or_commands.iter().enumerate() {
let display = match args.cmd {
true => host_or_cmd.to_string(),
false => format!("{} ({})", host_or_cmd, get_host_ipaddr(host_or_cmd)?),
};
|