use std::fmt::Write; use std::fs::File; use std::io; use std::io::prelude::*; #[derive(Debug)] pub enum Error { IO(std::io::Error), ParseInt(std::num::ParseIntError), Format(std::fmt::Error), Generic(String), } impl From for Error { fn from(io_error: std::io::Error) -> Self { Self::IO(io_error) } } impl From for Error { fn from(parse_error: std::num::ParseIntError) -> Self { Self::ParseInt(parse_error) } } impl From for Error { fn from(fmt_error: std::fmt::Error) -> Self { Self::Format(fmt_error) } } impl From for Error { fn from(string: String) -> Self { Self::Generic(string) } } impl std::fmt::Display for Error { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { Error::IO(e) => e.fmt(f), Error::ParseInt(e) => e.fmt(f), Error::Format(e) => e.fmt(f), Error::Generic(s) => f.write_str(s), } } } impl std::error::Error for Error { fn source(&self) -> Option<&(dyn std::error::Error + 'static)> { match self { Error::IO(e) => e.source(), Error::ParseInt(e) => e.source(), Error::Format(e) => e.source(), _ => None, } } } pub struct NetInfo { dev_name: String, down: u64, prev_down: u64, up: u64, prev_up: u64, } impl NetInfo { pub fn new(dev_name: String) -> Self { Self { dev_name, down: 0, prev_down: 0, up: 0, prev_up: 0, } } pub fn update(&mut self) -> Result<(), Error> { let mut netdev_string = String::new(); { let mut netdev_file: File = File::open("/proc/net/dev")?; netdev_file.read_to_string(&mut netdev_string)?; } let mut dev_line: Option = None; for line in netdev_string.lines() { if line.starts_with(&self.dev_name) { dev_line = Some(line.to_owned()); break; } } if let Some(line) = dev_line { let entries: Vec<&str> = line.split_whitespace().collect(); if entries.len() < 10 { return Err(format!("NetInfo::update: Failed to parse /proc/net/dev, \"{}\" device line is too short", self.dev_name).into()); } self.down = entries[1].parse()?; self.up = entries[9].parse()?; } else { return Err(format!( "NetInfo::update: Failed to parse /proc/net/dev, can't find net device \"{}\"", self.dev_name ) .into()); } Ok(()) } pub fn get_netstring(&mut self) -> Result { let down_diff: f64 = (self.down - self.prev_down) as f64; self.prev_down = self.down; let up_diff: f64 = (self.up - self.prev_up) as f64; self.prev_up = self.up; let mut output = String::new(); if down_diff > 1024.0 * 1024.0 { write!(&mut output, "{:.2} MiB ", down_diff / (1024.0 * 1024.0))?; } else if down_diff > 1024.0 { write!(&mut output, "{:.2} KiB ", down_diff / 1024.0)?; } else { write!(&mut output, "{:.0} B ", down_diff)?; } if up_diff > 1024.0 * 1024.0 { write!(&mut output, "{:.2} MiB", up_diff / (1024.0 * 1024.0))?; } else if up_diff > 1024.0 { write!(&mut output, "{:.2} KiB", up_diff / 1024.0)?; } else { write!(&mut output, "{:.0} B", up_diff)?; } Ok(output) } } pub fn get_meminfo() -> Result { let mut meminfo_string = String::new(); { let mut meminfo: File = File::open("/proc/meminfo")?; meminfo.read_to_string(&mut meminfo_string)?; } let mut is_total_mega = false; let mut total: u32 = 0; let mut available: u32 = 0; for line in meminfo_string.lines() { if line.starts_with("MemTotal:") { let line_parts = line .split_whitespace() .map(|s| s.to_owned()) .collect::>(); total = line_parts[1] .parse() .map_err(|_| io::Error::new(io::ErrorKind::Other, "MemTotal: parse error"))?; } else if line.starts_with("MemAvailable:") { let line_parts = line .split_whitespace() .map(|s| s.to_owned()) .collect::>(); available = line_parts[1] .parse() .map_err(|_| io::Error::new(io::ErrorKind::Other, "MemAvailable: parse error"))?; } } let mut used = total - available; let mut is_used_mega = false; if total == 0 { Ok("0".into()) } else { if total > 1024 { total /= 1024; is_total_mega = true; } if used > 1024 { used /= 1024; is_used_mega = true; } let mut output = format!("{} ", used); if is_used_mega { output.push_str("MiB / "); } else { output.push_str("KiB / "); } write!(&mut output, "{} ", total)?; if is_total_mega { output.push_str("MiB"); } else { output.push_str("KiB"); } Ok(output) } } pub fn get_loadavg() -> Result { let mut loadavg_string = String::new(); { let mut loadavg_file: File = File::open("/proc/loadavg")?; loadavg_file.read_to_string(&mut loadavg_string)?; } let loadavg_parts: Vec<&str> = loadavg_string.split_whitespace().collect(); if loadavg_parts.len() < 3 { return Err("loadavg: failed to parse".to_owned().into()); } Ok(format!( "{} {} {}", loadavg_parts[0], loadavg_parts[1], loadavg_parts[2] )) }