get system information: | Information | Description | | ----------- | ----------- | | CPU load | CPU load info| | load average| Text| |memory usage|get real time memory usage| |uptime / boot time|get system bootup time| |battery life|get battery life info| |filesystem mounts (and disk usage)|get filesystem mounts ,totalspace, availablespace| |disk I/O statistics|get disk io info| |network interfaces|get network interfaces info| |network traffic statistics|get network statistic info| |CPU temperature|get CPU useage|
| Supported platforms | | ----------- | |FreeBSD| |Linux| |OpenBSD| |Windows| |macOS|
```rust use std::thread; use std::time::Duration; use getsysinfo::{System, Platform, saturatingsubbytes};
fn main() { let sys = System::new(); match sys.mounts() { Ok(mounts) => { for mount in mounts.iter() { println!("[mountedfrom:{}, filetype:{},mountedat:{},available:{},total:{}]", mount.fsmountedfrom, mount.fstype, mount.fsmountedon, mount.avail, mount.total); } } Err(x) => println!("\n mounts error: {}", x) }
match sys.mount_at("/") {
Ok(mount) => {
println!("[mounted_from:{}, file_type:{},mounted_at:{},available:{},total:{}]",
mount.fs_mounted_from, mount.fs_type, mount.fs_mounted_on, mount.avail, mount.total);
}
Err(x) => println!("\n mount_at /: error: {}", x)
}
match sys.block_device_statistics() {
Ok(stats) => {
for blkstats in stats.values() {
println!("{}: {:?}", blkstats.name, blkstats);
}
}
Err(x) => println!("\n block_device_statistics error: {}", x)
}
match sys.networks() {
Ok(netifs) => {
for netif in netifs.values() {
println!("{} ({:?})", netif.name, netif.addrs);
}
}
Err(x) => println!("\n networks: error: {}", x)
}
match sys.networks() {
Ok(netifs) => {
for netif in netifs.values() {
println!("{} statistics: ({:?})", netif.name, sys.network_stats(&netif.name));
}
}
Err(x) => println!("\n networks: error: {}", x)
}
match sys.battery_life() {
Ok(battery) =>
print!("\nBattery: {}%, {}h{}m remaining",
battery.remaining_capacity*100.0,
battery.remaining_time.as_secs() / 3600,
battery.remaining_time.as_secs() % 60),
Err(x) => print!("\n battery: error: {}", x)
}
match sys.on_ac_power() {
Ok(power) => println!(", AC power: {}", power),
Err(x) => println!(", AC power: error: {}", x)
}
match sys.memory() {
Ok(mem) => println!("\n memory: {} used / {} ({} bytes) total ({:?})", saturating_sub_bytes(mem.total, mem.free), mem.total, mem.total.as_u64(), mem.platform_memory),
Err(x) => println!("\n memory: error: {}", x)
}
match sys.load_average() {
Ok(loadavg) => println!("\n load_average: {} {} {}", loadavg.one, loadavg.five, loadavg.fifteen),
Err(x) => println!("\n load_average: error: {}", x)
}
match sys.uptime() {
Ok(uptime) => println!("\n uptime: {:?}", uptime),
Err(x) => println!("\n uptime: error: {}", x)
}
match sys.boot_time() {
Ok(boot_time) => println!("\n boot_time: {}", boot_time),
Err(x) => println!("\n boot_time: error: {}", x)
}
match sys.cpu_load_aggregate() {
Ok(cpu)=> {
thread::sleep(Duration::from_secs(1));
let cpu = cpu.done().unwrap();
println!("CPU load: {}% user, {}% nice, {}% system, {}% intr, {}% idle ",
cpu.user * 100.0, cpu.nice * 100.0, cpu.system * 100.0, cpu.interrupt * 100.0, cpu.idle * 100.0);
},
Err(x) => println!("\n cpu_load_aggregate: error: {}", x)
}
match sys.cpu_temp() {
Ok(cpu_temp) => println!("\n cpu_temp: {}", cpu_temp),
Err(x) => println!("\n cpu_temp: {}", x)
}
match sys.socket_stats() {
Ok(stats) => println!("\nsocket_stats: {:?}", stats),
Err(x) => println!("\nsocket_stats: error: {}", x)
}
}
```