veloren/network/examples/tcp_loadtest.rs

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//!run with
//! ```bash
//! RUST_BACKTRACE=1 cargo run --example tcp_loadtest 127.0.0.1 52000
//! ```
use std::{
env,
io::Write,
net::{SocketAddr, TcpStream},
sync::{
atomic::{AtomicU64, Ordering},
Arc,
},
thread,
time::{Duration, Instant},
};
extern crate rand;
fn setup() -> Result<SocketAddr, u32> {
let args: Vec<String> = env::args().collect();
if args.len() < 3 {
println!("usage: tcp-loadtest <ip> <port>");
println!("example: tcp-loadtest 127.0.0.1 52000");
return Err(1);
}
let a: SocketAddr = format!("{}:{}", args[1], args[2]).parse().unwrap();
println!("You provided address: {}", &a);
Ok(a)
}
/// This example file is not running veloren-network at all,
/// instead it's just trying to create 4 threads and pump as much bytes as
/// possible through a specific listener, the listener needs to be created
/// before this program is started.
fn main() -> Result<(), u32> {
let addr = Arc::new(setup()?);
let data: Arc<String> = Arc::new(
(0..1000000)
.map(|_| (0x20u8 + (rand::random::<f32>() * 96.0) as u8) as char)
.collect(),
);
let total_bytes_send = Arc::new(AtomicU64::new(0));
let total_send_count = Arc::new(AtomicU64::new(0));
let total_finished_threads = Arc::new(AtomicU64::new(0));
let start_time = Instant::now();
let mut threads = Vec::new();
let thread_count = 4;
for i in 0..thread_count {
let addr = addr.clone();
let total_bytes_send = total_bytes_send.clone();
let total_send_count = total_send_count.clone();
let total_finished_threads = total_finished_threads.clone();
let data = data.clone();
threads.push(thread::spawn(move || {
let mut stream = match TcpStream::connect(addr.as_ref()) {
Err(err) => {
total_finished_threads.fetch_add(1, Ordering::SeqCst);
panic!("could not open connection: {}", err);
},
Ok(s) => s,
};
let mut thread_bytes_send: u64 = 0;
let mut thread_last_sync = Instant::now();
loop {
let tosend: u64 = rand::random::<u16>() as u64 * 10 + 1000;
thread_bytes_send += tosend;
let cur = Instant::now();
if cur.duration_since(thread_last_sync) >= Duration::from_secs(1) {
thread_last_sync = cur;
println!("[{}]send: {}MiB/s", i, thread_bytes_send / (1024 * 1024));
total_bytes_send.fetch_add(thread_bytes_send, Ordering::SeqCst);
thread_bytes_send = 0;
}
total_send_count.fetch_add(1, Ordering::SeqCst);
let ret = stream.write_all(data[0..(tosend as usize)].as_bytes());
if ret.is_err() {
println!("[{}] error: {}", i, ret.err().unwrap());
total_finished_threads.fetch_add(1, Ordering::SeqCst);
return;
}
//stream.flush();
}
}));
}
while total_finished_threads.load(Ordering::SeqCst) < thread_count {
thread::sleep(Duration::from_millis(10));
}
let cur = Instant::now();
let dur = cur.duration_since(start_time);
println!("================");
2020-08-25 12:21:25 +00:00
println!("test ended");
println!(
"total send: {}MiB",
total_bytes_send.load(Ordering::SeqCst) / (1024 * 1024)
);
println!("total time: {}s", dur.as_secs());
println!(
"average: {}KiB/s",
total_bytes_send.load(Ordering::SeqCst) * 1000 / dur.as_millis() as u64 / 1024
);
println!(
"send count: {}/s",
total_send_count.load(Ordering::SeqCst) * 1000 / dur.as_millis() as u64
);
Ok(())
}