veloren/network/examples/network-speed/main.rs

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///run with
/// ```bash
/// (cd network/examples/network-speed && RUST_BACKTRACE=1 cargo run --profile=debuginfo -Z unstable-options -- --trace=error --protocol=tcp --mode=server)
/// (cd network/examples/network-speed && RUST_BACKTRACE=1 cargo run --profile=debuginfo -Z unstable-options -- --trace=error --protocol=tcp --mode=client)
/// ```
use clap::{App, Arg};
use prometheus::Registry;
use prometheus_hyper::Server;
use serde::{Deserialize, Serialize};
use std::{
net::SocketAddr,
sync::Arc,
thread,
time::{Duration, Instant},
};
use tokio::runtime::Runtime;
use tracing::*;
use tracing_subscriber::EnvFilter;
use veloren_network::{ConnectAddr, ListenAddr, Message, Network, Pid, Promises};
#[derive(Serialize, Deserialize, Debug)]
enum Msg {
Ping { id: u64, data: Vec<u8> },
Pong { id: u64, data: Vec<u8> },
}
/// This utility tests the speed of veloren network by creating a client that
/// opens a stream and pipes as many messages through it as possible.
fn main() {
let matches = App::new("Veloren Speed Test Utility")
.version("0.1.0")
.author("Marcel Märtens <marcel.cochem@googlemail.com>")
.about("Runs speedtests regarding different parameter to benchmark veloren-network")
.arg(
Arg::with_name("mode")
.short("m")
.long("mode")
.takes_value(true)
.possible_values(&["server", "client", "both"])
.default_value("both")
.help(
"choose whether you want to start the server or client or both needed for \
this program",
),
)
.arg(
Arg::with_name("port")
.short("p")
.long("port")
.takes_value(true)
.default_value("52000")
.help("port to listen on"),
)
.arg(
Arg::with_name("ip")
.long("ip")
.takes_value(true)
.default_value("127.0.0.1")
.help("ip to listen and connect to"),
)
.arg(
Arg::with_name("protocol")
.long("protocol")
.takes_value(true)
.default_value("tcp")
.possible_values(&["tcp", "udp", "mpsc"])
.help(
"underlying protocol used for this test, mpsc can only combined with mode=both",
),
)
.arg(
Arg::with_name("trace")
.short("t")
.long("trace")
.takes_value(true)
.default_value("warn")
.possible_values(&["trace", "debug", "info", "warn", "error"])
.help("set trace level, not this has a performance impact!"),
)
.get_matches();
let trace = matches.value_of("trace").unwrap();
let filter = EnvFilter::from_default_env()
.add_directive(trace.parse().unwrap())
.add_directive("network_speed=debug".parse().unwrap())
.add_directive("veloren_network::participant=trace".parse().unwrap())
.add_directive("veloren_network::protocol=trace".parse().unwrap())
.add_directive("veloren_network::scheduler=trace".parse().unwrap())
.add_directive("veloren_network::api=trace".parse().unwrap())
/*
.add_directive("veloren_network::participant=debug".parse().unwrap()).add_directive("veloren_network::api=debug".parse().unwrap())*/;
tracing_subscriber::FmtSubscriber::builder()
.with_max_level(Level::ERROR)
.with_env_filter(filter)
.init();
let port: u16 = matches.value_of("port").unwrap().parse().unwrap();
let ip: &str = matches.value_of("ip").unwrap();
let addresses = match matches.value_of("protocol") {
Some("tcp") => (
ListenAddr::Tcp(format!("{}:{}", ip, port).parse().unwrap()),
ConnectAddr::Tcp(format!("{}:{}", ip, port).parse().unwrap()),
),
Some("udp") => (
ListenAddr::Udp(format!("{}:{}", ip, port).parse().unwrap()),
ConnectAddr::Udp(format!("{}:{}", ip, port).parse().unwrap()),
),
_ => panic!("invalid mode, run --help!"),
};
let mut background = None;
let runtime = Arc::new(Runtime::new().unwrap());
match matches.value_of("mode") {
Some("server") => server(addresses.0, Arc::clone(&runtime)),
Some("client") => client(addresses.1, Arc::clone(&runtime)),
Some("both") => {
let s = addresses.0;
let runtime2 = Arc::clone(&runtime);
background = Some(thread::spawn(|| server(s, runtime2)));
thread::sleep(Duration::from_millis(200)); //start client after server
client(addresses.1, Arc::clone(&runtime));
},
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_ => panic!("Invalid mode, run --help!"),
};
if let Some(background) = background {
background.join().unwrap();
}
}
fn server(address: ListenAddr, runtime: Arc<Runtime>) {
let registry = Arc::new(Registry::new());
let server = Network::new_with_registry(Pid::new(), &runtime, &registry);
runtime.spawn(Server::run(
Arc::clone(&registry),
SocketAddr::from(([0; 4], 59112)),
futures_util::future::pending(),
));
runtime.block_on(server.listen(address)).unwrap();
loop {
info!("----");
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info!("Waiting for participant to connect");
let p1 = runtime.block_on(server.connected()).unwrap(); //remote representation of p1
let mut s1 = runtime.block_on(p1.opened()).unwrap(); //remote representation of s1
runtime.block_on(async {
let mut last = Instant::now();
let mut id = 0u64;
while let Ok(_msg) = s1.recv_raw().await {
id += 1;
if id.rem_euclid(1000000) == 0 {
let new = Instant::now();
let diff = new.duration_since(last);
last = new;
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println!("Recv 1.000.000 took {}", diff.as_millis());
}
}
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info!("Other stream was closed");
});
}
}
fn client(address: ConnectAddr, runtime: Arc<Runtime>) {
let registry = Arc::new(Registry::new());
let client = Network::new_with_registry(Pid::new(), &runtime, &registry);
runtime.spawn(Server::run(
Arc::clone(&registry),
SocketAddr::from(([0; 4], 59111)),
futures_util::future::pending(),
));
let p1 = runtime.block_on(client.connect(address)).unwrap(); //remote representation of p1
let mut s1 = runtime
.block_on(p1.open(4, Promises::ORDERED | Promises::CONSISTENCY, 0))
.unwrap(); //remote representation of s1
let mut last = Instant::now();
let mut id = 0u64;
let raw_msg = Message::serialize(
&Msg::Ping {
id,
data: vec![0; 1000],
},
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s1.params(),
);
loop {
s1.send_raw(&raw_msg).unwrap();
id += 1;
if id.rem_euclid(1000000) == 0 {
let new = Instant::now();
let diff = new.duration_since(last);
last = new;
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println!("Send 1.000.000 took {}", diff.as_millis());
}
if id > 2000000 {
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println!("Stop");
std::thread::sleep(std::time::Duration::from_millis(2000));
break;
}
}
drop(s1);
std::thread::sleep(std::time::Duration::from_millis(2000));
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info!("Closing participant");
runtime.block_on(p1.disconnect()).unwrap();
std::thread::sleep(std::time::Duration::from_millis(2000));
info!("DROPPING! client");
drop(client);
std::thread::sleep(std::time::Duration::from_millis(2000));
}