//! Simple websocket client. #![allow(unused_variables)] extern crate actix; extern crate actix_web; extern crate env_logger; extern crate futures; extern crate tokio_core; extern crate url; extern crate clap; extern crate rand; extern crate time; extern crate num_cpus; use std::time::Duration; use std::sync::Arc; use std::sync::atomic::{AtomicUsize, Ordering}; use futures::Future; use rand::{thread_rng, Rng}; use actix::prelude::*; use actix_web::ws; fn main() { ::std::env::set_var("RUST_LOG", "actix_web=info"); let _ = env_logger::init(); let matches = clap::App::new("ws tool") .version("0.1") .about("Applies load to websocket server") .args_from_usage( " 'WebSocket url' [bin]... -b, 'use binary frames' -s, --size=[NUMBER] 'size of PUBLISH packet payload to send in KB' -w, --warm-up=[SECONDS] 'seconds before counter values are considered for reporting' -r, --sample-rate=[SECONDS] 'seconds between average reports' -c, --concurrency=[NUMBER] 'number of websockt connections to open and use concurrently for sending' -t, --threads=[NUMBER] 'number of threads to use'", ) .get_matches(); let bin: bool = matches.value_of("bin").is_some(); let ws_url = matches.value_of("url").unwrap().to_owned(); let _ = url::Url::parse(&ws_url).map_err(|e| { println!("Invalid url: {}", ws_url); std::process::exit(0); }); let threads = parse_u64_default(matches.value_of("threads"), num_cpus::get() as u64); let concurrency = parse_u64_default(matches.value_of("concurrency"), 1); let payload_size: usize = match matches.value_of("size") { Some(s) => parse_u64_default(Some(s), 0) as usize * 1024, None => 1024, }; let warmup_seconds = parse_u64_default(matches.value_of("warm-up"), 2) as u64; let sample_rate = parse_u64_default(matches.value_of("sample-rate"), 1) as usize; let perf_counters = Arc::new(PerfCounters::new()); let payload = Arc::new(thread_rng() .gen_ascii_chars() .take(payload_size) .collect::()); let sys = actix::System::new("ws-client"); let mut report = true; for t in 0..threads { let pl = payload.clone(); let ws = ws_url.clone(); let perf = perf_counters.clone(); let addr = Arbiter::new(format!("test {}", t)); addr.do_send(actix::msgs::Execute::new(move || -> Result<(), ()> { let mut reps = report; for _ in 0..concurrency { let pl2 = pl.clone(); let perf2 = perf.clone(); Arbiter::handle().spawn( ws::Client::new(&ws).connect() .map_err(|e| { println!("Error: {}", e); Arbiter::system().do_send(actix::msgs::SystemExit(0)); () }) .map(move |(reader, writer)| { let addr: Addr = ChatClient::create(move |ctx| { ChatClient::add_stream(reader, ctx); ChatClient{conn: writer, payload: pl2, report: reps, bin: bin, ts: time::precise_time_ns(), perf_counters: perf2, sample_rate_secs: sample_rate, } }); }) ); reps = false; } Ok(()) })); report = false; } let _ = sys.run(); } fn parse_u64_default(input: Option<&str>, default: u64) -> u64 { input.map(|v| v.parse().expect(&format!("not a valid number: {}", v))) .unwrap_or(default) } struct ChatClient{ conn: ws::ClientWriter, payload: Arc, ts: u64, bin: bool, report: bool, perf_counters: Arc, sample_rate_secs: usize, } impl Actor for ChatClient { type Context = Context; fn started(&mut self, ctx: &mut Context) { self.send_text(); if self.report { self.sample_rate(ctx); } } fn stopping(&mut self, _: &mut Context) -> Running { Arbiter::system().do_send(actix::msgs::SystemExit(0)); Running::Stop } } impl ChatClient { fn sample_rate(&self, ctx: &mut Context) { ctx.run_later(Duration::new(self.sample_rate_secs as u64, 0), |act, ctx| { let req_count = act.perf_counters.pull_request_count(); if req_count != 0 { let latency = act.perf_counters.pull_latency_ns(); let latency_max = act.perf_counters.pull_latency_max_ns(); println!( "rate: {}, throughput: {:?} kb, latency: {}, latency max: {}", req_count / act.sample_rate_secs, (((req_count * act.payload.len()) as f64) / 1024.0) / act.sample_rate_secs as f64, time::Duration::nanoseconds((latency / req_count as u64) as i64), time::Duration::nanoseconds(latency_max as i64) ); } act.sample_rate(ctx); }); } fn send_text(&mut self) { self.ts = time::precise_time_ns(); if self.bin { self.conn.binary(&self.payload); } else { self.conn.text(&self.payload); } } } /// Handle server websocket messages impl StreamHandler for ChatClient { fn finished(&mut self, ctx: &mut Context) { ctx.stop() } fn handle(&mut self, msg: ws::Message, ctx: &mut Context) { match msg { ws::Message::Text(txt) => { if txt == self.payload.as_ref().as_str() { self.perf_counters.register_request(); self.perf_counters.register_latency(time::precise_time_ns() - self.ts); self.send_text(); } else { println!("not eaqual"); } }, _ => () } } } pub struct PerfCounters { req: AtomicUsize, lat: AtomicUsize, lat_max: AtomicUsize } impl PerfCounters { pub fn new() -> PerfCounters { PerfCounters { req: AtomicUsize::new(0), lat: AtomicUsize::new(0), lat_max: AtomicUsize::new(0), } } pub fn pull_request_count(&self) -> usize { self.req.swap(0, Ordering::SeqCst) } pub fn pull_latency_ns(&self) -> u64 { self.lat.swap(0, Ordering::SeqCst) as u64 } pub fn pull_latency_max_ns(&self) -> u64 { self.lat_max.swap(0, Ordering::SeqCst) as u64 } pub fn register_request(&self) { self.req.fetch_add(1, Ordering::SeqCst); } pub fn register_latency(&self, nanos: u64) { let nanos = nanos as usize; self.lat.fetch_add(nanos, Ordering::SeqCst); loop { let current = self.lat_max.load(Ordering::SeqCst); if current >= nanos || self.lat_max.compare_and_swap(current, nanos, Ordering::SeqCst) == current { break; } } } }