use criterion::{black_box, criterion_group, criterion_main, Criterion}; use hyper::client::connect::dns::GaiResolver; use hyper::client::HttpConnector; use hyper::header::HeaderName; use hyper::Uri; use hyper::{HeaderMap, Request, Response}; use hyper_reverse_proxy::benches as internal_benches; use hyper_reverse_proxy::ReverseProxy; use rand::distributions::Alphanumeric; use rand::prelude::*; use std::net::Ipv4Addr; use std::str::FromStr; use test_context::AsyncTestContext; use tokio::runtime::Runtime; use tokiotest_httpserver::HttpTestContext; lazy_static::lazy_static! { static ref PROXY_CLIENT: ReverseProxy> = { ReverseProxy::new( hyper::Client::new(), ) }; } fn create_proxied_response(b: &mut Criterion) { let headers_map = build_headers(); b.bench_function("create proxied response", |t| { t.iter(|| { let mut response = Response::builder().status(200); *response.headers_mut().unwrap() = headers_map.clone(); internal_benches::create_proxied_response(black_box(response.body(()).unwrap())); }) }); } fn generate_string() -> String { let take = rand::thread_rng().gen::().into(); rand::thread_rng() .sample_iter(&Alphanumeric) .take(take) .map(char::from) .collect() } fn build_headers() -> HeaderMap { let mut headers_map: HeaderMap = (&*internal_benches::hop_headers()) .iter() .map(|el: &'static HeaderName| (el.clone(), generate_string().parse().unwrap())) .collect(); for _i in 0..20 { 'inserted: loop { if let Ok(value) = hyper::header::HeaderName::from_str(&generate_string().to_lowercase()) { headers_map.insert(value, generate_string().parse().unwrap()); break 'inserted; } } } headers_map } fn proxy_call(b: &mut Criterion) { let rt = Runtime::new().unwrap(); let uri = Uri::from_static("http://0.0.0.0:8080/me?hello=world"); let http_context: HttpTestContext = rt.block_on(async { AsyncTestContext::setup().await }); let forward_url = &format!("http://0.0.0.0:{}", http_context.port); let headers_map = build_headers(); let client_ip = std::net::IpAddr::from(Ipv4Addr::from_str("0.0.0.0").unwrap()); b.bench_function("proxy call", |c| { c.iter(|| { rt.block_on(async { let mut request = Request::builder().uri(uri.clone()); *request.headers_mut().unwrap() = headers_map.clone(); black_box(&PROXY_CLIENT) .call( black_box(client_ip), black_box(forward_url), black_box(request.body(hyper::Body::from("")).unwrap()), ) .await .unwrap(); }) }) }); } fn forward_url_with_str_ending_slash(b: &mut Criterion) { let uri = Uri::from_static("https://0.0.0.0:8080/me"); let port = rand::thread_rng().gen::(); let forward_url = &format!("https://0.0.0.0:{}/", port); b.bench_function("forward url with str ending slash", |b| { b.iter(|| { let request = Request::builder().uri(uri.clone()).body(()); internal_benches::forward_uri(forward_url, &request.unwrap()); }) }); } fn forward_url_with_str_ending_slash_and_query(b: &mut Criterion) { let uri = Uri::from_static("https://0.0.0.0:8080/me?hello=world"); let port = rand::thread_rng().gen::(); let forward_url = &format!("https://0.0.0.0:{}/", port); b.bench_function("forward url with str ending slash and query", |t| { t.iter(|| { let request = Request::builder().uri(uri.clone()).body(()); internal_benches::forward_uri(forward_url, &request.unwrap()); }) }); } fn forward_url_no_ending_slash(b: &mut Criterion) { let uri = Uri::from_static("https://0.0.0.0:8080/me"); let port = rand::thread_rng().gen::(); let forward_url = &format!("https://0.0.0.0:{}", port); b.bench_function("forward url no ending slash", |t| { t.iter(|| { let request = Request::builder().uri(uri.clone()).body(()); internal_benches::forward_uri(forward_url, &request.unwrap()); }) }); } fn forward_url_with_query(b: &mut Criterion) { let uri = Uri::from_static("https://0.0.0.0:8080/me?hello=world"); let port = rand::thread_rng().gen::(); let forward_url = &format!("https://0.0.0.0:{}", port); b.bench_function("forward_url_with_query", |t| { t.iter(|| { let request = Request::builder().uri(uri.clone()).body(()); internal_benches::forward_uri(forward_url, &request.unwrap()); }) }); } fn create_proxied_request_forwarded_for_occupied(b: &mut Criterion) { let uri = Uri::from_static("https://0.0.0.0:8080/me?hello=world"); let port = rand::thread_rng().gen::(); let forward_url = &format!("https://0.0.0.0:{}", port); let mut headers_map = build_headers(); headers_map.insert( HeaderName::from_static("x-forwarded-for"), "0.0.0.0".parse().unwrap(), ); let client_ip = std::net::IpAddr::from(Ipv4Addr::from_str("0.0.0.0").unwrap()); b.bench_function("create proxied request forwarded for occupied", |t| { t.iter(|| { let mut request = Request::builder().uri(uri.clone()); *request.headers_mut().unwrap() = headers_map.clone(); internal_benches::create_proxied_request( client_ip, forward_url, request.body(()).unwrap(), None, ); }) }); } fn create_proxied_request_forwarded_for_vacant(b: &mut Criterion) { let uri = Uri::from_static("https://0.0.0.0:8080/me?hello=world"); let port = rand::thread_rng().gen::(); let forward_url = &format!("https://0.0.0.0:{}", port); let headers_map = build_headers(); let client_ip = std::net::IpAddr::from(Ipv4Addr::from_str("0.0.0.0").unwrap()); b.bench_function("create proxied request forwarded for vacant", |t| { t.iter(|| { let mut request = Request::builder().uri(uri.clone()); *request.headers_mut().unwrap() = headers_map.clone(); internal_benches::create_proxied_request( client_ip, forward_url, request.body(()).unwrap(), None, ); }) }); } criterion_group!(external_api, proxy_call); criterion_group!(responses, create_proxied_response); criterion_group!( url_parsing, forward_url_with_query, forward_url_no_ending_slash, forward_url_with_str_ending_slash_and_query, forward_url_with_str_ending_slash ); criterion_group!( requests, create_proxied_request_forwarded_for_vacant, create_proxied_request_forwarded_for_occupied ); criterion_main!(external_api, responses, url_parsing, requests);