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mod.rs
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pub extern crate futures;
pub extern crate hyper;
pub extern crate tokio;
pub use std::net::SocketAddr;
pub use self::futures::{future, Future, Stream};
pub use self::futures::sync::oneshot;
pub use self::hyper::{HeaderMap, StatusCode};
pub use self::tokio::runtime::Runtime;
macro_rules! t {
(
$name:ident,
parallel: $range:expr
) => (
#[test]
fn $name() {
let mut c = vec![];
let mut s = vec![];
for _i in $range {
c.push((
__CReq {
uri: "/",
body: vec![b'x'; 8192],
..Default::default()
},
__CRes {
body: vec![b'x'; 8192],
..Default::default()
},
));
s.push((
__SReq {
uri: "/",
body: vec![b'x'; 8192],
..Default::default()
},
__SRes {
body: vec![b'x'; 8192],
..Default::default()
},
));
}
__run_test(__TestConfig {
client_version: 2,
client_msgs: c,
server_version: 2,
server_msgs: s,
parallel: true,
connections: 1,
});
}
);
(
$name:ident,
client: $(
request: $(
$c_req_prop:ident: $c_req_val:tt,
)*;
response: $(
$c_res_prop:ident: $c_res_val:tt,
)*;
)*
server: $(
request: $(
$s_req_prop:ident: $s_req_val:tt,
)*;
response: $(
$s_res_prop:ident: $s_res_val:tt,
)*;
)*
) => (
#[test]
fn $name() {
let c = vec![$((
__CReq {
$($c_req_prop: __internal_req_res_prop!($c_req_prop: $c_req_val),)*
..Default::default()
},
__CRes {
$($c_res_prop: __internal_req_res_prop!($c_res_prop: $c_res_val),)*
..Default::default()
}
),)*];
let s = vec![$((
__SReq {
$($s_req_prop: __internal_req_res_prop!($s_req_prop: $s_req_val),)*
..Default::default()
},
__SRes {
$($s_res_prop: __internal_req_res_prop!($s_res_prop: $s_res_val),)*
..Default::default()
}
),)*];
__run_test(__TestConfig {
client_version: 1,
client_msgs: c.clone(),
server_version: 1,
server_msgs: s.clone(),
parallel: false,
connections: 1,
});
__run_test(__TestConfig {
client_version: 2,
client_msgs: c,
server_version: 2,
server_msgs: s,
parallel: false,
connections: 1,
});
}
);
}
macro_rules! __internal_req_res_prop {
(method: $prop_val:expr) => (
$prop_val
);
(status: $prop_val:expr) => (
StatusCode::from_u16($prop_val).expect("status code")
);
(headers: $map:tt) => ({
#[allow(unused_mut)]
{
let mut headers = HeaderMap::new();
__internal_headers!(headers, $map);
headers
}
});
($prop_name:ident: $prop_val:expr) => (
From::from($prop_val)
)
}
macro_rules! __internal_headers {
($headers:ident, { $($name:expr => $val:expr,)* }) => {
$(
$headers.insert($name, $val.to_string().parse().expect("header value"));
)*
}
}
#[derive(Clone, Debug, Default)]
pub struct __CReq {
pub method: &'static str,
pub uri: &'static str,
pub headers: HeaderMap,
pub body: Vec<u8>,
}
#[derive(Clone, Debug, Default)]
pub struct __CRes {
pub status: hyper::StatusCode,
pub body: Vec<u8>,
pub headers: HeaderMap,
}
#[derive(Clone, Debug, Default)]
pub struct __SReq {
pub method: &'static str,
pub uri: &'static str,
pub headers: HeaderMap,
pub body: Vec<u8>,
}
#[derive(Clone, Debug, Default)]
pub struct __SRes {
pub status: hyper::StatusCode,
pub body: Vec<u8>,
pub headers: HeaderMap,
}
pub struct __TestConfig {
pub client_version: usize,
pub client_msgs: Vec<(__CReq, __CRes)>,
pub server_version: usize,
pub server_msgs: Vec<(__SReq, __SRes)>,
pub parallel: bool,
pub connections: usize,
}
pub fn __run_test(cfg: __TestConfig) {
extern crate pretty_env_logger;
use hyper::{Body, Client, Request, Response, Version};
use hyper::client::HttpConnector;
use std::sync::{Arc, Mutex};
use std::time::Duration;
let _ = pretty_env_logger::try_init();
let rt = Runtime::new().expect("new rt");
let handle = rt.reactor().clone();
assert_eq!(cfg.client_version, cfg.server_version);
let version = if cfg.client_version == 2 {
Version::HTTP_2
} else {
Version::HTTP_11
};
let connector = HttpConnector::new_with_handle(1, handle.clone());
let client = Client::builder()
.keep_alive_timeout(Duration::from_secs(10))
.http2_only(cfg.client_version == 2)
.executor(rt.executor())
.build::<_, Body>(connector);
let serve_handles = Arc::new(Mutex::new(
cfg.server_msgs
));
let new_service = move || {
// Move a clone into the service_fn
let serve_handles = serve_handles.clone();
hyper::service::service_fn(move |req: Request<Body>| {
let (sreq, sres) = serve_handles.lock()
.unwrap()
.remove(0);
assert_eq!(req.uri().path(), sreq.uri);
assert_eq!(req.method(), &sreq.method);
assert_eq!(req.version(), version);
for (name, value) in &sreq.headers {
assert_eq!(
req.headers()[name],
value
);
}
let sbody = sreq.body;
req.into_body()
.concat2()
.map(move |body| {
assert_eq!(body.as_ref(), sbody.as_slice());
let mut res = Response::builder()
.status(sres.status)
.body(Body::from(sres.body))
.expect("Response::build");
*res.headers_mut() = sres.headers;
res
})
})
};
let serve = hyper::server::conn::Http::new()
.http2_only(cfg.server_version == 2)
.executor(rt.executor())
.serve_addr_handle(
&SocketAddr::from(([127, 0, 0, 1], 0)),
&handle,
new_service,
)
.expect("serve_addr_handle");
let addr = serve.incoming_ref().local_addr();
let exe = rt.executor();
let (shutdown_tx, shutdown_rx) = oneshot::channel();
let (success_tx, success_rx) = oneshot::channel();
let expected_connections = cfg.connections;
let server = serve
.fold(0, move |cnt, connecting| {
let fut = connecting
.map_err(|never| -> hyper::Error { match never {} })
.flatten()
.map_err(|e| panic!("server connection error: {}", e));
exe.spawn(fut);
Ok::<_, hyper::Error>(cnt + 1)
})
.map(move |cnt| {
assert_eq!(cnt, expected_connections);
})
.map_err(|e| panic!("serve error: {}", e))
.select2(shutdown_rx)
.map(move |_| {
let _ = success_tx.send(());
})
.map_err(|_| panic!("shutdown not ok"));
rt.executor().spawn(server);
let make_request = Arc::new(move |client: &Client<HttpConnector>, creq: __CReq, cres: __CRes| {
let uri = format!("http://{}{}", addr, creq.uri);
let mut req = Request::builder()
.method(creq.method)
.uri(uri)
//.headers(creq.headers)
.body(creq.body.into())
.expect("Request::build");
*req.headers_mut() = creq.headers;
let cstatus = cres.status;
let cheaders = cres.headers;
let cbody = cres.body;
client.request(req)
.and_then(move |res| {
assert_eq!(res.status(), cstatus);
assert_eq!(res.version(), version);
for (name, value) in &cheaders {
assert_eq!(
res.headers()[name],
value
);
}
res.into_body().concat2()
})
.map(move |body| {
assert_eq!(body.as_ref(), cbody.as_slice());
})
.map_err(|e| panic!("client error: {}", e))
});
let client_futures: Box<Future<Item=(), Error=()> + Send> = if cfg.parallel {
let mut client_futures = vec![];
for (creq, cres) in cfg.client_msgs {
client_futures.push(make_request(&client, creq, cres));
}
drop(client);
Box::new(future::join_all(client_futures).map(|_| ()))
} else {
let mut client_futures: Box<Future<Item=Client<HttpConnector>, Error=()> + Send> =
Box::new(future::ok(client));
for (creq, cres) in cfg.client_msgs {
let mk_request = make_request.clone();
client_futures = Box::new(
client_futures
.and_then(move |client| {
let fut = mk_request(&client, creq, cres);
fut.map(move |()| client)
})
);
}
Box::new(client_futures.map(|_| ()))
};
let client_futures = client_futures.map(move |_| {
let _ = shutdown_tx.send(());
});
rt.executor().spawn(client_futures);
rt.shutdown_on_idle().wait().expect("rt");
success_rx
.map_err(|_| "something panicked")
.wait()
.expect("shutdown succeeded");
}