#[tokio::test]
async fn test_server_basic_usage() {
use crate::*;
fn println(data: &str) {
let binding: String = current_time();
let mut time_output_builder: OutputBuilder<'_> = OutputBuilder::new();
let mut text_output_builder: OutputBuilder<'_> = OutputBuilder::new();
let time_output: Output<'_> = time_output_builder
.text(&binding)
.blod(true)
.bg_color(ColorType::Use(Color::Yellow))
.color(ColorType::Rgb(255, 255, 255))
.build();
let text_output: Output<'_> = text_output_builder
.text(data)
.blod(true)
.bg_color(ColorType::Use(Color::Green))
.color(ColorType::Rgb(255, 255, 255))
.endl(true)
.build();
OutputListBuilder::new()
.add(time_output)
.add(text_output)
.run();
}
fn common_log(log_data: &String) -> String {
println(&log_data);
let write_data: String = format!("{}: {}\n", current_time(), log_data);
write_data.clone()
}
fn sync_middleware(arc_lock_controller_data: ArcRwLockControllerData) {
let mut controller_data: RwLockWriteControllerData =
arc_lock_controller_data.write().unwrap();
{
let request: &mut Vec<u8> = controller_data.get_mut_request();
let mut new_request: Vec<u8> = request.clone();
let ext: Vec<u8> = "test".as_bytes().to_vec();
new_request.extend(ext);
*request = new_request;
}
let request: Request = controller_data.get_request().clone();
let stream: ArcTcpStream = controller_data.get_stream().clone().unwrap();
let host: String = stream
.peer_addr()
.and_then(|host| Ok(host.to_string()))
.unwrap_or("Unknown".to_owned());
controller_data.get_log().debug(
format!(
"Request host => {}\n{:#?}\n",
host,
String::from_utf8_lossy(&request),
),
common_log,
);
}
async fn async_middleware(arc_lock_controller_data: ArcRwLockControllerData) {
let controller_data: RwLockWriteControllerData = arc_lock_controller_data.write().unwrap();
println!(
"async middleware request{:?}",
String::from_utf8_lossy(controller_data.get_request())
);
}
fn sync_func(arc_lock_controller_data: ArcRwLockControllerData) {
let controller_data: RwLockWriteControllerData = arc_lock_controller_data.write().unwrap();
let stream: ArcTcpStream = controller_data.get_stream().clone().unwrap();
let res: ResponseResult = controller_data
.get_response()
.clone()
.set_data("hello world".into())
.send(&stream);
controller_data.get_log().debug(
format!("Response => {:?}\n", String::from_utf8_lossy(&res.unwrap())),
common_log,
);
}
async fn async_func(arc_lock_controller_data: ArcRwLockControllerData) {
let controller_data: RwLockWriteControllerData = arc_lock_controller_data.write().unwrap();
let stream: ArcTcpStream = controller_data.get_stream().clone().unwrap();
let res: ResponseResult = controller_data
.get_response()
.clone()
.set_data("Async".into())
.send(&stream);
controller_data.get_log().debug(
format!("Response => {:?}\n", String::from_utf8_lossy(&res.unwrap())),
common_log,
);
}
async fn run_server() {
let mut server: Server = Server::new();
server.host("0.0.0.0");
server.port(60000);
server.thread_pool_size(10);
server.log_dir("./logs");
server.log_size(1_024_000);
server.buffer(1_024_000);
server.log_interval_millis(360);
server.middleware(sync_middleware);
server.async_middleware(async_middleware).await;
server.func(sync_func);
server.async_func(async_func).await;
let test_string: String = "test".to_owned();
server
.async_func(async_func!(test_string, |data| {
println(&test_string);
println(&format!("{:?}", data));
}))
.await;
server.listen();
}
let run_test = || {
let mut _request_builder = RequestBuilder::new()
.host("127.0.0.1")
.port(60000)
.data("hello world")
.timeout(10000)
.buffer(4096)
.build();
_request_builder
.send()
.and_then(|response| {
println!("{:?}", response.text());
Ok(response.binary())
})
.unwrap_or_default();
};
async_recoverable_spawn(run_server);
std::thread::sleep(std::time::Duration::from_secs(2));
recoverable_spawn(run_test);
std::thread::sleep(std::time::Duration::from_secs(4));
}