## hyperlane [![](https://img.shields.io/crates/v/hyperlane.svg)](https://crates.io/crates/hyperlane) [![](https://docs.rs/hyperlane/badge.svg)](https://docs.rs/hyperlane) [![](https://img.shields.io/crates/l/hyperlane.svg)](./LICENSE) [![](https://github.com/ltpp-universe/hyperlane/workflows/Rust/badge.svg)](https://github.com/ltpp-universe/hyperlane/actions?query=workflow:Rust) [Official Documentation](https://docs.ltpp.vip/HYPERLANE/) [Api Docs](https://docs.rs/hyperlane/latest/hyperlane/) > hyperlane is a lightweight and high-performance Rust HTTP server library designed to simplify network service development. It supports HTTP request parsing, response building, TCP communication, and redirection features, making it ideal for building modern web services. ## Installation To use this crate, you can run cmd: ```shell cargo add hyperlane ``` ## Use ```rust use hyperlane::*; 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 send_request() -> Vec { let mut header: HashMap<&str, &str> = HashMap::new(); header.insert(ACCEPT, ACCEPT_ANY); header.insert(CONTENT_TYPE, APPLICATION_JSON); header.insert(ACCEPT_ENCODING, ACCEPT_ENCODING_GZIP); let mut body: HashMap<&str, &str> = HashMap::new(); body.insert("code", "fn main() {\r\n println!(\"hello world\");\r\n}"); body.insert("language", "rust"); body.insert("testin", ""); let mut _request_builder = RequestBuilder::new() .post("https://code.ltpp.vip/") .json(body) .headers(header) .timeout(10000) .redirect() .buffer(4096) .max_redirect_times(8) .http1_1_only() .build(); _request_builder .send() .and_then(|response| Ok(response.binary().get_body())) .unwrap_or_default() } fn panic_route(_controller_data: &mut ControllerData) { panic!("test panic"); } fn run_server() { let mut server: Server = Server::new(); server.host("0.0.0.0"); server.port(80); server.thread_pool_size(10); server.log_dir("./logs"); server.log_size(1_024_000); server.middleware(|controller_data| { 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().log_debug( format!("Request host => {}\n{:#?}", host, request), common_log, ); controller_data .get_mut_request() .set_header("middleware", "crate"); }); server.router("/", |controller_data| { controller_data .get_log() .log_info("visit path /", common_log); let mut response: Response = controller_data.get_response().clone(); let body: Vec = "404 Not Found".as_bytes().to_vec(); let stream: ArcTcpStream = controller_data.get_stream().clone().unwrap(); let res: ResponseResult = response .set_body(body) .set_status_code(404) .set_header("server", "hyperlane") .send(&stream); controller_data.get_log().log_info( format!("Response => {:?}", String::from_utf8_lossy(&res.unwrap())), common_log, ); }); server.router("/request", |controller_data| { controller_data .get_log() .log_info("visit path /request", common_log); let mut response: Response = controller_data.get_response().clone(); let body: Vec = send_request(); let stream: ArcTcpStream = controller_data.get_stream().clone().unwrap(); let res: ResponseResult = response .set_body(body) .set_status_code(200) .set_header("server", "hyperlane") .set_header(CONTENT_TYPE, APPLICATION_JSON) .send(&stream); controller_data.get_log().log_info( format!("Response => {:?}", String::from_utf8_lossy(&res.unwrap())), common_log, ); }); server.router("/hello", |controller_data| { controller_data .get_log() .log_info("visit path /hello", common_log); let mut response: Response = controller_data.get_response().clone(); let body: Vec = "hello world!".as_bytes().to_vec(); let stream: ArcTcpStream = controller_data.get_stream().clone().unwrap(); let res: ResponseResult = response .set_body(body) .set_status_code(200) .set_header("server", "hyperlane") .send(&stream); controller_data.get_log().log_info( format!("Response => {:?}", String::from_utf8_lossy(&res.unwrap())), common_log, ); }); server.router("/panic", panic_route); server.listen(); } fn main() { run_server(); } ``` ## License This project is licensed under the MIT License. See the [LICENSE](LICENSE) file for details. ## Contributing Contributions are welcome! Please open an issue or submit a pull request. ## Contact For any inquiries, please reach out to the author at [ltpp-universe ](mailto:root@ltpp.vip).