kit_rs/
server.rs

1use crate::cache::Cache;
2use crate::config::{Config, ServerConfig};
3use crate::container::App;
4use crate::http::{HttpResponse, Request};
5use crate::inertia::InertiaContext;
6use crate::middleware::{Middleware, MiddlewareChain, MiddlewareRegistry};
7use crate::routing::Router;
8use bytes::Bytes;
9use http_body_util::Full;
10use hyper::server::conn::http1;
11use hyper::service::service_fn;
12use hyper_util::rt::TokioIo;
13use std::convert::Infallible;
14use std::net::SocketAddr;
15use std::sync::Arc;
16use tokio::net::TcpListener;
17
18pub struct Server {
19    router: Arc<Router>,
20    middleware: MiddlewareRegistry,
21    host: String,
22    port: u16,
23}
24
25impl Server {
26    pub fn new(router: impl Into<Router>) -> Self {
27        Self {
28            router: Arc::new(router.into()),
29            middleware: MiddlewareRegistry::new(),
30            host: "127.0.0.1".to_string(),
31            port: 8000,
32        }
33    }
34
35    pub fn from_config(router: impl Into<Router>) -> Self {
36        // Initialize the App container
37        App::init();
38
39        // Boot all auto-registered services from #[service(ConcreteType)]
40        App::boot_services();
41
42        let config = Config::get::<ServerConfig>().unwrap_or_else(ServerConfig::from_env);
43        Self {
44            router: Arc::new(router.into()),
45            // Pull global middleware registered via global_middleware! in bootstrap.rs
46            middleware: MiddlewareRegistry::from_global(),
47            host: config.host,
48            port: config.port,
49        }
50    }
51
52    /// Add global middleware (runs on every request)
53    ///
54    /// For route-specific middleware, use `.middleware(M)` on the route itself.
55    ///
56    /// # Example
57    ///
58    /// ```rust,ignore
59    /// Server::from_config(router)
60    ///     .middleware(LoggingMiddleware)  // Global
61    ///     .middleware(CorsMiddleware)     // Global
62    ///     .run()
63    ///     .await;
64    /// ```
65    pub fn middleware<M: Middleware + 'static>(mut self, middleware: M) -> Self {
66        self.middleware = self.middleware.append(middleware);
67        self
68    }
69
70    pub fn host(mut self, host: &str) -> Self {
71        self.host = host.to_string();
72        self
73    }
74
75    pub fn port(mut self, port: u16) -> Self {
76        self.port = port;
77        self
78    }
79
80    fn get_addr(&self) -> SocketAddr {
81        SocketAddr::new(self.host.parse().unwrap(), self.port)
82    }
83
84    pub async fn run(self) -> Result<(), Box<dyn std::error::Error + Send + Sync>> {
85        // Bootstrap cache (Redis with in-memory fallback)
86        Cache::bootstrap().await;
87
88        let addr: SocketAddr = self.get_addr();
89        let listener = TcpListener::bind(addr).await?;
90
91        println!("Kit server running on http://{}", addr);
92
93        let router = self.router;
94        let middleware = Arc::new(self.middleware);
95
96        loop {
97            let (stream, _) = listener.accept().await?;
98            let io = TokioIo::new(stream);
99            let router = router.clone();
100            let middleware = middleware.clone();
101
102            tokio::spawn(async move {
103                let service = service_fn(move |req: hyper::Request<hyper::body::Incoming>| {
104                    let router = router.clone();
105                    let middleware = middleware.clone();
106                    async move { Ok::<_, Infallible>(handle_request(router, middleware, req).await) }
107                });
108
109                if let Err(err) = http1::Builder::new().serve_connection(io, service).await {
110                    eprintln!("Error serving connection: {:?}", err);
111                }
112            });
113        }
114    }
115}
116
117async fn handle_request(
118    router: Arc<Router>,
119    middleware_registry: Arc<MiddlewareRegistry>,
120    req: hyper::Request<hyper::body::Incoming>,
121) -> hyper::Response<Full<Bytes>> {
122    let method = req.method().clone();
123    let path = req.uri().path().to_string();
124
125    // Set up Inertia context from request headers
126    let is_inertia = req
127        .headers()
128        .get("X-Inertia")
129        .and_then(|v| v.to_str().ok())
130        .map(|v| v == "true")
131        .unwrap_or(false);
132
133    let inertia_version = req
134        .headers()
135        .get("X-Inertia-Version")
136        .and_then(|v| v.to_str().ok())
137        .map(|v| v.to_string());
138
139    InertiaContext::set(InertiaContext {
140        path: path.clone(),
141        is_inertia,
142        version: inertia_version,
143    });
144
145    let response = match router.match_route(&method, &path) {
146        Some((handler, params)) => {
147            let request = Request::new(req).with_params(params);
148
149            // Build middleware chain
150            let mut chain = MiddlewareChain::new();
151
152            // 1. Add global middleware
153            chain.extend(middleware_registry.global_middleware().iter().cloned());
154
155            // 2. Add route-level middleware (already boxed)
156            let route_middleware = router.get_route_middleware(&path);
157            chain.extend(route_middleware);
158
159            // 3. Execute chain with handler
160            let response = chain.execute(request, handler).await;
161
162            // Unwrap the Result - both Ok and Err contain HttpResponse
163            let http_response = response.unwrap_or_else(|e| e);
164            http_response.into_hyper()
165        }
166        None => {
167            // Check for fallback handler
168            if let Some((fallback_handler, fallback_middleware)) = router.get_fallback() {
169                let request = Request::new(req).with_params(std::collections::HashMap::new());
170
171                // Build middleware chain for fallback
172                let mut chain = MiddlewareChain::new();
173
174                // 1. Add global middleware
175                chain.extend(middleware_registry.global_middleware().iter().cloned());
176
177                // 2. Add fallback-specific middleware
178                chain.extend(fallback_middleware);
179
180                // 3. Execute chain with fallback handler
181                let response = chain.execute(request, fallback_handler).await;
182
183                // Unwrap the Result - both Ok and Err contain HttpResponse
184                let http_response = response.unwrap_or_else(|e| e);
185                http_response.into_hyper()
186            } else {
187                // No fallback defined, return default 404
188                HttpResponse::text("404 Not Found").status(404).into_hyper()
189            }
190        }
191    };
192
193    // Clear context after request
194    InertiaContext::clear();
195
196    response
197}