use std::cell::{Ref, RefMut}; use std::rc::Rc; use std::{fmt, net}; use actix_http::body::{Body, MessageBody, ResponseBody}; use actix_http::http::{HeaderMap, Method, StatusCode, Uri, Version}; use actix_http::{ Error, Extensions, HttpMessage, Payload, PayloadStream, RequestHead, Response, ResponseHead, }; use actix_router::{Path, Resource, ResourceDef, Url}; use actix_service::{IntoNewService, NewService}; use futures::future::{ok, FutureResult, IntoFuture}; use crate::config::{AppConfig, AppService}; use crate::data::Data; use crate::dev::insert_slash; use crate::guard::Guard; use crate::info::ConnectionInfo; use crate::request::HttpRequest; pub trait HttpServiceFactory { fn register(self, config: &mut AppService); } pub(crate) trait ServiceFactory { fn register(&mut self, config: &mut AppService); } pub(crate) struct ServiceFactoryWrapper { factory: Option, } impl ServiceFactoryWrapper { pub fn new(factory: T) -> Self { Self { factory: Some(factory), } } } impl ServiceFactory for ServiceFactoryWrapper where T: HttpServiceFactory, { fn register(&mut self, config: &mut AppService) { if let Some(item) = self.factory.take() { item.register(config) } } } pub struct ServiceRequest { req: HttpRequest, payload: Payload, } impl ServiceRequest { /// Construct service request from parts pub(crate) fn from_parts(req: HttpRequest, payload: Payload) -> Self { ServiceRequest { req, payload } } /// Deconstruct request into parts pub fn into_parts(self) -> (HttpRequest, Payload) { (self.req, self.payload) } /// Create service response #[inline] pub fn into_response>>(self, res: R) -> ServiceResponse { ServiceResponse::new(self.req, res.into()) } /// Create service response for error #[inline] pub fn error_response>(self, err: E) -> ServiceResponse { let res: Response = err.into().into(); ServiceResponse::new(self.req, res.into_body()) } /// This method returns reference to the request head #[inline] pub fn head(&self) -> &RequestHead { &self.req.head() } /// This method returns reference to the request head #[inline] pub fn head_mut(&mut self) -> &mut RequestHead { self.req.head_mut() } /// Request's uri. #[inline] pub fn uri(&self) -> &Uri { &self.head().uri } /// Read the Request method. #[inline] pub fn method(&self) -> &Method { &self.head().method } /// Read the Request Version. #[inline] pub fn version(&self) -> Version { self.head().version } #[inline] /// Returns request's headers. pub fn headers(&self) -> &HeaderMap { &self.head().headers } #[inline] /// Returns mutable request's headers. pub fn headers_mut(&mut self) -> &mut HeaderMap { &mut self.head_mut().headers } /// The target path of this Request. #[inline] pub fn path(&self) -> &str { self.head().uri.path() } /// The query string in the URL. /// /// E.g., id=10 #[inline] pub fn query_string(&self) -> &str { if let Some(query) = self.uri().query().as_ref() { query } else { "" } } /// Peer socket address /// /// Peer address is actual socket address, if proxy is used in front of /// actix http server, then peer address would be address of this proxy. /// /// To get client connection information `ConnectionInfo` should be used. #[inline] pub fn peer_addr(&self) -> Option { self.head().peer_addr } /// Get *ConnectionInfo* for the current request. #[inline] pub fn connection_info(&self) -> Ref { ConnectionInfo::get(self.head(), &*self.app_config()) } /// Get a reference to the Path parameters. /// /// Params is a container for url parameters. /// A variable segment is specified in the form `{identifier}`, /// where the identifier can be used later in a request handler to /// access the matched value for that segment. #[inline] pub fn match_info(&self) -> &Path { self.req.match_info() } #[inline] pub fn match_info_mut(&mut self) -> &mut Path { self.req.match_info_mut() } /// Service configuration #[inline] pub fn app_config(&self) -> &AppConfig { self.req.app_config() } /// Get an application data stored with `App::data()` method during /// application configuration. pub fn app_data(&self) -> Option> { if let Some(st) = self.req.0.app_data.get::>() { Some(st.clone()) } else { None } } #[doc(hidden)] /// Set new app data container pub fn set_data_container(&mut self, extensions: Rc) { Rc::get_mut(&mut self.req.0).unwrap().app_data = extensions; } } impl Resource for ServiceRequest { fn resource_path(&mut self) -> &mut Path { self.match_info_mut() } } impl HttpMessage for ServiceRequest { type Stream = PayloadStream; #[inline] /// Returns Request's headers. fn headers(&self) -> &HeaderMap { &self.head().headers } /// Request extensions #[inline] fn extensions(&self) -> Ref { self.req.extensions() } /// Mutable reference to a the request's extensions #[inline] fn extensions_mut(&self) -> RefMut { self.req.extensions_mut() } #[inline] fn take_payload(&mut self) -> Payload { std::mem::replace(&mut self.payload, Payload::None) } } impl fmt::Debug for ServiceRequest { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { writeln!( f, "\nServiceRequest {:?} {}:{}", self.head().version, self.head().method, self.path() )?; if !self.query_string().is_empty() { writeln!(f, " query: ?{:?}", self.query_string())?; } if !self.match_info().is_empty() { writeln!(f, " params: {:?}", self.match_info())?; } writeln!(f, " headers:")?; for (key, val) in self.headers().iter() { writeln!(f, " {:?}: {:?}", key, val)?; } Ok(()) } } pub struct ServiceResponse { request: HttpRequest, response: Response, } impl ServiceResponse { /// Create service response instance pub fn new(request: HttpRequest, response: Response) -> Self { ServiceResponse { request, response } } /// Create service response from the error pub fn from_err>(err: E, request: HttpRequest) -> Self { let e: Error = err.into(); let res: Response = e.into(); ServiceResponse { request, response: res.into_body(), } } /// Create service response for error #[inline] pub fn error_response>(self, err: E) -> Self { Self::from_err(err, self.request) } /// Create service response #[inline] pub fn into_response(self, response: Response) -> ServiceResponse { ServiceResponse::new(self.request, response) } /// Get reference to original request #[inline] pub fn request(&self) -> &HttpRequest { &self.request } /// Get reference to response #[inline] pub fn response(&self) -> &Response { &self.response } /// Get mutable reference to response #[inline] pub fn response_mut(&mut self) -> &mut Response { &mut self.response } /// Get the response status code #[inline] pub fn status(&self) -> StatusCode { self.response.status() } #[inline] /// Returns response's headers. pub fn headers(&self) -> &HeaderMap { self.response.headers() } #[inline] /// Returns mutable response's headers. pub fn headers_mut(&mut self) -> &mut HeaderMap { self.response.headers_mut() } /// Execute closure and in case of error convert it to response. pub fn checked_expr(mut self, f: F) -> Self where F: FnOnce(&mut Self) -> Result<(), E>, E: Into, { match f(&mut self) { Ok(_) => self, Err(err) => { let res: Response = err.into().into(); ServiceResponse::new(self.request, res.into_body()) } } } /// Extract response body pub fn take_body(&mut self) -> ResponseBody { self.response.take_body() } } impl ServiceResponse { /// Set a new body pub fn map_body(self, f: F) -> ServiceResponse where F: FnOnce(&mut ResponseHead, ResponseBody) -> ResponseBody, { let response = self.response.map_body(f); ServiceResponse { response, request: self.request, } } } impl Into> for ServiceResponse { fn into(self) -> Response { self.response } } impl IntoFuture for ServiceResponse { type Item = ServiceResponse; type Error = Error; type Future = FutureResult, Error>; fn into_future(self) -> Self::Future { ok(self) } } impl fmt::Debug for ServiceResponse { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let res = writeln!( f, "\nServiceResponse {:?} {}{}", self.response.head().version, self.response.head().status, self.response.head().reason.unwrap_or(""), ); let _ = writeln!(f, " headers:"); for (key, val) in self.response.head().headers.iter() { let _ = writeln!(f, " {:?}: {:?}", key, val); } let _ = writeln!(f, " body: {:?}", self.response.body().size()); res } } pub struct WebService { rdef: String, name: Option, guards: Vec>, } impl WebService { /// Create new `WebService` instance. pub fn new(path: &str) -> Self { WebService { rdef: path.to_string(), name: None, guards: Vec::new(), } } /// Set service name. /// /// Name is used for url generation. pub fn name(mut self, name: &str) -> Self { self.name = Some(name.to_string()); self } /// Add match guard to a web service. /// /// ```rust /// use actix_web::{web, guard, dev, App, HttpResponse}; /// /// fn index(req: dev::ServiceRequest) -> dev::ServiceResponse { /// req.into_response(HttpResponse::Ok().finish()) /// } /// /// fn main() { /// let app = App::new() /// .service( /// web::service("/app") /// .guard(guard::Header("content-type", "text/plain")) /// .finish(index) /// ); /// } /// ``` pub fn guard(mut self, guard: G) -> Self { self.guards.push(Box::new(guard)); self } /// Set a service factory implementation and generate web service. pub fn finish(self, service: F) -> impl HttpServiceFactory where F: IntoNewService, T: NewService< Config = (), Request = ServiceRequest, Response = ServiceResponse, Error = Error, InitError = (), > + 'static, { WebServiceImpl { srv: service.into_new_service(), rdef: self.rdef, name: self.name, guards: self.guards, } } } struct WebServiceImpl { srv: T, rdef: String, name: Option, guards: Vec>, } impl HttpServiceFactory for WebServiceImpl where T: NewService< Config = (), Request = ServiceRequest, Response = ServiceResponse, Error = Error, InitError = (), > + 'static, { fn register(mut self, config: &mut AppService) { let guards = if self.guards.is_empty() { None } else { Some(std::mem::replace(&mut self.guards, Vec::new())) }; let mut rdef = if config.is_root() || !self.rdef.is_empty() { ResourceDef::new(&insert_slash(&self.rdef)) } else { ResourceDef::new(&self.rdef) }; if let Some(ref name) = self.name { *rdef.name_mut() = name.clone(); } config.register_service(rdef, guards, self.srv, None) } } #[cfg(test)] mod tests { use super::*; use crate::test::{call_service, init_service, TestRequest}; use crate::{guard, http, web, App, HttpResponse}; #[test] fn test_service() { let mut srv = init_service( App::new().service(web::service("/test").name("test").finish( |req: ServiceRequest| req.into_response(HttpResponse::Ok().finish()), )), ); let req = TestRequest::with_uri("/test").to_request(); let resp = call_service(&mut srv, req); assert_eq!(resp.status(), http::StatusCode::OK); let mut srv = init_service( App::new().service(web::service("/test").guard(guard::Get()).finish( |req: ServiceRequest| req.into_response(HttpResponse::Ok().finish()), )), ); let req = TestRequest::with_uri("/test") .method(http::Method::PUT) .to_request(); let resp = call_service(&mut srv, req); assert_eq!(resp.status(), http::StatusCode::NOT_FOUND); } #[test] fn test_fmt_debug() { let req = TestRequest::get() .uri("/index.html?test=1") .header("x-test", "111") .to_srv_request(); let s = format!("{:?}", req); assert!(s.contains("ServiceRequest")); assert!(s.contains("test=1")); assert!(s.contains("x-test")); let res = HttpResponse::Ok().header("x-test", "111").finish(); let res = TestRequest::post() .uri("/index.html?test=1") .to_srv_response(res); let s = format!("{:?}", res); assert!(s.contains("ServiceResponse")); assert!(s.contains("x-test")); } }