use std::cell::RefCell; use std::marker::PhantomData; use std::rc::Rc; use actix_http::{Extensions, Request, Response}; use actix_router::{Path, ResourceDef, ResourceInfo, Router, Url}; use actix_server_config::ServerConfig; use actix_service::boxed::{self, BoxedNewService, BoxedService}; use actix_service::{service_fn, NewService, Service}; use futures::future::{ok, Either, FutureResult}; use futures::{Async, Future, Poll}; use crate::config::{AppConfig, AppService}; use crate::data::DataFactory; use crate::error::Error; use crate::guard::Guard; use crate::request::{HttpRequest, HttpRequestPool}; use crate::rmap::ResourceMap; use crate::service::{ServiceFactory, ServiceRequest, ServiceResponse}; type Guards = Vec>; type HttpService = BoxedService; type HttpNewService = BoxedNewService<(), ServiceRequest, ServiceResponse, Error, ()>; type BoxedResponse = Either< FutureResult, Box>, >; /// Service factory to convert `Request` to a `ServiceRequest`. /// It also executes data factories. pub struct AppInit where T: NewService< Config = (), Request = ServiceRequest, Response = ServiceResponse, Error = Error, InitError = (), >, { pub(crate) endpoint: T, pub(crate) data: Rc>>, pub(crate) config: RefCell, pub(crate) services: Rc>>>, pub(crate) default: Option>, pub(crate) factory_ref: Rc>>, pub(crate) external: RefCell>, } impl NewService for AppInit where T: NewService< Config = (), Request = ServiceRequest, Response = ServiceResponse, Error = Error, InitError = (), >, { type Config = ServerConfig; type Request = Request; type Response = ServiceResponse; type Error = T::Error; type InitError = T::InitError; type Service = AppInitService; type Future = AppInitResult; fn new_service(&self, cfg: &ServerConfig) -> Self::Future { // update resource default service let default = self.default.clone().unwrap_or_else(|| { Rc::new(boxed::new_service(service_fn(|req: ServiceRequest| { Ok(req.into_response(Response::NotFound().finish())) }))) }); // App config { let mut c = self.config.borrow_mut(); let loc_cfg = Rc::get_mut(&mut c.0).unwrap(); loc_cfg.secure = cfg.secure(); loc_cfg.addr = cfg.local_addr(); } let mut config = AppService::new( self.config.borrow().clone(), default.clone(), self.data.clone(), ); // register services std::mem::replace(&mut *self.services.borrow_mut(), Vec::new()) .into_iter() .for_each(|mut srv| srv.register(&mut config)); let mut rmap = ResourceMap::new(ResourceDef::new("")); let (config, services) = config.into_services(); // complete pipeline creation *self.factory_ref.borrow_mut() = Some(AppRoutingFactory { default, services: Rc::new( services .into_iter() .map(|(mut rdef, srv, guards, nested)| { rmap.add(&mut rdef, nested); (rdef, srv, RefCell::new(guards)) }) .collect(), ), }); // external resources for mut rdef in std::mem::replace(&mut *self.external.borrow_mut(), Vec::new()) { rmap.add(&mut rdef, None); } // complete ResourceMap tree creation let rmap = Rc::new(rmap); rmap.finish(rmap.clone()); // create app data container let mut data = Extensions::new(); for f in self.data.iter() { f.create(&mut data); } AppInitResult { endpoint: None, endpoint_fut: self.endpoint.new_service(&()), data: Rc::new(data), config, rmap, _t: PhantomData, } } } pub struct AppInitResult where T: NewService, { endpoint: Option, endpoint_fut: T::Future, rmap: Rc, config: AppConfig, data: Rc, _t: PhantomData, } impl Future for AppInitResult where T: NewService< Config = (), Request = ServiceRequest, Response = ServiceResponse, Error = Error, InitError = (), >, { type Item = AppInitService; type Error = T::InitError; fn poll(&mut self) -> Poll { if self.endpoint.is_none() { if let Async::Ready(srv) = self.endpoint_fut.poll()? { self.endpoint = Some(srv); } } if self.endpoint.is_some() { Ok(Async::Ready(AppInitService { service: self.endpoint.take().unwrap(), rmap: self.rmap.clone(), config: self.config.clone(), data: self.data.clone(), pool: HttpRequestPool::create(), })) } else { Ok(Async::NotReady) } } } /// Service to convert `Request` to a `ServiceRequest` pub struct AppInitService where T: Service, Error = Error>, { service: T, rmap: Rc, config: AppConfig, data: Rc, pool: &'static HttpRequestPool, } impl Service for AppInitService where T: Service, Error = Error>, { type Request = Request; type Response = ServiceResponse; type Error = T::Error; type Future = T::Future; fn poll_ready(&mut self) -> Poll<(), Self::Error> { self.service.poll_ready() } fn call(&mut self, req: Request) -> Self::Future { let (head, payload) = req.into_parts(); let req = if let Some(mut req) = self.pool.get_request() { let inner = Rc::get_mut(&mut req.0).unwrap(); inner.path.get_mut().update(&head.uri); inner.path.reset(); inner.head = head; inner.app_data = self.data.clone(); req } else { HttpRequest::new( Path::new(Url::new(head.uri.clone())), head, self.rmap.clone(), self.config.clone(), self.data.clone(), self.pool, ) }; self.service.call(ServiceRequest::from_parts(req, payload)) } } impl Drop for AppInitService where T: Service, Error = Error>, { fn drop(&mut self) { self.pool.clear(); println!("DROP: APP-INIT-ENTRY"); } } pub struct AppRoutingFactory { services: Rc>)>>, default: Rc, } impl NewService for AppRoutingFactory { type Config = (); type Request = ServiceRequest; type Response = ServiceResponse; type Error = Error; type InitError = (); type Service = AppRouting; type Future = AppRoutingFactoryResponse; fn new_service(&self, _: &()) -> Self::Future { AppRoutingFactoryResponse { fut: self .services .iter() .map(|(path, service, guards)| { CreateAppRoutingItem::Future( Some(path.clone()), guards.borrow_mut().take(), service.new_service(&()), ) }) .collect(), default: None, default_fut: Some(self.default.new_service(&())), } } } type HttpServiceFut = Box>; /// Create app service #[doc(hidden)] pub struct AppRoutingFactoryResponse { fut: Vec, default: Option, default_fut: Option>>, } enum CreateAppRoutingItem { Future(Option, Option, HttpServiceFut), Service(ResourceDef, Option, HttpService), } impl Future for AppRoutingFactoryResponse { type Item = AppRouting; type Error = (); fn poll(&mut self) -> Poll { let mut done = true; if let Some(ref mut fut) = self.default_fut { match fut.poll()? { Async::Ready(default) => self.default = Some(default), Async::NotReady => done = false, } } // poll http services for item in &mut self.fut { let res = match item { CreateAppRoutingItem::Future( ref mut path, ref mut guards, ref mut fut, ) => match fut.poll()? { Async::Ready(service) => { Some((path.take().unwrap(), guards.take(), service)) } Async::NotReady => { done = false; None } }, CreateAppRoutingItem::Service(_, _, _) => continue, }; if let Some((path, guards, service)) = res { *item = CreateAppRoutingItem::Service(path, guards, service); } } if done { let router = self .fut .drain(..) .fold(Router::build(), |mut router, item| { match item { CreateAppRoutingItem::Service(path, guards, service) => { router.rdef(path, service).2 = guards; } CreateAppRoutingItem::Future(_, _, _) => unreachable!(), } router }); Ok(Async::Ready(AppRouting { ready: None, router: router.finish(), default: self.default.take(), })) } else { Ok(Async::NotReady) } } } pub struct AppRouting { router: Router, ready: Option<(ServiceRequest, ResourceInfo)>, default: Option, } impl Service for AppRouting { type Request = ServiceRequest; type Response = ServiceResponse; type Error = Error; type Future = BoxedResponse; fn poll_ready(&mut self) -> Poll<(), Self::Error> { if self.ready.is_none() { Ok(Async::Ready(())) } else { Ok(Async::NotReady) } } fn call(&mut self, mut req: ServiceRequest) -> Self::Future { let res = self.router.recognize_mut_checked(&mut req, |req, guards| { if let Some(ref guards) = guards { for f in guards { if !f.check(req.head()) { return false; } } } true }); if let Some((srv, _info)) = res { srv.call(req) } else if let Some(ref mut default) = self.default { default.call(req) } else { let req = req.into_parts().0; Either::A(ok(ServiceResponse::new(req, Response::NotFound().finish()))) } } } /// Wrapper service for routing pub struct AppEntry { factory: Rc>>, } impl AppEntry { pub fn new(factory: Rc>>) -> Self { AppEntry { factory } } } impl NewService for AppEntry { type Config = (); type Request = ServiceRequest; type Response = ServiceResponse; type Error = Error; type InitError = (); type Service = AppRouting; type Future = AppRoutingFactoryResponse; fn new_service(&self, _: &()) -> Self::Future { self.factory.borrow_mut().as_mut().unwrap().new_service(&()) } } #[cfg(test)] mod tests { use actix_service::Service; use std::sync::{ atomic::{AtomicBool, Ordering}, Arc, }; use crate::{test, web, App, HttpResponse}; struct DropData(Arc); impl Drop for DropData { fn drop(&mut self) { self.0.store(true, Ordering::Relaxed); println!("Dropping!"); } } #[test] fn drop_data() { let data = Arc::new(AtomicBool::new(false)); { let mut app = test::init_service( App::new() .data(DropData(data.clone())) .service(web::resource("/test").to(|| HttpResponse::Ok())), ); let req = test::TestRequest::with_uri("/test").to_request(); let resp = test::block_on(app.call(req)).unwrap(); } assert!(data.load(Ordering::Relaxed)); } }