use std::io; use std::rc::Rc; use std::marker::PhantomData; use actix::Actor; use http::{header, Version}; use futures::Stream; use task::Task; use body::BinaryBody; use context::HttpContext; use resource::Reply; use payload::Payload; use httprequest::HttpRequest; use httpresponse::HttpResponse; use httpcodes::HTTPExpectationFailed; #[doc(hidden)] #[derive(Debug)] #[cfg_attr(feature="cargo-clippy", allow(large_enum_variant))] pub enum Frame { Message(HttpResponse), Payload(Option), } /// Trait defines object that could be regestered as resource route #[allow(unused_variables)] pub trait RouteHandler: 'static { /// Handle request fn handle(&self, req: &mut HttpRequest, payload: Payload, state: Rc) -> Task; /// Set route prefix fn set_prefix(&mut self, prefix: String) {} } /// Request handling result. pub type RouteResult = Result, HttpResponse>; /// Actors with ability to handle http requests. #[allow(unused_variables)] pub trait Route: Actor { /// Shared state. State is shared with all routes within same application /// and could be accessed with `HttpContext::state()` method. type State; /// Handle `EXPECT` header. By default respones with `HTTP/1.1 100 Continue` fn expect(req: &HttpRequest, ctx: &mut Self::Context) -> Result<(), HttpResponse> where Self: Actor> { // handle expect header only for HTTP/1.1 if req.version() == Version::HTTP_11 { if let Some(expect) = req.headers().get(header::EXPECT) { if let Ok(expect) = expect.to_str() { if expect.to_lowercase() == "100-continue" { ctx.write("HTTP/1.1 100 Continue\r\n\r\n"); Ok(()) } else { Err(HTTPExpectationFailed.with_body("Unknown Expect")) } } else { Err(HTTPExpectationFailed.with_body("Unknown Expect")) } } else { Ok(()) } } else { Ok(()) } } /// Handle incoming request. Route actor can return /// result immediately with `Reply::reply`. /// Actor itself can be returned with `Reply::stream` for handling streaming /// request/response or websocket connection. /// In that case `HttpContext::start` and `HttpContext::write` has to be used /// for writing response. fn request(req: &mut HttpRequest, payload: Payload, ctx: &mut Self::Context) -> RouteResult; /// This method creates `RouteFactory` for this actor. fn factory() -> RouteFactory { RouteFactory(PhantomData) } } /// This is used for routes registration within `Resource` pub struct RouteFactory, S>(PhantomData); impl RouteHandler for RouteFactory where A: Actor> + Route, S: 'static { fn handle(&self, req: &mut HttpRequest, payload: Payload, state: Rc) -> Task { let mut ctx = HttpContext::new(state); // handle EXPECT header if req.headers().contains_key(header::EXPECT) { if let Err(resp) = A::expect(req, &mut ctx) { return Task::reply(resp) } } match A::request(req, payload, &mut ctx) { Ok(reply) => reply.into(ctx), Err(err) => Task::reply(err), } } } /// Fn() route handler pub(crate) struct FnHandler where F: Fn(&mut HttpRequest, Payload, &S) -> R + 'static, R: Into, S: 'static, { f: Box, s: PhantomData, } impl FnHandler where F: Fn(&mut HttpRequest, Payload, &S) -> R + 'static, R: Into + 'static, S: 'static, { pub fn new(f: F) -> Self { FnHandler{f: Box::new(f), s: PhantomData} } } impl RouteHandler for FnHandler where F: Fn(&mut HttpRequest, Payload, &S) -> R + 'static, R: Into + 'static, S: 'static, { fn handle(&self, req: &mut HttpRequest, payload: Payload, state: Rc) -> Task { Task::reply((self.f)(req, payload, &state).into()) } } /// Async route handler pub(crate) struct StreamHandler where F: Fn(&mut HttpRequest, Payload, &S) -> R + 'static, R: Stream + 'static, S: 'static, { f: Box, s: PhantomData, } impl StreamHandler where F: Fn(&mut HttpRequest, Payload, &S) -> R + 'static, R: Stream + 'static, S: 'static, { pub fn new(f: F) -> Self { StreamHandler{f: Box::new(f), s: PhantomData} } } impl RouteHandler for StreamHandler where F: Fn(&mut HttpRequest, Payload, &S) -> R + 'static, R: Stream + 'static, S: 'static, { fn handle(&self, req: &mut HttpRequest, payload: Payload, state: Rc) -> Task { Task::with_stream( (self.f)(req, payload, &state).map_err( |_| io::Error::new(io::ErrorKind::Other, "")) ) } }