use std::fs::File; use std::io::Cursor; use std::sync::Arc; use crate::http::{Status, ContentType, StatusClass}; use crate::response::{self, Response}; use crate::request::Request; /// Trait implemented by types that generate responses for clients. /// /// Any type that implements `Responder` can be used as the return type of a /// handler: /// /// ```rust /// # #[macro_use] extern crate rocket; /// # type T = (); /// # /// // This works for any `T` that implements `Responder`. /// #[get("/")] /// fn index() -> T { /* ... */ } /// ``` /// /// # Deriving /// /// This trait can, and largely _should_, be automatically derived. The derive /// can handle all simple cases and most complex cases, too. When deriving /// `Responder`, the first field of the annotated structure (or of each variant /// if an `enum`) is used to generate a response while the remaining fields are /// used as response headers: /// /// ```rust /// # #[macro_use] extern crate rocket; /// # #[cfg(feature = "json")] mod _main { /// # type Template = String; /// use rocket::http::ContentType; /// use rocket::serde::{Serialize, json::Json}; /// /// #[derive(Responder)] /// enum Error { /// #[response(status = 400)] /// Unauthorized(Json), /// #[response(status = 404)] /// NotFound(Template, ContentType), /// } /// # } /// ``` /// /// For full details on deriving `Responder`, see the [`Responder` derive]. /// /// [`Responder` derive]: derive@crate::Responder /// /// # Provided Implementations /// /// Rocket implements `Responder` for several standard library types. Their /// behavior is documented here. Note that the `Result` implementation is /// overloaded, allowing for two `Responder`s to be used at once, depending on /// the variant. /// /// * **&str** /// /// Sets the `Content-Type` to `text/plain`. The string is used as the body /// of the response, which is fixed size and not streamed. To stream a raw /// string, use `Stream::from(Cursor::new(string))`. /// /// * **String** /// /// Sets the `Content-Type` to `text/plain`. The string is used as the body /// of the response, which is fixed size and not streamed. To stream a /// string, use `Stream::from(Cursor::new(string))`. /// /// * **&\[u8\]** /// /// Sets the `Content-Type` to `application/octet-stream`. The slice /// is used as the body of the response, which is fixed size and not /// streamed. To stream a slice of bytes, use /// `Stream::from(Cursor::new(data))`. /// /// * **Vec<u8>** /// /// Sets the `Content-Type` to `application/octet-stream`. The vector's data /// is used as the body of the response, which is fixed size and not /// streamed. To stream a vector of bytes, use /// `Stream::from(Cursor::new(vec))`. /// /// * **File** /// /// Responds with a streamed body containing the data in the `File`. No /// `Content-Type` is set. To automatically have a `Content-Type` set based /// on the file's extension, use [`NamedFile`](crate::fs::NamedFile). /// /// * **()** /// /// Responds with an empty body. No `Content-Type` is set. /// /// * **Option<T>** /// /// If the `Option` is `Some`, the wrapped responder is used to respond to /// the client. Otherwise, an `Err` with status **404 Not Found** is /// returned and a warning is printed to the console. /// /// * **Result<T, E>** /// /// If the `Result` is `Ok`, the wrapped `Ok` responder is used to respond /// to the client. If the `Result` is `Err`, the wrapped `Err` responder is /// used to respond to the client. /// /// # Return Value /// /// A `Responder` returns a `Future` whose output type is a `Result`. /// /// * An `Ok(Response)` indicates success. The `Response` will be written out /// to the client. /// /// * An `Err(Status)` indicates failure. The error catcher for `Status` will /// be invoked to generate a response. /// /// # Implementation Tips /// /// This section describes a few best practices to take into account when /// implementing `Responder`. /// /// 1. Avoid Manual Implementations /// /// The [`Responder` derive] is a powerful mechanism that eliminates the need /// to implement `Responder` in almost all cases. We encourage you to explore /// using the derive _before_ attempting to implement `Responder` directly. /// It allows you to leverage existing `Responder` implementations through /// composition, decreasing the opportunity for mistakes or performance /// degradation. /// /// 2. Joining and Merging /// /// When chaining/wrapping other `Responder`s, start with /// [`Response::build_from()`] and/or use the [`merge()`](Response::merge()) /// or [`join()`](Response::join()) methods on the `Response` or /// `ResponseBuilder` struct. Ensure that you document merging or joining /// behavior appropriatse. /// /// 3. Inspecting Requests /// /// While tempting, a `Responder` that varies its functionality based on the /// incoming request sacrifices its functionality being understood based /// purely on its type. By implication, gleaming the functionality of a /// _handler_ from its type signature also becomes more difficult. You should /// avoid varying responses based on the `Request` value as much as possible. /// /// ## Lifetimes /// /// `Responder` has two lifetimes: `Responder<'r, 'o: 'r>`. /// /// * `'r` bounds the reference to the `&'r Request`. /// /// * `'o` bounds the returned `Response<'o>` to values that live at least as /// long as the request. /// /// This includes borrows from the `Request` itself (where `'o` would be /// `'r` as in `impl<'r> Responder<'r, 'r>`) as well as `'static` data /// (where `'o` would be `'static` as in `impl<'r> Responder<'r, 'static>`). /// /// In practice, you are likely choosing between four signatures: /// /// ```rust /// # use rocket::request::Request; /// # use rocket::response::{self, Responder}; /// # struct A; /// // If the response contains no borrowed data. /// impl<'r> Responder<'r, 'static> for A { /// fn respond_to(self, _: &'r Request<'_>) -> response::Result<'static> { /// todo!() /// } /// } /// /// # struct B<'r>(&'r str); /// // If the response borrows from the request. /// impl<'r> Responder<'r, 'r> for B<'r> { /// fn respond_to(self, _: &'r Request<'_>) -> response::Result<'r> { /// todo!() /// } /// } /// /// # struct C; /// // If the response is or wraps a borrow that may outlive the request. /// impl<'r, 'o: 'r> Responder<'r, 'o> for &'o C { /// fn respond_to(self, _: &'r Request<'_>) -> response::Result<'o> { /// todo!() /// } /// } /// /// # struct D(R); /// // If the response wraps an existing responder. /// impl<'r, 'o: 'r, R: Responder<'r, 'o>> Responder<'r, 'o> for D { /// fn respond_to(self, _: &'r Request<'_>) -> response::Result<'o> { /// todo!() /// } /// } /// ``` /// /// # Example /// /// Say that you have a custom type, `Person`: /// /// ```rust /// struct Person { /// name: String, /// age: u16 /// } /// ``` /// /// You'd like to use `Person` as a `Responder` so that you can return a /// `Person` directly from a handler: /// /// ```rust /// # #[macro_use] extern crate rocket; /// # type Person = String; /// #[get("/person/")] /// fn person(id: usize) -> Option { /// # /* /// Person::from_id(id) /// # */ None /// } /// # fn main() {} /// ``` /// /// You want the `Person` responder to set two header fields: `X-Person-Name` /// and `X-Person-Age` as well as supply a custom representation of the object /// (`Content-Type: application/x-person`) in the body of the response. The /// following `Responder` implementation accomplishes this: /// /// ```rust /// # #[macro_use] extern crate rocket; /// # /// # #[derive(Debug)] /// # struct Person { name: String, age: u16 } /// # /// use std::io::Cursor; /// /// use rocket::request::Request; /// use rocket::response::{self, Response, Responder}; /// use rocket::http::ContentType; /// /// impl<'r> Responder<'r, 'static> for Person { /// fn respond_to(self, req: &'r Request<'_>) -> response::Result<'static> { /// let string = format!("{}:{}", self.name, self.age); /// Response::build_from(string.respond_to(req)?) /// .raw_header("X-Person-Name", self.name) /// .raw_header("X-Person-Age", self.age.to_string()) /// .header(ContentType::new("application", "x-person")) /// .ok() /// } /// } /// # /// # #[get("/person")] /// # fn person() -> Person { Person { name: "a".to_string(), age: 20 } } /// # fn main() { } /// ``` /// /// Note that the implementation could have instead been derived if structured /// in a slightly different manner: /// /// ```rust /// use rocket::http::Header; /// use rocket::response::Responder; /// /// #[derive(Responder)] /// #[response(content_type = "application/x-person")] /// struct Person { /// text: String, /// name: Header<'static>, /// age: Header<'static>, /// } /// /// impl Person { /// fn new(name: &str, age: usize) -> Person { /// Person { /// text: format!("{}:{}", name, age), /// name: Header::new("X-Person-Name", name.to_string()), /// age: Header::new("X-Person-Age", age.to_string()) /// } /// } /// } /// # /// # #[rocket::get("/person")] /// # fn person() -> Person { Person::new("Bob", 29) } /// ``` pub trait Responder<'r, 'o: 'r> { /// Returns `Ok` if a `Response` could be generated successfully. Otherwise, /// returns an `Err` with a failing `Status`. /// /// The `request` parameter is the `Request` that this `Responder` is /// responding to. /// /// When using Rocket's code generation, if an `Ok(Response)` is returned, /// the response will be written out to the client. If an `Err(Status)` is /// returned, the error catcher for the given status is retrieved and called /// to generate a final error response, which is then written out to the /// client. fn respond_to(self, request: &'r Request<'_>) -> response::Result<'o>; } /// Returns a response with Content-Type `text/plain` and a fixed-size body /// containing the string `self`. Always returns `Ok`. impl<'r, 'o: 'r> Responder<'r, 'o> for &'o str { fn respond_to(self, _: &'r Request<'_>) -> response::Result<'o> { Response::build() .header(ContentType::Plain) .sized_body(self.len(), Cursor::new(self)) .ok() } } /// Returns a response with Content-Type `text/plain` and a fixed-size body /// containing the string `self`. Always returns `Ok`. impl<'r> Responder<'r, 'static> for String { fn respond_to(self, _: &'r Request<'_>) -> response::Result<'static> { Response::build() .header(ContentType::Plain) .sized_body(self.len(), Cursor::new(self)) .ok() } } #[repr(transparent)] struct DerefRef(T); impl AsRef<[u8]> for DerefRef where T::Target: AsRef<[u8]> { fn as_ref(&self) -> &[u8] { self.0.deref().as_ref() } } /// Returns a response with Content-Type `text/plain` and a fixed-size body /// containing the string `self`. Always returns `Ok`. impl<'r> Responder<'r, 'static> for Arc { fn respond_to(self, _: &'r Request<'_>) -> response::Result<'static> { Response::build() .header(ContentType::Plain) .sized_body(self.len(), Cursor::new(DerefRef(self))) .ok() } } /// Returns a response with Content-Type `text/plain` and a fixed-size body /// containing the string `self`. Always returns `Ok`. impl<'r> Responder<'r, 'static> for Box { fn respond_to(self, _: &'r Request<'_>) -> response::Result<'static> { Response::build() .header(ContentType::Plain) .sized_body(self.len(), Cursor::new(DerefRef(self))) .ok() } } /// Returns a response with Content-Type `application/octet-stream` and a /// fixed-size body containing the data in `self`. Always returns `Ok`. impl<'r, 'o: 'r> Responder<'r, 'o> for &'o [u8] { fn respond_to(self, _: &'r Request<'_>) -> response::Result<'o> { Response::build() .header(ContentType::Binary) .sized_body(self.len(), Cursor::new(self)) .ok() } } /// Returns a response with Content-Type `application/octet-stream` and a /// fixed-size body containing the data in `self`. Always returns `Ok`. impl<'r> Responder<'r, 'static> for Vec { fn respond_to(self, _: &'r Request<'_>) -> response::Result<'static> { Response::build() .header(ContentType::Binary) .sized_body(self.len(), Cursor::new(self)) .ok() } } /// Returns a response with Content-Type `application/octet-stream` and a /// fixed-size body containing the data in `self`. Always returns `Ok`. impl<'r> Responder<'r, 'static> for Arc<[u8]> { fn respond_to(self, _: &'r Request<'_>) -> response::Result<'static> { Response::build() .header(ContentType::Binary) .sized_body(self.len(), Cursor::new(self)) .ok() } } /// Returns a response with Content-Type `application/octet-stream` and a /// fixed-size body containing the data in `self`. Always returns `Ok`. impl<'r> Responder<'r, 'static> for Box<[u8]> { fn respond_to(self, _: &'r Request<'_>) -> response::Result<'static> { Response::build() .header(ContentType::Binary) .sized_body(self.len(), Cursor::new(self)) .ok() } } /// Returns a response with a sized body for the file. Always returns `Ok`. impl<'r> Responder<'r, 'static> for File { fn respond_to(self, req: &'r Request<'_>) -> response::Result<'static> { tokio::fs::File::from(self).respond_to(req) } } /// Returns a response with a sized body for the file. Always returns `Ok`. impl<'r> Responder<'r, 'static> for tokio::fs::File { fn respond_to(self, _: &'r Request<'_>) -> response::Result<'static> { Response::build().sized_body(None, self).ok() } } /// Returns an empty, default `Response`. Always returns `Ok`. impl<'r> Responder<'r, 'static> for () { fn respond_to(self, _: &'r Request<'_>) -> response::Result<'static> { Ok(Response::new()) } } /// Responds with the inner `Responder` in `Cow`. impl<'r, 'o: 'r, R: ?Sized + ToOwned> Responder<'r, 'o> for std::borrow::Cow<'o, R> where &'o R: Responder<'r, 'o> + 'o, ::Owned: Responder<'r, 'o> + 'r { fn respond_to(self, req: &'r Request<'_>) -> response::Result<'o> { match self { std::borrow::Cow::Borrowed(b) => b.respond_to(req), std::borrow::Cow::Owned(o) => o.respond_to(req), } } } /// If `self` is `Some`, responds with the wrapped `Responder`. Otherwise prints /// a warning message and returns an `Err` of `Status::NotFound`. impl<'r, 'o: 'r, R: Responder<'r, 'o>> Responder<'r, 'o> for Option { fn respond_to(self, req: &'r Request<'_>) -> response::Result<'o> { match self { Some(r) => r.respond_to(req), None => { warn_!("Response was `None`."); Err(Status::NotFound) }, } } } // Responds with the wrapped `Responder` in `self`, whether it is `Ok` or /// `Err`. impl<'r, 'o: 'r, 't: 'o, 'e: 'o, T, E> Responder<'r, 'o> for Result where T: Responder<'r, 't>, E: Responder<'r, 'e> { fn respond_to(self, req: &'r Request<'_>) -> response::Result<'o> { match self { Ok(responder) => responder.respond_to(req), Err(responder) => responder.respond_to(req), } } } // Responds with the wrapped `Responder` in `self`, whether it is `Left` or /// `Right`. impl<'r, 'o: 'r, 't: 'o, 'e: 'o, T, E> Responder<'r, 'o> for crate::Either where T: Responder<'r, 't>, E: Responder<'r, 'e> { fn respond_to(self, req: &'r Request<'_>) -> response::Result<'o> { match self { crate::Either::Left(r) => r.respond_to(req), crate::Either::Right(r) => r.respond_to(req), } } } /// The response generated by `Status` depends on the status code itself. The /// table below summarizes the functionality: /// /// | Status Code Range | Response | /// |-------------------|---------------------------------------| /// | [400, 599] | Forwards to catcher for given status. | /// | 100, [200, 205] | Empty with status of `self`. | /// | All others. | Invalid. Errors to `500` catcher. | /// /// In short, a client or server error status codes will forward to the /// corresponding error catcher, a successful status code less than `206` or /// `100` responds with any empty body and the given status code, and all other /// status code emit an error message and forward to the `500` (internal server /// error) catcher. impl<'r> Responder<'r, 'static> for Status { fn respond_to(self, _: &'r Request<'_>) -> response::Result<'static> { match self.class() { StatusClass::ClientError | StatusClass::ServerError => Err(self), StatusClass::Success if self.code < 206 => { Response::build().status(self).ok() } StatusClass::Informational if self.code == 100 => { Response::build().status(self).ok() } _ => { error_!("Invalid status used as responder: {}.", self); Err(Status::InternalServerError) } } } }