mirror of https://github.com/rwf2/Rocket.git
766 lines
29 KiB
Markdown
766 lines
29 KiB
Markdown
# Requests
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Together, a route's attribute and function signature specify what must be true
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about a request in order for the route's handler to be called. You've already
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seen an example of this in action:
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```rust
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#[get("/world")]
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fn handler() { .. }
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```
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This route indicates that it only matches against `GET` requests to the `/world`
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route. Rocket ensures that this is the case before `handler` is called. Of
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course, you can do much more than specify the method and path of a request.
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Among other things, you can ask Rocket to automatically validate:
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* The type of a dynamic path segment.
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* The type of _many_ dynamic path segments.
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* The type of incoming data.
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* The types of query strings, forms, and form values.
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* The expected incoming or outgoing format of a request.
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* Any arbitrary, user-defined security or validation policies.
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The route attribute and function signature work in tandem to describe these
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validations. Rocket's code generation takes care of actually validating the
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properties. This section describes how to ask Rocket to validate against all of
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these properties and more.
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## Methods
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A Rocket route attribute can be any one of `get`, `put`, `post`, `delete`,
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`head`, `patch`, or `options`, each corresponding to the HTTP method to match
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against. For example, the following attribute will match against `POST` requests
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to the root path:
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```rust
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#[post("/")]
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```
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The grammar for these attributes is defined formally in the
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[`rocket_codegen`](https://api.rocket.rs/rocket_codegen/) API docs.
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### HEAD Requests
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Rocket handles `HEAD` requests automatically when there exists a `GET` route
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that would otherwise match. It does this by stripping the body from the
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response, if there is one. You can also specialize the handling of a `HEAD`
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request by declaring a route for it; Rocket won't interfere with `HEAD` requests
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your application handles.
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### Reinterpreting
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Because browsers can only send `GET` and `POST` requests, Rocket _reinterprets_
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request methods under certain conditions. If a `POST` request contains a body of
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`Content-Type: application/x-www-form-urlencoded`, and the form's **first**
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field has the name `_method` and a valid HTTP method name as its value (such as
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`"PUT"`), that field's value is used as the method for the incoming request.
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This allows Rocket applications to submit non-`POST` forms. The [todo
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example](https://github.com/SergioBenitez/Rocket/tree/v0.4.0-dev/examples/todo/static/index.html.tera#L47)
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makes use of this feature to submit `PUT` and `DELETE` requests from a web form.
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## Dynamic Segments
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You can declare path segments as dynamic by using angle brackets around variable
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names in a route's path. For example, if we want to say _Hello!_ to anything,
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not just the world, we can declare a route like so:
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```rust
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#[get("/hello/<name>")]
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fn hello(name: &RawStr) -> String {
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format!("Hello, {}!", name.as_str())
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}
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```
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If we were to mount the path at the root (`.mount("/", routes![hello])`), then
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any request to a path with two non-empty segments, where the first segment is
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`hello`, will be dispatched to the `hello` route. For example, if we were to
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visit `/hello/John`, the application would respond with `Hello, John!`.
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Any number of dynamic path segments are allowed. A path segment can be of any
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type, including your own, as long as the type implements the [`FromParam`]
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trait. Rocket implements `FromParam` for many of the standard library types, as
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well as a few special Rocket types. For the full list of supplied
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implementations, see the [`FromParam` API docs]. Here's a more complete route to
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illustrate varied usage:
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```rust
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#[get("/hello/<name>/<age>/<cool>")]
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fn hello(name: String, age: u8, cool: bool) -> String {
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if cool {
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format!("You're a cool {} year old, {}!", age, name)
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} else {
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format!("{}, we need to talk about your coolness.", name)
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}
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}
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```
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[`FromParam`]: https://api.rocket.rs/rocket/request/trait.FromParam.html
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[`FromParam` API docs]: https://api.rocket.rs/rocket/request/trait.FromParam.html
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### Raw Strings
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You may have noticed an unfamiliar [`RawStr`] type in the code example above.
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This is a special type, provided by Rocket, that represents an unsanitzed,
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unvalidated, and undecoded raw string from an HTTP message. It exists to
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separate validated string inputs, represented by types such as `String`, `&str`,
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and `Cow<str>` types, from unvalidated inputs, represented by `&RawStr`. It
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provides helpful methods to convert the unvalidated string into a validated one.
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Because `&RawStr` implements [`FromParam`], it can be used as the type of a
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dynamic segment, as in the example above. When used as the type of a dynamic
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segment, a `RawStr` points to a potentially undecoded string. By constrast, a
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`String` is guaranteed to be decoded. Which you should use depends on whether
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you want direct but potentially unsafe access to the string (`&RawStr`), or safe
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access to the string at the cost of an allocation (`String`).
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[`RawStr`]: https://api.rocket.rs/rocket/http/struct.RawStr.html
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## Forwarding
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Let's take a closer look at the route attribute and signature pair from the last
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example:
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```rust
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#[get("/hello/<name>/<age>/<cool>")]
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fn hello(name: String, age: u8, cool: bool) -> String { ... }
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```
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What if `cool` isn't a `bool`? Or, what if `age` isn't a `u8`? When a parameter
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type mismatch occurs, Rocket _forwards_ the request to the next matching route,
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if there is any. This continues until a route doesn't forward the request or
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there are no remaining routes to try. When there are no remaining routes, a
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customizable **404 error** is returned.
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Routes are attempted in increasing _rank_ order. Rocket chooses a default
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ranking from -4 to -1, detailed in the next section, for all routes, but a
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route's rank can also be manually set with the `rank` attribute. To illustrate,
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consider the following routes:
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```rust
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#[get("/user/<id>")]
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fn user(id: usize) -> T { ... }
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#[get("/user/<id>", rank = 2)]
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fn user_int(id: isize) -> T { ... }
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#[get("/user/<id>", rank = 3)]
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fn user_str(id: &RawStr) -> T { ... }
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```
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Notice the `rank` parameters in `user_int` and `user_str`. If we run this
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application with the routes mounted at the root, requests to `/user/<id>` will
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be routed as follows:
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1. The `user` route matches first. If the string at the `<id>` position is an
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unsigned integer, then the `user` handler is called. If it is not, then the
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request is forwarded to the next matching route: `user_int`.
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2. The `user_int` route matches next. If `<id>` is a signed integer,
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`user_int` is called. Otherwise, the request is forwarded.
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3. The `user_str` route matches last. Since `<id>` is a always string, the
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route always matches. The `user_str` handler is called.
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Forwards can be _caught_ by using a `Result` or `Option` type. For example, if
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the type of `id` in the `user` function was `Result<usize, &RawStr>`, then `user`
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would never forward. An `Ok` variant would indicate that `<id>` was a valid
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`usize`, while an `Err` would indicate that `<id>` was not a `usize`. The
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`Err`'s value would contain the string that failed to parse as a `usize`.
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By the way, if you were to omit the `rank` parameter in the `user_str` or
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`user_int` routes, Rocket would emit an error and abort launch, indicating that
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the routes _collide_, or can match against similar incoming requests. The `rank`
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parameter resolves this collision.
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### Default Ranking
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If a rank is not explicitly specified, Rocket assigns a default ranking. By
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default, routes with static paths and query strings have lower ranks (higher
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precedence) while routes with dynamic paths and without query strings have
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higher ranks (lower precedence). The table below describes the default ranking
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of a route given its properties.
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| static path | query string | rank | example |
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| ------------- | -------------- | ------ | ------------------- |
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| yes | yes | -4 | `/hello?world=true` |
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| yes | no | -3 | `/hello` |
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| no | yes | -2 | `/<hi>?world=true` |
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| no | no | -1 | `/<hi>` |
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## Multiple Segments
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You can also match against multiple segments by using `<param..>` in a route
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path. The type of such parameters, known as _segments_ parameters, must
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implement [`FromSegments`]. Segments parameters must be the final component of a
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path: any text after a segments parameter will result in a compile-time error.
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As an example, the following route matches against all paths that begin with
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`/page/`:
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```rust
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#[get("/page/<path..>")]
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fn get_page(path: PathBuf) -> T { ... }
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```
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The path after `/page/` will be available in the `path` parameter. The
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`FromSegments` implementation for `PathBuf` ensures that `path` cannot lead to
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[path traversal attacks](https://www.owasp.org/index.php/Path_Traversal). With
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this, a safe and secure static file server can be implemented in 4 lines:
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```rust
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#[get("/<file..>")]
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fn files(file: PathBuf) -> Option<NamedFile> {
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NamedFile::open(Path::new("static/").join(file)).ok()
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}
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```
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[`FromSegments`]: https://api.rocket.rs/rocket/request/trait.FromSegments.html
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## Format
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A route can specify the data format it is willing to accept or respond with
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using the `format` route parameter. The value of the parameter is a string
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identifying an HTTP media type. For instance, for JSON data, the string
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`application/json` can be used.
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When a route indicates a payload-supporting method (`PUT`, `POST`, `DELETE`, and
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`PATCH`), the `format` route parameter instructs Rocket to check against the
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`Content-Type` header of the incoming request. Only requests where the
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`Content-Type` header matches the `format` parameter will match to the route.
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As an example, consider the following route:
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```rust
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#[post("/user", format = "application/json", data = "<user>")]
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fn new_user(user: Json<User>) -> T { ... }
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```
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The `format` parameter in the `post` attribute declares that only incoming
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requests with `Content-Type: application/json` will match `new_user`. (The
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`data` parameter is described in the next section.)
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When a route indicates a non-payload-supporting method (`GET`, `HEAD`, and
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`OPTIONS`), the `format` route parameter instructs Rocket to check against the
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`Accept` header of the incoming request. Only requests where the preferred media
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type in the `Accept` header matches the `format` parameter will match to the
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route.
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As an example, consider the following route:
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```rust
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#[get("/user/<id>", format = "application/json")]
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fn user(id: usize) -> Json<User> { ... }
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```
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The `format` parameter in the `get` attribute declares that only incoming
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requests with `application/json` as the preferred media type in the `Accept`
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header will match `user`.
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## Request Guards
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Request guards are one of Rocket's most powerful instruments. As the name might
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imply, a request guard protects a handler from being called erroneously based on
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information contained in an incoming request. More specifically, a request guard
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is a type that represents an arbitrary validation policy. The validation policy
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is implemented through the [`FromRequest`] trait. Every type that implements
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`FromRequest` is a request guard.
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Request guards appear as inputs to handlers. An arbitrary number of request
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guards can appear as arguments in a route handler. Rocket will automatically
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invoke the [`FromRequest`] implementation for request guards before calling the
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handler. Rocket only dispatches requests to a handler when all of its guards
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pass.
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As an example, the following dummy handler makes use of three request guards,
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`A`, `B`, and `C`. An input can be identified as a request guard if it is not
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named in the route attribute. This is why `param` is not a request guard.
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```rust
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#[get("/<param>")]
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fn index(param: isize, a: A, b: B, c: C) -> ... { ... }
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```
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Request guards always fire in left-to-right declaration order. In the example
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above, the order will be `A` followed by `B` followed by `C`. Failure is
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short-circuiting; if one guard fails, the remaining are not attempted. To learn
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more about request guards and implementing them, see the [`FromRequest`]
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documentation.
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[`FromRequest`]: https://api.rocket.rs/rocket/request/trait.FromRequest.html
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[`Cookies`]: https://api.rocket.rs/rocket/http/enum.Cookies.html
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### Custom Guards
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You can implement `FromRequest` for your own types. For instance, to protect a
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`sensitive` route from running unless an `ApiKey` is present in the request
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headers, you might create an `ApiKey` type that implements `FromRequest` and
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then use it as a request guard:
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```rust
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#[get("/sensitive")]
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fn sensitive(key: ApiKey) -> &'static str { ... }
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```
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You might also implement `FromRequest` for an `AdminUser` type that
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authenticates an administrator using incoming cookies. Then, any handler with an
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`AdminUser` or `ApiKey` type in its argument list is assured to only be invoked
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if the appropriate conditions are met. Request guards centralize policies,
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resulting in a simpler, safer, and more secure applications.
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### Forwarding Guards
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Request guards and forwarding are a powerful combination for enforcing policies.
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To illustrate, we consider how a simple authorization system might be
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implemented using these mechanisms.
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We start with two request guards:
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* `User`: A regular, authenticated user.
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The `FromRequest` implementation for `User` checks that a cookie identifies
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a user and returns a `User` value if so. If no user can be authenticated,
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the guard forwards.
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* `AdminUser`: A user authenticated as an administrator.
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The `FromRequest` implementation for `AdminUser` checks that a cookie
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identifies an _administrative_ user and returns an `AdminUser` value if so.
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If no user can be authenticated, the guard forwards.
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We now use these two guards in combination with forwarding to implement the
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following three routes, each leading to an administrative control panel at
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`/admin`:
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```rust
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#[get("/admin")]
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fn admin_panel(admin: AdminUser) -> &'static str {
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"Hello, administrator. This is the admin panel!"
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}
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#[get("/admin", rank = 2)]
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fn admin_panel_user(user: User) -> &'static str {
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"Sorry, you must be an administrator to access this page."
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}
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#[get("/admin", rank = 3)]
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fn admin_panel_redirect() -> Redirect {
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Redirect::to("/login")
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}
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```
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The three routes above encode authentication _and_ authorization. The
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`admin_panel` route only succeeds if an administrator is logged in. Only then is
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the admin panel displayed. If the user is not an admin, the `AdminUser` route
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will forward. Since the `admin_panel_user` route is ranked next highest, it is
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attempted next. This route succeeds if there is _any_ user signed in, and an
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authorization failure message is displayed. Finally, if a user isn't signed in,
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the `admin_panel_redirect` route is attempted. Since this route has no guards,
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it always succeeds. The user is redirected to a log in page.
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## Cookies
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[`Cookies`] is an important, built-in request guard: it allows you to get, set,
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and remove cookies. Because `Cookies` is a request guard, an argument of its
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type can simply be added to a handler:
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```rust
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use rocket::http::Cookies;
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#[get("/")]
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fn index(cookies: Cookies) -> Option<String> {
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cookies.get("message")
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.map(|value| format!("Message: {}", value))
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}
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```
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This results in the incoming request's cookies being accessible from the
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handler. The example above retrieves a cookie named `message`. Cookies can also
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be set and removed using the `Cookies` guard. The [cookies example] on GitHub
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illustrates further use of the `Cookies` type to get and set cookies, while the
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[`Cookies`] documentation contains complete usage information.
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[cookies example]: https://github.com/SergioBenitez/Rocket/tree/v0.4.0-dev/examples/cookies
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### Private Cookies
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Cookies added via the [`Cookies::add()`] method are set _in the clear._ In other
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words, the value set is visible by the client. For sensitive data, Rocket
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provides _private_ cookies.
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Private cookies are just like regular cookies except that they are encrypted
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using authenticated encryption, a form of encryption which simultaneously
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provides confidentiality, integrity, and authenticity. This means that private
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cookies cannot be inspected, tampered with, or manufactured by clients. If you
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prefer, you can think of private cookies as being signed and encrypted.
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The API for retrieving, adding, and removing private cookies is identical except
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methods are suffixed with `_private`. These methods are: [`get_private`],
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[`add_private`], and [`remove_private`]. An example of their usage is below:
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```rust
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/// Retrieve the user's ID, if any.
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#[get("/user_id")]
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fn user_id(cookies: Cookies) -> Option<String> {
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cookies.get_private("user_id")
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.map(|cookie| format!("User ID: {}", cookie.value()))
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}
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/// Remove the `user_id` cookie.
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#[post("/logout")]
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fn logout(mut cookies: Cookies) -> Flash<Redirect> {
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cookies.remove_private(Cookie::named("user_id"));
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Flash::success(Redirect::to("/"), "Successfully logged out.")
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}
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```
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[`Cookies::add()`]: https://api.rocket.rs/rocket/http/enum.Cookies.html#method.add
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### Secret Key
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To encrypt private cookies, Rocket uses the 256-bit key specified in the
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`secret_key` configuration parameter. If one is not specified, Rocket will
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automatically generate a fresh key. Note, however, that a private cookie can
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only be decrypted with the same key with which it was encrypted. As such, it is
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important to set a `secret_key` configuration parameter when using private
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cookies so that cookies decrypt properly after an application restart. Rocket
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emits a warning if an application is run in production without a configured
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`secret_key`.
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Generating a string suitable for use as a `secret_key` configuration value is
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usually done through tools like `openssl`. Using `openssl`, a 256-bit base64 key
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can be generated with the command `openssl rand -base64 32`.
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For more information on configuration, see the
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[Configuration](/guide/configuration) section of the guide.
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[`get_private`]: https://api.rocket.rs/rocket/http/enum.Cookies.html#method.get_private
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[`add_private`]: https://api.rocket.rs/rocket/http/enum.Cookies.html#method.add_private
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[`remove_private`]: https://api.rocket.rs/rocket/http/enum.Cookies.html#method.remove_private
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### One-At-A-Time
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For safety reasons, Rocket currently requires that at most one `Cookies`
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instance be active at a time. It's uncommon to run into this restriction, but it
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can be confusing to handle if it does crop up.
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If this does happen, Rocket will emit messages to the console that look as
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follows:
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```
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=> Error: Multiple `Cookies` instances are active at once.
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=> An instance of `Cookies` must be dropped before another can be retrieved.
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=> Warning: The retrieved `Cookies` instance will be empty.
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```
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The messages will be emitted when a violating handler is called. The issue can
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be resolved by ensuring that two instances of `Cookies` cannot be active at once
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due to the offending handler. A common error is to have a handler that uses a
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`Cookies` request guard as well as a `Custom` request guard that retrieves
|
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`Cookies`, as so:
|
|
|
|
```rust
|
|
#[get("/")]
|
|
fn bad(cookies: Cookies, custom: Custom) { .. }
|
|
```
|
|
|
|
Because the `cookies` guard will fire before the `custom` guard, the `custom`
|
|
guard will retrieve an instance of `Cookies` when one already exists for
|
|
`cookies`. This scenario can be fixed by simply swapping the order of the
|
|
guards:
|
|
|
|
```rust
|
|
#[get("/")]
|
|
fn good(custom: Custom, cookies: Cookies) { .. }
|
|
```
|
|
|
|
## Body Data
|
|
|
|
At some point, your web application will need to process body data. Data
|
|
processing, like much of Rocket, is type directed. To indicate that a handler
|
|
expects data, annotate it with `data = "<param>"`, where `param` is an argument
|
|
in the handler. The argument's type must implement the [`FromData`] trait. It
|
|
looks like this, where `T: FromData`:
|
|
|
|
```rust
|
|
#[post("/", data = "<input>")]
|
|
fn new(input: T) -> String { ... }
|
|
```
|
|
|
|
Any type that implements [`FromData`] is also known as _data guard_.
|
|
|
|
[`FromData`]: https://api.rocket.rs/rocket/data/trait.FromData.html
|
|
|
|
### Forms
|
|
|
|
Forms are the most common type of data handled in web applications, and Rocket
|
|
makes handling them easy. Say your application is processing a form submission
|
|
for a new todo `Task`. The form contains two fields: `complete`, a checkbox, and
|
|
`description`, a text field. You can easily handle the form request in Rocket
|
|
as follows:
|
|
|
|
```rust
|
|
#[derive(FromForm)]
|
|
struct Task {
|
|
complete: bool,
|
|
description: String,
|
|
}
|
|
|
|
#[post("/todo", data = "<task>")]
|
|
fn new(task: Form<Task>) -> String { ... }
|
|
```
|
|
|
|
The `Form` type implements the `FromData` trait as long as its generic parameter
|
|
implements the [`FromForm`] trait. In the example, we've derived the `FromForm`
|
|
trait automatically for the `Task` structure. `FromForm` can be derived for any
|
|
structure whose fields implement [`FromFormValue`]. If a `POST /todo` request
|
|
arrives, the form data will automatically be parsed into the `Task` structure.
|
|
If the data that arrives isn't of the correct Content-Type, the request is
|
|
forwarded. If the data doesn't parse or is simply invalid, a customizable `400 -
|
|
Bad Request` or `422 - Unprocessable Entity` error is returned. As before, a
|
|
forward or failure can be caught by using the `Option` and `Result` types:
|
|
|
|
```rust
|
|
#[post("/todo", data = "<task>")]
|
|
fn new(task: Option<Form<Task>>) -> String { ... }
|
|
```
|
|
|
|
[`FromForm`]: https://api.rocket.rs/rocket/request/trait.FromForm.html
|
|
[`FromFormValue`]: https://api.rocket.rs/rocket/request/trait.FromFormValue.html
|
|
|
|
#### Lenient Parsing
|
|
|
|
Rocket's `FromForm` parsing is _strict_ by default. In other words, A `Form<T>`
|
|
will parse successfully from an incoming form only if the form contains the
|
|
exact set of fields in `T`. Said another way, a `Form<T>` will error on missing
|
|
and/or extra fields. For instance, if an incoming form contains the fields "a",
|
|
"b", and "c" while `T` only contains "a" and "c", the form _will not_ parse as
|
|
`Form<T>`.
|
|
|
|
Rocket allows you to opt-out of this behavior via the [`LenientForm`] data type.
|
|
A `LenientForm<T>` will parse successfully from an incoming form as long as the
|
|
form contains a superset of the fields in `T`. Said another way, a
|
|
`LenientForm<T>` automatically discards extra fields without error. For
|
|
instance, if an incoming form contains the fields "a", "b", and "c" while `T`
|
|
only contains "a" and "c", the form _will_ parse as `LenientForm<T>`.
|
|
|
|
You can use a `LenientForm` anywhere you'd use a `Form`. Its generic parameter
|
|
is also required to implement `FromForm`. For instance, we can simply replace
|
|
`Form` with `LenientForm` above to get lenient parsing:
|
|
|
|
```rust
|
|
#[derive(FromForm)]
|
|
struct Task { .. }
|
|
|
|
#[post("/todo", data = "<task>")]
|
|
fn new(task: LenientForm<Task>) { .. }
|
|
```
|
|
|
|
[`LenientForm`]: https://api.rocket.rs/rocket/request/struct.LenientForm.html
|
|
|
|
#### Field Renaming
|
|
|
|
By default, Rocket matches the name of an incoming form field to the name of a
|
|
structure field. While this behavior is typical, it may also be desired to use
|
|
different names for form fields and struct fields while still parsing as
|
|
expected. You can ask Rocket to look for a different form field for a given
|
|
structure field by using the `#[form(field = "name")]` field annotation.
|
|
|
|
As an example, say that you're writing an application that receives data from an
|
|
external service. The external service `POST`s a form with a field named `type`.
|
|
Since `type` is a reserved keyword in Rust, it cannot be used as the name of a
|
|
field. To get around this, you can use field renaming as follows:
|
|
|
|
```rust
|
|
#[derive(FromForm)]
|
|
struct External {
|
|
#[form(field = "type")]
|
|
api_type: String
|
|
}
|
|
```
|
|
|
|
Rocket will then match the form field named `type` to the structure field named
|
|
`api_type` automatically.
|
|
|
|
#### Field Validation
|
|
|
|
Fields of forms can be easily validated via implementations of the
|
|
[`FromFormValue`] trait. For example, if you'd like to verify that some user is
|
|
over some age in a form, then you might define a new `AdultAge` type, use it as
|
|
a field in a form structure, and implement `FromFormValue` so that it only
|
|
validates integers over that age:
|
|
|
|
```rust
|
|
struct AdultAge(usize);
|
|
|
|
impl<'v> FromFormValue<'v> for AdultAge {
|
|
type Error = &'v RawStr;
|
|
|
|
fn from_form_value(form_value: &'v RawStr) -> Result<AdultAge, &'v RawStr> {
|
|
match form_value.parse::<usize>() {
|
|
Ok(age) if age >= 21 => Ok(AdultAge(age)),
|
|
_ => Err(form_value),
|
|
}
|
|
}
|
|
}
|
|
|
|
#[derive(FromForm)]
|
|
struct Person {
|
|
age: AdultAge
|
|
}
|
|
```
|
|
|
|
If a form is submitted with a bad age, Rocket won't call a handler requiring a
|
|
valid form for that structure. You can use `Option` or `Result` types for fields
|
|
to catch parse failures:
|
|
|
|
```rust
|
|
#[derive(FromForm)]
|
|
struct Person {
|
|
age: Option<AdultAge>
|
|
}
|
|
```
|
|
|
|
The [forms validation](https://github.com/SergioBenitez/Rocket/tree/v0.4.0-dev/examples/form_validation)
|
|
and [forms kitchen sink](https://github.com/SergioBenitez/Rocket/tree/v0.4.0-dev/examples/form_kitchen_sink)
|
|
examples on GitHub provide further illustrations.
|
|
|
|
### JSON
|
|
|
|
Handling JSON data is no harder: simply use the
|
|
[`Json`](https://api.rocket.rs/rocket_contrib/struct.Json.html) type:
|
|
|
|
```rust
|
|
#[derive(Deserialize)]
|
|
struct Task {
|
|
description: String,
|
|
complete: bool
|
|
}
|
|
|
|
#[post("/todo", data = "<task>")]
|
|
fn new(task: Json<Task>) -> String { ... }
|
|
```
|
|
|
|
The only condition is that the generic type in `Json` implements the
|
|
`Deserialize` trait from [Serde](https://github.com/serde-rs/json). See the
|
|
[JSON example] on GitHub for a complete example.
|
|
|
|
[JSON example]: https://github.com/SergioBenitez/Rocket/tree/v0.4.0-dev/examples/json
|
|
|
|
### Streaming
|
|
|
|
Sometimes you just want to handle incoming data directly. For example, you might
|
|
want to stream the incoming data out to a file. Rocket makes this as simple as
|
|
possible via the [`Data`](https://api.rocket.rs/rocket/data/struct.Data.html)
|
|
type:
|
|
|
|
```rust
|
|
#[post("/upload", format = "text/plain", data = "<data>")]
|
|
fn upload(data: Data) -> io::Result<String> {
|
|
data.stream_to_file("/tmp/upload.txt").map(|n| n.to_string())
|
|
}
|
|
```
|
|
|
|
The route above accepts any `POST` request to the `/upload` path with
|
|
`Content-Type: text/plain` The incoming data is streamed out to
|
|
`tmp/upload.txt`, and the number of bytes written is returned as a plain text
|
|
response if the upload succeeds. If the upload fails, an error response is
|
|
returned. The handler above is complete. It really is that simple! See the
|
|
[GitHub example
|
|
code](https://github.com/SergioBenitez/Rocket/tree/v0.4.0-dev/examples/raw_upload)
|
|
for the full crate.
|
|
|
|
## Query Strings
|
|
|
|
Query strings are handled just like forms. A query string can be parsed into any
|
|
structure that implements the `FromForm` trait. They are matched against by
|
|
appending a `?` to the path followed by a static query string or a dynamic
|
|
parameter `<param>`.
|
|
|
|
For instance, say you change your mind and decide to use query strings instead
|
|
of `POST` forms for new todo tasks in the previous forms example, reproduced
|
|
below:
|
|
|
|
```rust
|
|
#[derive(FromForm)]
|
|
struct Task { .. }
|
|
|
|
#[post("/todo", data = "<task>")]
|
|
fn new(task: Form<Task>) -> String { ... }
|
|
```
|
|
|
|
Rocket makes the transition simple: simply declare `<task>` as a query parameter
|
|
as follows:
|
|
|
|
```rust
|
|
#[get("/todo?<task>")]
|
|
fn new(task: Task) -> String { ... }
|
|
```
|
|
|
|
Rocket will parse the query string into the `Task` structure automatically by
|
|
matching the structure field names to the query parameters. If the parse fails,
|
|
the request is forwarded to the next matching route. Parse failures can be
|
|
captured on a per-field or per-form basis.
|
|
|
|
To catch failures on a per-field basis, use a type of `Option` or `Result` for
|
|
the given field:
|
|
|
|
```rust
|
|
#[derive(FromForm)]
|
|
struct Task<'r> {
|
|
description: Result<String, &'r RawStr>,
|
|
complete: Option<bool>
|
|
}
|
|
```
|
|
|
|
To catch failures on a per-form basis, change the type of the query string
|
|
target to either `Option` or `Result`:
|
|
|
|
```rust
|
|
#[get("/todo?<task>")]
|
|
fn new(task: Option<Task>) { ... }
|
|
```
|
|
|
|
For a concrete illustration on how to handle query parameters, see [the
|
|
`query_params`
|
|
example](https://github.com/SergioBenitez/Rocket/tree/v0.4.0-dev/examples/query_params).
|
|
|
|
## Error Catchers
|
|
|
|
Routing may fail for a variety of reasons. These include:
|
|
|
|
* A [request guard](#request-guards) returns `Failure`.
|
|
* A handler returns a [`Responder`](/guide/responses/#responder) that fails.
|
|
* No matching route was found.
|
|
|
|
If any of these conditions occur, Rocket returns an error to the client. To do
|
|
so, Rocket invokes the _error catcher_ corresponding to the error's status code.
|
|
A catcher is like a route, except it only handles errors. Catchers are declared
|
|
via the `catch` attribute, which takes a single integer corresponding to the
|
|
HTTP status code to catch. For instance, to declare a catcher for **404**
|
|
errors, you'd write:
|
|
|
|
```rust
|
|
#[catch(404)]
|
|
fn not_found(req: &Request) -> String { ... }
|
|
```
|
|
|
|
As with routes, Rocket needs to know about a catcher before it is used to handle
|
|
errors. The process is similar to mounting: call the `catch` method with a list
|
|
of catchers via the `catchers!` macro. The invocation to add the **404** catcher
|
|
declared above looks like:
|
|
|
|
```rust
|
|
rocket::ignite().catch(catchers![not_found])
|
|
```
|
|
|
|
Unlike request handlers, error handlers can only take 0, 1, or 2 parameters of
|
|
types [`Request`](https://api.rocket.rs/rocket/struct.Request.html) and/or
|
|
[`Error`](https://api.rocket.rs/rocket/enum.Error.html). At present, the `Error`
|
|
type is not particularly useful, and so it is often omitted. The [error catcher
|
|
example](https://github.com/SergioBenitez/Rocket/tree/v0.4.0-dev/examples/errors) on
|
|
GitHub illustrates their use in full.
|
|
|
|
Rocket has a default catcher for all of the standard HTTP error codes including
|
|
**404**, **500**, and more.
|