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https://github.com/rwf2/Rocket.git
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12308b403f
The attribute is applied everywhere it can be across the codebase and is the newly preferred method for launching an application. This commit also makes '#[rocket::main]` stricter by warning when it is applied to functions other than 'main'.
231 lines
8.2 KiB
TOML
231 lines
8.2 KiB
TOML
###############################################################################
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# Panels: displayed in a tabbed arrangement.
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###############################################################################
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[[panels]]
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name = "Routing"
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checked = true
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content = '''
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Rocket's main task is to route incoming requests to the appropriate request
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handler using your application's declared routes. Routes are declared using
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Rocket's _route_ attributes. The attribute describes the requests that match the
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route. The attribute is placed on top of a function that is the request handler
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for that route.
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As an example, consider the simple route below:
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```rust
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#[get("/")]
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fn index() -> &'static str {
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"Hello, world!"
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}
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```
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This route, named `index`, will match against incoming HTTP `GET` requests to
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the `/` path, the index. The request handler returns a string. Rocket will use
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the string as the body of a fully formed HTTP response.
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'''
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[[panels]]
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name = "Dynamic Params"
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content = '''
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Rocket allows you to interpret segments of a request path dynamically. To
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illustrate, let's use the following route:
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```rust
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#[get("/hello/<name>/<age>")]
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fn hello(name: String, age: u8) -> String {
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format!("Hello, {} year old named {}!", age, name)
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}
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```
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The `hello` route above matches two dynamic path segments declared inside
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brackets in the path: `<name>` and `<age>`. _Dynamic_ means that the segment can
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be _any_ value the end-user desires.
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Each dynamic parameter (`name` and `age`) must have a type, here `&str` and
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`u8`, respectively. Rocket will attempt to parse the string in the parameter's
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position in the path into that type. The route will only be called if parsing
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succeeds. To parse the string, Rocket uses the
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[FromParam](@api/rocket/request/trait.FromParam.html) trait,
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which you can implement for your own types!
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'''
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[[panels]]
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name = "Handling Data"
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content = '''
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Request body data is handled in a special way in Rocket: via the
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[FromData](@api/rocket/data/trait.FromData.html) trait. Any type that implements
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`FromData` can be derived from incoming body data. To tell Rocket that you're
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expecting request body data, the `data` route argument is used with the name of
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the parameter in the request handler:
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```rust
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#[post("/login", data = "<user_form>")]
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fn login(user_form: Form<UserLogin>) -> String {
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format!("Hello, {}!", user_form.name)
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}
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```
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The `login` route above says that it expects `data` of type `Form<UserLogin>` in
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the `user_form` parameter. The [Form](@api/rocket/request/struct.Form.html) type
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is a built-in Rocket type that knows how to parse web forms into structures.
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Rocket will automatically attempt to parse the request body into the `Form` and
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call the `login` handler if parsing succeeds. Other built-in `FromData` types
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include [`Data`](@api/rocket/struct.Data.html),
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[`Json`](@api/rocket_contrib/json/struct.Json.html), and
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[`Flash`](@api/rocket/response/struct.Flash.html).
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'''
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[[panels]]
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name = "Request Guards"
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content = '''
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In addition to dynamic path and data parameters, request handlers can also
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contain a third type of parameter: _request guards_. Request guards aren't
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declared in the route attribute, and any number of them can appear in the
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request handler signature.
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Request guards _protect_ the handler from running unless some set of conditions
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are met by the incoming request metadata. For instance, if you are writing an
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API that requires sensitive calls to be accompanied by an API key in the request
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header, Rocket can protect those calls via a custom `ApiKey` request guard:
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```rust
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#[get("/sensitive")]
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fn sensitive(key: ApiKey) { ... }
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```
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`ApiKey` protects the `sensitive` handler from running incorrectly. In order for
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Rocket to call the `sensitive` handler, the `ApiKey` type needs to be derived
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through a [`FromRequest`](@api/rocket/request/trait.FromRequest.html)
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implementation, which in this case, validates the API key header. Request guards
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are a powerful and unique Rocket concept; they centralize application policy and
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invariants through types.
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'''
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[[panels]]
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name = "Responders"
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content = '''
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The return type of a request handler can be any type that implements
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[Responder](@api/rocket/response/trait.Responder.html):
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```rust
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#[get("/")]
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fn route() -> T { ... }
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```
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Above, T must implement `Responder`. Rocket implements `Responder` for many of
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the standard library types including `&str`, `String`, `File`, `Option`, and
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`Result`. Rocket also implements custom responders such as
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[Redirect](@api/rocket/response/struct.Redirect.html),
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[Flash](@api/rocket/response/struct.Flash.html), and
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[Template](@api/rocket_contrib/templates/struct.Template.html).
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The task of a `Responder` is to generate a
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[`Response`](@api/rocket/response/struct.Response.html), if possible.
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`Responder`s can fail with a status code. When they do, Rocket calls the
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corresponding error catcher, a `catch` route, which can be declared as follows:
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```rust
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#[catch(404)]
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fn not_found() -> T { ... }
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```
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'''
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[[panels]]
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name = "Launching"
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content = '''
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Launching a Rocket application is the funnest part! For Rocket to begin
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dispatching requests to routes, routes need to be _mounted_. After mounting, the
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application needs to be _launched_. These two steps, usually done in a `rocket`
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function, look like:
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```rust
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#[launch]
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fn rocket() -> Rocket {
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rocket::ignite().mount("/base", routes![index, another])
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}
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```
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The `mount` call takes a base path and a set of routes via the `routes!` macro.
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The base path (`/base` above) is prepended to the path of every route in the
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list. This namespaces the routes, allowing for composition. The `#[launch]`
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attribute creates a `main` function that starts the server. In development,
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Rocket prints useful information to the console to let you know everything is
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okay.
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```sh
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🚀 Rocket has launched from http://localhost:8000
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```
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'''
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###############################################################################
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# Steps to "How Rocket Works"
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###############################################################################
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[[steps]]
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name = "Validation"
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color = "blue"
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content = '''
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First, Rocket validates a matching request by ensuring that all of the types in
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a given handler can be derived from the incoming request. If the types cannot be
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derived, the request is forwarded to the next matching route until a route’s
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types validate or there are no more routes to try. If all routes fail, a
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customizable **404** error is returned.
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```rust
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#[post("/user", data = "<new_user>")]
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fn new_user(admin: AdminUser, new_user: Form<User>) -> T {
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...
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}
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```
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For the `new_user` handler above to be called, the following conditions must
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hold:
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* The request method must be `POST`.
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* The request path must be `/user`.
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* The request must contain `data` in its body.
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* The request metadata must authenticate an `AdminUser`.
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* The request body must be a form that parses into a `User` struct.
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'''
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[[steps]]
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name = "Processing"
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color = "purple"
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content = '''
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Next, the request is processed by an arbitrary handler. This is where most of
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the business logic in an application resides, and the part of your applications
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you’ll likely spend the most time writing. In Rocket, handlers are simply
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functions - that’s it! The only caveat is that the function’s return type must
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implement the `Responder` trait. The `new_user` function above is an example of
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a handler.
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'''
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[[steps]]
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name = "Response"
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color = "red"
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content = '''
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Finally, Rocket responds to the client by transforming the return value of the
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handler into an HTTP response. The HTTP response generated from the returned
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value depends on the type’s specific `Responder` trait implementation.
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```rust
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fn route() -> T { ... }
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```
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If the function above is used as a handler, for instance, then the type `T` must
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implement `Responder`. Rocket provides many useful responder types out of the
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box. They include:
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* `Json<T>`: Serializes the structure T into JSON and returns it to
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the client.
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* `Template`: Renders a template file and returns it to the client.
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* `Redirect`: Returns a properly formatted HTTP redirect.
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* `NamedFile`: Streams a given file to the client with the
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Content-Type taken from the file’s extension.
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* `Stream`: Streams data to the client from an arbitrary `Read` value.
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* Many Primitive Types: `String`, `&str`, `File`, `Option`, `Result`, and
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others all implement the `Responder` trait.
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'''
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