Rocket/site/guide/12-faq.md

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FAQ

Below you'll find a collection of commonly asked questions and answers. If you have suggestions for questions you'd like to see answered here, comment on the discussion thread.

About Rocket

Is Rocket a monolithic framework like Rails? Or is it more like Flask? #

Neither!

Rocket's core is small yet complete with respect to security and correctness. It mainly consists of:

  • Guard traits like FromRequest and FromData.
  • Derive macros for all common traits.
  • Attribute macros for routing.
  • Thorough compile and launch-time checking.
  • Zero-copy parsers and validators for common formats like multipart and SSE.
  • Syntax sugar extensions for features like async streams and traits.
  • Optional features for functionality like TLS, secrets, and so on.

The goal is for functionality like templating, sessions, ORMs, and so on to be implemented entirely outside of Rocket while maintaining a first-class feel and experience. Indeed, crates like rocket_dyn_templates and rocket_db_pools do just this. As a result, Rocket is neither "bare-bones" nor is it a kitchen sink for all possible features.

Unlike other frameworks, Rocket makes it its mission to help you avoid security and correctness blunders. It does this by including, out-of-the-box:

Of course, this functionality comes at a compile-time cost (but notably, not at a runtime cost), impacting Rocket's clean build-time. For comparison, here's what building "Hello, world!" for the first time in popular Rust web frameworks looks like:

Framework Dependencies Build Time
Rocket 0.5-rc.2 148 44s
Actix-Web 4.0-beta.8 175 47s
Tide 0.16 209 34s
Warp 0.3 148 37s

· Measurements taken on a MacBookPro15,1 Intel Core i9 @ 2.9GHZ, macOS 11.2.1, Rust 1.53 stable. Best of 3.
· Rocket includes features like multipart parsing and static file serving that would require additional deps in other frameworks.

Of course, iterative build-time is nearly identical for all frameworks, and the time can be further reduced by using faster linkers like lld. We think the trade-off is worth it. Rocket will never compromise security, correctness, or usability to "win" at benchmarks of any sort.

I want a small and compact web framework. Is Rocket it? #
I want a web framework with all the bells and whistles. Is Rocket it? #
Can I use Rocket in production? Should I? It's only v0.x! #

We enthusiastically recommend using Rocket in production, with the following non-exhaustive list of caveats:

  1. Run Rocket behind a reverse proxy like HAProxy or in a production load balancing environment. Rocket (Hyper) doesn't employ any defenses against DDoS attacks or certain DoS attacks which can be mitigated by an external service.

  2. Use a TLS termination proxy (perhaps from 1.) for zero-downtown certificate rotation.

  3. Properly configure your databases and database pools, especially with respect to the pool size.

  4. Ensure no blocking I/O happens outside of spawn_blocking() invocations.

While Rocket is still in the 0.x phase, the version number is purely a stylistic choice. In fact, we consider Rocket to be the most mature web framework in the Rust ecosystem. To our knowledge, Rocket is the only Rust web framework that correctly implements:

  • Server-Sent Events
  • Graceful Shutdown
  • Form Parsing with Arbitrarily Structure
  • Zero-Copy, RFC Conforming URI Types
  • Ambiguity-Free Routing
  • Streamed Multipart Uploads

If you're coming from a different ecosystem, you should feel comfortable considering Rocket's v0.x as someone else's vx.0. Rust and Cargo's semver policy, and Rocket's strict adherence to it, ensures that Rocket will never break your application when upgrading from 0.x.y to 0.x.z, where z >= y. Furthermore, we backport all security and correctness patches to the previous major release (0.{x-1}.y), so your application remains secure if you need time to upgrade.

Is Rocket slow? Is Rocket fast? #

Rocket is pretty fast.

A commonly repeated myth is that Rocket's great usability comes at the cost of runtime performance. This is false. Rocket's usability derives largely from compile-time checks with zero bearing on runtime performance.

So what about benchmarks? Well, benchmarking is hard, and besides often being conducted incorrectly*, often appear to say more than they do. So, when you see a benchmark for "Hello, world!", you should know that the benchmark's relevance doesn't extend far beyond those specific "Hello, world!" servers and the specific way the measurement was taken. In other words, it provides some baseline that is hard to extrapolate to real-world use-cases, your use-case.

Nevertheless, here are some things you can consider as generally true about Rocket applications:

  • They'll perform much, much better than those written in scripting languages like Python or Ruby.
  • They'll perform much better than those written in VM or JIT languages like JavaScript or Java.
  • They'll perform a bit better than those written in compiled-to-native but GC'd languages like Go.
  • They'll perform competitively with those written in compiled-to-native, non-GC'd languages like Rust or C.

Again, we emphasize generally true. It is trivial to write a Rocket application that is slower than a similar Python application.

Besides a framework's internal performance, you should also consider whether it enables your application itself to perform well. Rocket takes great care to enable your application to perform as little work as possible through unique-to-Rocket features like managed state, request-local state, and zero-copy parsing and deserialization.

* A common mistake is to pit against Rocket's "Hello, world!" without normalizing for response size, especially security headers.

What are some examples of "big" apps written in Rocket? #

Here are some notable projects and websites in Rocket we're aware of:

Let us know if you have a notable, public facing application written in Rocket you'd like to see here!

When will version `$y` be released? Why does it take so long? #

Rocket represents an ecosystem-wide effort to create a web framework that enables writing web applications with unparalleled security, performance, and usability. From design to implementation to documentation, Rocket is carefully crafted to ensure the greatest productivity and reliability with the fewest surprises. Our goal is to make Rocket a compelling choice across all languages.

Accomplishing this takes time, and our efforts extend to the entire ecosystem. For example, work for Rocket v0.5 included:

A version of Rocket is released whenever it is feature-complete and exceeds feature, security, and usability parity with the previous version. As a result, specifying a release date is nearly impossible. We are always willing to delay a release if these properties are not readily evident.

We know it can be frustrating, but we hope you'll agree that Rocket is worth the wait.

How To

Can I, and if so how, do I use WebSockets? #

Rocket doesn't support WebSockets quite yet. We're working on it.

That being said, Rocket does suport Server-Sent Events, which allows for real-time unidirectional communication from the server to the client. This is often sufficient for many of the applications that WebSockets are typically used for. For instance, the chat example uses SSE to implement a real-time, multiroom chat application.

Should I use global state via something like `lazy_static!`? #

No. Rocket's managed state provides a better alternative.

While it may be convenient or comfortable to use global state, the downsides are numerous. They include:

  • The inability to test your application with different state.
  • The inability to run your application on different threads with different state.
  • The inability to know the state a route accesses by looking at its signature.
How do I handle file uploads? What is this "multipart" in my stream? #

For a quick example on how to handle file uploads, see multipart forms. The gist is: use Form<TempFile> as a data guard.

File uploads are encoded and transmitted by the browser as multipart forms. The raw stream, as seen by Data for example, thus contains the necessary metadata to encode the form. Rocket's Form data guard can parse these form submissions into any type that implements FromForm. This includes types like TempFile which streams the decoded data to disk for persistence.

How do I get an `&Request` in a handler? #

You don't!

Rocket's philosophy is that as much of the request should be validated and converted into useful typed values before being processed. Allowing a Request to be handled directly is incompatible with this idea.

Instead, Rocket's handlers work through guards, reified as traits, which validate and extract parts of a request as needed. Rocket automatically invokes these guards for you, so custom guards are write-once-use-everywhere. Rocket won't invoke a handler with failing guards. This way, handlers only deal with fully validated, typed, secure values.

Rocket provides all of the guard implementations you would expect out-of-the-box, and you can implement your own, too. See the following:

How do I add a header to a response? #

That depends on the header!

Any "transport" headers (Content-Length, Transfer-Encoding, etc.) are automatically set by Rocket and cannot be directly overridden for correctness reasons. The rest are set by a route's Responder.

Status

Rocket automatically sets a Status header for all responses. If a Responder doesn't explicitly set a status, it defaults to 200. Some responders, like Option<T>, do set a status. See Responder and the status module for details on setting a custom Status or overriding an existing one.

Content-Type

Rocket automatically sets a Content-Type header for types it implements Responder for, so in the common case, there's nothing to do. This includes types like &str, &[u8], NamedFile, and so on. The content module docs details setting a custom Content-Type or overriding an existing one.

Everything Else

To add a custom header, you'll need a custom Responder. Not to worry! Responder can be derived in almost all cases. If a type for the header you want to add already exists, you can directly derive Responder for a struct that contains the header value, which adds the header to the response:

# #[macro_use] extern crate rocket;
# use rocket::http::Header;

# type HeaderType = Header<'static>;

# impl<T> From<T> for MyResponder<T> {
#     fn from(inner: T) -> Self {
#         MyResponder { inner, header: Header::new("X-My-Header", "some value") }
#     }
# }

#[derive(Responder)]
struct MyResponder<T> {
    inner: T,
    header: HeaderType,
}

#[get("/")]
fn with_header() -> MyResponder<&'static str> {
    MyResponder::from("Hello, world!")
}

A HeaderType won't exist for custom headers, but you can define your own type. As long as it implements Into<Header> for Rocket's Header, the type can be used as a field in derived struct.

Alternatively, you can always implement Responder directly. Make sure to leverage existing responders in your implementation. For example, don't serialize JSON manually. Instead, use the existing Json responder, like in the example below:

# #[derive(rocket::serde::Serialize)]
# #[serde(crate = "rocket::serde")]
# struct Person { name: String, age: usize };

use rocket::request::Request;
use rocket::response::{self, Response, Responder};
use rocket::serde::json::Json;

impl<'r> Responder<'r, 'static> for Person {
    fn respond_to(self, req: &'r Request<'_>) -> response::Result<'static> {
        Response::build_from(Json(&self).respond_to(req)?)
            .raw_header("X-Person-Name", self.name)
            .raw_header("X-Person-Age", self.age.to_string())
            .ok()
    }
}
How do I make one handler return different responses or status codes? #

If you're returning two different responses, use a Result<T, E> or an Either<A, B>.

If you need to return more than two kinds, derive a custom Responder enum:

# use rocket::response::Responder;
use rocket::fs::NamedFile;
use rocket::http::ContentType;

#[derive(Responder)]
enum Error<'r, T> {
    #[response(status = 400)]
    Unauthorized(T),
    #[response(status = 404)]
    NotFound(NamedFile),
    #[response(status = 500)]
    A(&'r str, ContentType),
}
How do I make Rocket reload automatically when I change source code? #

In debug mode, Rocket automatically reloads templates for you. So if all you need is live template reloading, Rocket's got you covered.

For everything else, you'll need to use an external tool like cargo-watch, watchexec or entr. With cargo-watch, you can automatically rebuild and run a Rocket application by executing:

cargo watch -x run

To only restart on successful compilations, see this note.

How do I access managed state outside of a Rocket-related context? #

Use an Arc, like this:

# use rocket::*;
use std::sync::Arc;

#[launch]
fn rocket() -> _ {
    # struct MyState;
    let state = Arc::new(MyState);

    let external = state.clone();
    std::thread::spawn(move || {
        let use_state = external;
    });

    rocket::build().manage(state)
}
How do I make Rocket a _part_ of my application as opposed to the whole thing? #

Use the #[main] attribute and manually call launch():

#[rocket::main]
async fn main() {
    # let should_start_server = false;
    if should_start_server {
        let result = rocket::build().launch().await;
    } else {
        // do something else
    }
}

The cost to using the attribute is imperceptible and guarantees compatibility with Rocket's async I/O.

Debugging

Is example `foo` broken? It doesn't work for me. #

Almost certainly not.

Every example and code snippet you see in published documentation is tested by the CI on every commit, and we only publish docs that pass the CI. Unless the CI environment is broken, the examples cannot be wrong.

Common mistakes when running examples include:

  • Looking at an example for version y but depending on version x. Select the proper git tag!
  • Looking at outdated examples on StackOverflow or Google. Check the date/version!
  • Not configuring the correct dependencies. See the example's Cargo.toml!
The trait bound `rocket::Responder` (`FromRequest`, etc.) is not satisfied. #

If you're fairly certain a type implements a given Rocket trait but still get an error like:

error[E0277]: the trait bound `Foo: Responder<'_, '_>` is not satisfied
 --> src\main.rs:4:20
  |
4 | fn foo() -> Foo
  |             ^^^ the trait `Responder<'_, '_>` is not implemented for `Foo`
  |
  = note: required by `respond_to`

...then you're almost certainly depending, perhaps transitively, on two different versions of a single library. For example, you may be depending on rocket which depends on time 0.3 while also depending directly on time 0.2. Or you may depending on rocket from crates.io while depending on a library that depends on rocket from git. A common instance of this mistake is to depend on a contrib library from git while also depending on a crates.io version of Rocket or vice-versa:

rocket = "0.5.0-rc.1"
rocket_db_pools = { git = "https://github.com/SergioBenitez/Rocket.git" }

This is never correct. If libraries or applications interact via types from a common library, those libraries or applications must specify the same version of that common library. This is because in Rust, types from two different versions of a library or from different providers (like git vs. crates.io) are always considered distinct, even if they have the same name. Therefore, even if a type implements a trait from one library, it does not implement the trait from the other library (since it is considered to be a different, distinct library). In other words, you can never mix two different published versions of Rocket, a published version and a git version, or two instances from different git revisions.