A light HTTP framework for Rust, with REST-like features. The main purpose of Rustful is to create a simple, modular and non-intrusive foundation for HTTP applications. It has a mainly stateless structure, which naturally allows it to run both as one single server and as multiple instances in a cluster.
Some of the features are:
Add the following lines to your Cargo.toml
file:
[dependencies]
rustful = "0.9"
Some parts of Rustful can be toggled using Cargo features:
ssl
- Enable SSL, and thereby HTTPS. Enabled by default.multipart
- Enable parsing of multipart/form-data
requests. Enabled by default.Rustful support SSL (HTTPS), but does not provide the actual SSL connection. It's however compatible with anything that's made for the same Hyper version, so all you have to do is find the one that suits your needs and plug it into the server:
let server_result = Server {
handlers: router,
host: 8080.into(),
..Server::default()
}.run_https(my_ssl_server);
Here is a simple example of what a simple project could look like. Visit
http://localhost:8080
or http://localhost:8080/Olivia
(if your name is
Olivia) to try it.
//Include macros to be able to use `insert_routes!`.
#[macro_use]
extern crate log;
extern crate env_logger;
extern crate rustful;
use std::error::Error;
use rustful::{Server, Context, Response, DefaultRouter};
fn say_hello(context: Context, response: Response) {
//Get the value of the path variable `:person`, from below.
let person = match context.variables.get("person") {
Some(name) => name,
None => "stranger".into()
};
//Use the name from the path variable to say hello.
response.send(format!("Hello, {}!", person));
}
fn main() {
env_logger::init().unwrap();
//Create a DefaultRouter and fill it with handlers.
let mut router = DefaultRouter::<fn(Context, Response)>::new();
router.build().many(|mut node| {
//Handle requests for root...
node.then().on_get(say_hello);
//...and one level below.
//`:person` is a path variable and it will be accessible in the handler.
node.path(":person").then().on_get(say_hello);
});
//Build and run the server.
let server_result = Server {
handlers: router,
//Turn a port number into an IPV4 host address (0.0.0.0:8080 in this case).
host: 8080.into(),
//Use default values for everything else.
..Server::default()
}.run();
match server_result {
Ok(_server) => {},
Err(e) => error!("could not start server: {}", e.description())
}
}
Contributions are always welcome, even if it's a small typo fix (or maybe I should say "especially typo fixes"). You can fork the project and open a pull request with your changes, or create an issue if you just want to report or request something. Are you not sure about how to implement your change? Is it still a work in progress? Don't worry. You can still open a pull request where we can discuss it and do it step by step.
New features are as welcome as fixes, so pull requests and proposals with enhancements are very much appreciated, but please explain your feature and give a good motivation to why it should be included. It makes things much easier, both for reviewing the feature and for those who are not as familiar with how things work. You can always open an issue where we can discuss the feature and see if it should be included. Asking is better than assuming!
Rustful is tested on Linux, using Travis, and on Windows, using AppVeyor and a pull request will not be approved unless it passes these tests. It is therefore a good idea to run tests locally, before pushing your changes, so here is a small list of useful commands:
cargo test
- Basic unit, documentation and compile tests.cargo build --no-default-features
- Check if the most minimal version of Rustful builds.cargo build --no-default-features --features "feature1 feature2"
- Check if Rustful with only feature1
and feature2
enabled builds.cargo run --example example_name
- check if the example example_name
behaves as expected (see the example
directory).Travis and AppVeyor will run the tests with the strict
feature enabled. This
turns warnings and missing documentation into compile errors, which may be
harsh, but it's for the sake of the user. Everything should have a description
and it's not nice to see warnings from your dependencies when you are
compiling your project, right? It's therefore recommend that you run your own
tests with the strict
feature enabled before pushing, just to see if you
missed something.
User facing Cargo features are automatically gathered from Cargo.toml
and
tested one at the time, using scripts/test_features.sh
. The lack of public
and private features forces us to use a special annotation to differ between
internal and user facing feature. Here is an simple example snippet of how the
Cargo.toml
is expected to look:
#...
[features]
default = ["feature_a", "feature_b"]
feature_a = ["feature_c"]
feature_b = []
#internal
feature_c = []
[dependencies.optional_lib]
#feature
optional=true
#...
Features that are supposed to be available to the user has to be declared
before the #internal
comment. This will tell the test script that these are
supposed to be tested.
Dependency libraries can also be features, so we have to annotate these as
well. Each dependency that is supposed to work as a user facing feature will
need a #feature
comment somewhere within its declaration. This will only
work with features that are declared using the above form, and not the
feature_lib = { ... }
form.
Licensed under either of
at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.