Sessions for Rocket.rs
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rocket_session/README.md

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# Sessions for Rocket.rs
Adding cookie-based sessions to a rocket application is extremely simple with this crate.
Sessions are used to share data between related requests, such as user authentication, shopping basket,
form values that failed validation for re-filling, etc.
## Configuration
The implementation is generic to support any type as session data: a custom struct, `String`,
`HashMap`, or perhaps `serde_json::Value`. You're free to choose.
The session lifetime, cookie name, and other parameters can be configured by calling chained
methods on the fairing. When a session expires, the data associated with it is dropped.
## Usage
To use session in a route, first make sure you have the fairing attached by calling
`rocket.attach(Session::fairing())` at start-up, and then add something like `session : Session`
to the parameter list of your route(s). Everything else--session init, expiration, cookie
management--is done for you behind the scenes.
Session data is accessed in a closure run in the session context, using the `session.tap()`
method. This closure runs inside a per-session mutex, avoiding simultaneous mutation
from different requests. Try to *avoid lengthy operations inside the closure*,
as it effectively blocks any other request to session-enabled routes by the client.
Every request to a session-enabled route extends the session's lifetime to the full
configured time (defaults to 1 hour). Automatic clean-up removes expired sessions to make sure
the session list does not waste memory.
## Examples
(More examples are in the examples folder)
### Basic Example
This simple example uses u64 as the session variable; note that it can be a struct, map, or anything else,
it just needs to implement `Send + Sync + Default`.
```rust
#![feature(proc_macro_hygiene, decl_macro)]
#[macro_use] extern crate rocket;
use std::time::Duration;
// It's convenient to define a type alias:
pub type Session<'a> = rocket_session::Session<'a, u64>;
fn main() {
rocket::ignite()
.attach(Session::fairing())
.mount("/", routes![index])
.launch();
}
#[get("/")]
fn index(session: Session) -> String {
let count = session.tap(|n| {
// Change the stored value (it is &mut)
*n += 1;
// Return something to the caller.
// This can be any type, 'tap' is generic.
*n
});
format!("{} visits", count)
}
```
## Extending Session by a Trait
The `.tap()` method is powerful, but sometimes you may wish for something more convenient.
Here is an example of using a custom trait and the `json_dotpath` crate to implement
a polymorphic store based on serde serialization.
Note that this approach is prone to data races, since every method contains its own `.tap()`.
It may be safer to simply call the `.dot_*()` methods manually in one shared closure.
```rust
use serde_json::Value;
use serde::de::DeserializeOwned;
use serde::Serialize;
use json_dotpath::DotPaths;
pub type Session<'a> = rocket_session::Session<'a, serde_json::Map<String, Value>>;
pub trait SessionAccess {
fn get<T: DeserializeOwned>(&self, path: &str) -> Option<T>;
fn take<T: DeserializeOwned>(&self, path: &str) -> Option<T>;
fn replace<O: DeserializeOwned, N: Serialize>(&self, path: &str, new: N) -> Option<O>;
fn set<T: Serialize>(&self, path: &str, value: T);
fn remove(&self, path: &str) -> bool;
}
impl<'a> SessionAccess for Session<'a> {
fn get<T: DeserializeOwned>(&self, path: &str) -> Option<T> {
self.tap(|data| data.dot_get(path))
}
fn take<T: DeserializeOwned>(&self, path: &str) -> Option<T> {
self.tap(|data| data.dot_take(path))
}
fn replace<O: DeserializeOwned, N: Serialize>(&self, path: &str, new: N) -> Option<O> {
self.tap(|data| data.dot_replace(path, new))
}
fn set<T: Serialize>(&self, path: &str, value: T) {
self.tap(|data| data.dot_set(path, value));
}
fn remove(&self, path: &str) -> bool {
self.tap(|data| data.dot_remove(path))
}
}
```