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actix-web/src/data.rs

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use std::ops::Deref;
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use std::sync::Arc;
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use actix_http::error::{Error, ErrorInternalServerError};
use actix_http::Extensions;
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use futures_util::future::{err, ok, LocalBoxFuture, Ready};
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use crate::dev::Payload;
use crate::extract::FromRequest;
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use crate::request::HttpRequest;
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/// Application data factory
pub(crate) trait DataFactory {
fn create(&self, extensions: &mut Extensions) -> bool;
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}
pub(crate) type FnDataFactory =
Box<dyn Fn() -> LocalBoxFuture<'static, Result<Box<dyn DataFactory>, ()>>>;
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/// Application data.
///
/// Application data is an arbitrary data attached to the app.
/// Application data is available to all routes and could be added
/// during application configuration process
/// with `App::data()` method.
///
/// Application data could be accessed by using `Data<T>`
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/// extractor where `T` is data type.
///
/// **Note**: http server accepts an application factory rather than
/// an application instance. Http server constructs an application
/// instance for each thread, thus application data must be constructed
/// multiple times. If you want to share data between different
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/// threads, a shareable object should be used, e.g. `Send + Sync`. Application
/// data does not need to be `Send` or `Sync`. Internally `Data` type
/// uses `Arc`. if your data implements `Send` + `Sync` traits you can
/// use `web::Data::new()` and avoid double `Arc`.
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///
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/// If route data is not set for a handler, using `Data<T>` extractor would
/// cause *Internal Server Error* response.
///
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/// ```rust
/// use std::sync::Mutex;
/// use actix_web::{web, App, HttpResponse, Responder};
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///
/// struct MyData {
/// counter: usize,
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/// }
///
/// /// Use `Data<T>` extractor to access data in handler.
/// async fn index(data: web::Data<Mutex<MyData>>) -> impl Responder {
/// let mut data = data.lock().unwrap();
/// data.counter += 1;
/// HttpResponse::Ok()
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/// }
///
/// fn main() {
/// let data = web::Data::new(Mutex::new(MyData{ counter: 0 }));
///
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/// let app = App::new()
/// // Store `MyData` in application storage.
/// .app_data(data.clone())
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/// .service(
/// web::resource("/index.html").route(
/// web::get().to(index)));
/// }
/// ```
#[derive(Debug)]
pub struct Data<T: ?Sized>(Arc<T>);
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impl<T> Data<T> {
/// Create new `Data` instance.
///
/// Internally `Data` type uses `Arc`. if your data implements
/// `Send` + `Sync` traits you can use `web::Data::new()` and
/// avoid double `Arc`.
pub fn new(state: T) -> Data<T> {
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Data(Arc::new(state))
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}
/// Get reference to inner app data.
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pub fn get_ref(&self) -> &T {
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self.0.as_ref()
}
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/// Convert to the internal Arc<T>
pub fn into_inner(self) -> Arc<T> {
self.0
}
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}
impl<T: ?Sized> Deref for Data<T> {
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type Target = Arc<T>;
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fn deref(&self) -> &Arc<T> {
&self.0
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}
}
impl<T: ?Sized> Clone for Data<T> {
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fn clone(&self) -> Data<T> {
Data(self.0.clone())
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}
}
impl<T: ?Sized> From<Arc<T>> for Data<T> {
fn from(arc: Arc<T>) -> Self {
Data(arc)
}
}
impl<T: ?Sized + 'static> FromRequest for Data<T> {
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type Config = ();
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type Error = Error;
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type Future = Ready<Result<Self, Error>>;
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#[inline]
fn from_request(req: &HttpRequest, _: &mut Payload) -> Self::Future {
if let Some(st) = req.app_data::<Data<T>>() {
ok(st.clone())
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} else {
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log::debug!(
"Failed to construct App-level Data extractor. \
Request path: {:?}",
req.path()
);
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err(ErrorInternalServerError(
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"App data is not configured, to configure use App::data()",
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))
}
}
}
impl<T: ?Sized + 'static> DataFactory for Data<T> {
fn create(&self, extensions: &mut Extensions) -> bool {
if !extensions.contains::<Data<T>>() {
extensions.insert(Data(self.0.clone()));
true
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} else {
false
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}
}
}
#[cfg(test)]
mod tests {
use actix_service::Service;
use std::sync::atomic::{AtomicUsize, Ordering};
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use super::*;
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use crate::http::StatusCode;
use crate::test::{self, init_service, TestRequest};
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use crate::{web, App, HttpResponse};
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#[actix_rt::test]
async fn test_data_extractor() {
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let mut srv = init_service(App::new().data("TEST".to_string()).service(
web::resource("/").to(|data: web::Data<String>| {
assert_eq!(data.to_lowercase(), "test");
HttpResponse::Ok()
}),
))
.await;
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let req = TestRequest::default().to_request();
let resp = srv.call(req).await.unwrap();
assert_eq!(resp.status(), StatusCode::OK);
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let mut srv =
init_service(App::new().data(10u32).service(
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web::resource("/").to(|_: web::Data<usize>| HttpResponse::Ok()),
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))
.await;
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let req = TestRequest::default().to_request();
let resp = srv.call(req).await.unwrap();
assert_eq!(resp.status(), StatusCode::INTERNAL_SERVER_ERROR);
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}
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#[actix_rt::test]
async fn test_app_data_extractor() {
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let mut srv =
init_service(App::new().app_data(Data::new(10usize)).service(
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web::resource("/").to(|_: web::Data<usize>| HttpResponse::Ok()),
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))
.await;
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let req = TestRequest::default().to_request();
let resp = srv.call(req).await.unwrap();
assert_eq!(resp.status(), StatusCode::OK);
let mut srv =
init_service(App::new().app_data(Data::new(10u32)).service(
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web::resource("/").to(|_: web::Data<usize>| HttpResponse::Ok()),
))
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.await;
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let req = TestRequest::default().to_request();
let resp = srv.call(req).await.unwrap();
assert_eq!(resp.status(), StatusCode::INTERNAL_SERVER_ERROR);
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}
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#[actix_rt::test]
async fn test_route_data_extractor() {
let mut srv = init_service(
App::new().service(
web::resource("/")
.data(10usize)
.route(web::get().to(|_data: web::Data<usize>| HttpResponse::Ok())),
),
)
.await;
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let req = TestRequest::default().to_request();
let resp = srv.call(req).await.unwrap();
assert_eq!(resp.status(), StatusCode::OK);
// different type
let mut srv = init_service(
App::new().service(
web::resource("/")
.data(10u32)
.route(web::get().to(|_: web::Data<usize>| HttpResponse::Ok())),
),
)
.await;
let req = TestRequest::default().to_request();
let resp = srv.call(req).await.unwrap();
assert_eq!(resp.status(), StatusCode::INTERNAL_SERVER_ERROR);
}
#[actix_rt::test]
async fn test_override_data() {
let mut srv = init_service(App::new().data(1usize).service(
web::resource("/").data(10usize).route(web::get().to(
|data: web::Data<usize>| {
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assert_eq!(**data, 10);
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HttpResponse::Ok()
},
)),
))
.await;
let req = TestRequest::default().to_request();
let resp = srv.call(req).await.unwrap();
assert_eq!(resp.status(), StatusCode::OK);
}
#[actix_rt::test]
async fn test_data_drop() {
struct TestData(Arc<AtomicUsize>);
impl TestData {
fn new(inner: Arc<AtomicUsize>) -> Self {
let _ = inner.fetch_add(1, Ordering::SeqCst);
Self(inner)
}
}
impl Clone for TestData {
fn clone(&self) -> Self {
let inner = self.0.clone();
let _ = inner.fetch_add(1, Ordering::SeqCst);
Self(inner)
}
}
impl Drop for TestData {
fn drop(&mut self) {
let _ = self.0.fetch_sub(1, Ordering::SeqCst);
}
}
let num = Arc::new(AtomicUsize::new(0));
let data = TestData::new(num.clone());
assert_eq!(num.load(Ordering::SeqCst), 1);
let srv = test::start(move || {
let data = data.clone();
App::new()
.data(data)
.service(web::resource("/").to(|_data: Data<TestData>| async { "ok" }))
});
assert!(srv.get("/").send().await.unwrap().status().is_success());
srv.stop().await;
assert_eq!(num.load(Ordering::SeqCst), 0);
}
#[actix_rt::test]
async fn test_data_from_arc() {
let data_new = Data::new(String::from("test-123"));
let data_from_arc = Data::from(Arc::new(String::from("test-123")));
assert_eq!(data_new.0, data_from_arc.0)
}
#[actix_rt::test]
async fn test_data_from_dyn_arc() {
trait TestTrait {
fn get_num(&self) -> i32;
}
struct A {}
impl TestTrait for A {
fn get_num(&self) -> i32 {
42
}
}
// This works when Sized is required
let dyn_arc_box: Arc<Box<dyn TestTrait>> = Arc::new(Box::new(A {}));
let data_arc_box = Data::from(dyn_arc_box);
// This works when Data Sized Bound is removed
let dyn_arc: Arc<dyn TestTrait> = Arc::new(A {});
let data_arc = Data::from(dyn_arc);
assert_eq!(data_arc_box.get_num(), data_arc.get_num())
}
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}