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actix-web/src/test.rs

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//! Various helpers for Actix applications to use during testing.
use std::cell::RefCell;
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use std::rc::Rc;
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use actix_http::http::header::{Header, HeaderName, IntoHeaderValue};
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use actix_http::http::{HttpTryFrom, Method, Version};
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use actix_http::test::TestRequest as HttpTestRequest;
use actix_http::{PayloadStream, Request};
use actix_router::{Path, ResourceDef, Url};
use actix_rt::Runtime;
use actix_server_config::ServerConfig;
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use actix_service::{IntoNewService, NewService, Service};
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use bytes::Bytes;
use futures::Future;
use crate::config::{AppConfig, AppConfigInner};
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use crate::request::HttpRequest;
use crate::rmap::ResourceMap;
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use crate::service::{ServiceFromRequest, ServiceRequest, ServiceResponse};
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thread_local! {
static RT: RefCell<Runtime> = {
RefCell::new(Runtime::new().unwrap())
};
}
/// Runs the provided future, blocking the current thread until the future
/// completes.
///
/// This function can be used to synchronously block the current thread
/// until the provided `future` has resolved either successfully or with an
/// error. The result of the future is then returned from this function
/// call.
///
/// Note that this function is intended to be used only for testing purpose.
/// This function panics on nested call.
pub fn block_on<F>(f: F) -> Result<F::Item, F::Error>
where
F: Future,
{
RT.with(move |rt| rt.borrow_mut().block_on(f))
}
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/// This method accepts application builder instance, and constructs
/// service.
///
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/// ```rust,ignore
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/// use actix_web::{test, App, HttpResponse, http::StatusCode};
/// use actix_service::Service;
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///
/// fn main() {
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/// let mut app = test::init_service(
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/// App::new()
/// .resource("/test", |r| r.to(|| HttpResponse::Ok()))
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/// );
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///
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/// // Create request object
/// let req = test::TestRequest::with_uri("/test").to_request();
///
/// // Execute application
/// let resp = test::block_on(app.call(req)).unwrap();
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/// assert_eq!(resp.status(), StatusCode::OK);
/// }
/// ```
pub fn init_service<R, S, B, E>(
app: R,
) -> impl Service<Request = Request, Response = ServiceResponse<B>, Error = E>
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where
R: IntoNewService<S, ServerConfig>,
S: NewService<
ServerConfig,
Request = Request,
Response = ServiceResponse<B>,
Error = E,
>,
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S::InitError: std::fmt::Debug,
{
let cfg = ServerConfig::new("127.0.0.1:8080".parse().unwrap());
block_on(app.into_new_service().new_service(&cfg)).unwrap()
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}
/// Calls service and waits for response future completion.
///
/// ```rust,ignore
/// use actix_web::{test, App, HttpResponse, http::StatusCode};
/// use actix_service::Service;
///
/// fn main() {
/// let mut app = test::init_service(
/// App::new()
/// .resource("/test", |r| r.to(|| HttpResponse::Ok()))
/// );
///
/// // Create request object
/// let req = test::TestRequest::with_uri("/test").to_request();
///
/// // Call application
/// let resp = test::call_succ_service(&mut app, req);
/// assert_eq!(resp.status(), StatusCode::OK);
/// }
/// ```
pub fn call_success<S, R, B, E>(app: &mut S, req: R) -> S::Response
where
S: Service<Request = R, Response = ServiceResponse<B>, Error = E>,
E: std::fmt::Debug,
{
block_on(app.call(req)).unwrap()
}
/// Test `Request` builder.
///
/// For unit testing, actix provides a request builder type and a simple handler runner. TestRequest implements a builder-like pattern.
/// You can generate various types of request via TestRequest's methods:
/// * `TestRequest::to_request` creates `actix_http::Request` instance.
/// * `TestRequest::to_service` creates `ServiceRequest` instance, which is used for testing middlewares and chain adapters.
/// * `TestRequest::to_from` creates `ServiceFromRequest` instance, which is used for testing extractors.
/// * `TestRequest::to_http_request` creates `HttpRequest` instance, which is used for testing handlers.
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///
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/// ```rust,ignore
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/// # use futures::IntoFuture;
/// use actix_web::{test, HttpRequest, HttpResponse, HttpMessage};
/// use actix_web::http::{header, StatusCode};
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///
/// fn index(req: HttpRequest) -> HttpResponse {
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/// if let Some(hdr) = req.headers().get(header::CONTENT_TYPE) {
/// HttpResponse::Ok().into()
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/// } else {
/// HttpResponse::BadRequest().into()
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/// }
/// }
///
/// fn main() {
/// let req = test::TestRequest::with_header("content-type", "text/plain")
/// .to_http_request();
///
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/// let resp = test::block_on(index(req).into_future()).unwrap();
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/// assert_eq!(resp.status(), StatusCode::OK);
///
/// let req = test::TestRequest::default().to_http_request();
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/// let resp = test::block_on(index(req).into_future()).unwrap();
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/// assert_eq!(resp.status(), StatusCode::BAD_REQUEST);
/// }
/// ```
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pub struct TestRequest {
req: HttpTestRequest,
rmap: ResourceMap,
config: AppConfigInner,
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}
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impl Default for TestRequest {
fn default() -> TestRequest {
TestRequest {
req: HttpTestRequest::default(),
rmap: ResourceMap::new(ResourceDef::new("")),
config: AppConfigInner::default(),
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}
}
}
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impl TestRequest {
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/// Create TestRequest and set request uri
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pub fn with_uri(path: &str) -> TestRequest {
TestRequest {
req: HttpTestRequest::default().uri(path).take(),
rmap: ResourceMap::new(ResourceDef::new("")),
config: AppConfigInner::default(),
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}
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}
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/// Create TestRequest and set header
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pub fn with_hdr<H: Header>(hdr: H) -> TestRequest {
TestRequest {
req: HttpTestRequest::default().set(hdr).take(),
config: AppConfigInner::default(),
rmap: ResourceMap::new(ResourceDef::new("")),
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}
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}
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/// Create TestRequest and set header
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pub fn with_header<K, V>(key: K, value: V) -> TestRequest
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where
HeaderName: HttpTryFrom<K>,
V: IntoHeaderValue,
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{
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TestRequest {
req: HttpTestRequest::default().header(key, value).take(),
config: AppConfigInner::default(),
rmap: ResourceMap::new(ResourceDef::new("")),
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}
}
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/// Create TestRequest and set method to `Method::GET`
pub fn get() -> TestRequest {
TestRequest {
req: HttpTestRequest::default().method(Method::GET).take(),
config: AppConfigInner::default(),
rmap: ResourceMap::new(ResourceDef::new("")),
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}
}
/// Create TestRequest and set method to `Method::POST`
pub fn post() -> TestRequest {
TestRequest {
req: HttpTestRequest::default().method(Method::POST).take(),
config: AppConfigInner::default(),
rmap: ResourceMap::new(ResourceDef::new("")),
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}
}
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/// Set HTTP version of this request
pub fn version(mut self, ver: Version) -> Self {
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self.req.version(ver);
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self
}
/// Set HTTP method of this request
pub fn method(mut self, meth: Method) -> Self {
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self.req.method(meth);
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self
}
/// Set HTTP Uri of this request
pub fn uri(mut self, path: &str) -> Self {
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self.req.uri(path);
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self
}
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/// Set a header
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pub fn set<H: Header>(mut self, hdr: H) -> Self {
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self.req.set(hdr);
self
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}
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/// Set a header
pub fn header<K, V>(mut self, key: K, value: V) -> Self
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where
HeaderName: HttpTryFrom<K>,
V: IntoHeaderValue,
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{
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self.req.header(key, value);
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self
}
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/// Set request payload
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pub fn set_payload<B: Into<Bytes>>(mut self, data: B) -> Self {
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self.req.set_payload(data);
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self
}
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/// Set request config
pub fn config<T: 'static>(self, data: T) -> Self {
self.config.extensions.borrow_mut().insert(data);
self
}
#[cfg(test)]
/// Set request config
pub(crate) fn rmap(mut self, rmap: ResourceMap) -> Self {
self.rmap = rmap;
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self
}
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/// Complete request creation and generate `ServiceRequest` instance
pub fn to_service(mut self) -> ServiceRequest<PayloadStream> {
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let req = self.req.finish();
ServiceRequest::new(
Path::new(Url::new(req.uri().clone())),
req,
Rc::new(self.rmap),
AppConfig::new(self.config),
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)
}
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/// Complete request creation and generate `Request` instance
pub fn to_request(mut self) -> Request<PayloadStream> {
self.req.finish()
}
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/// Complete request creation and generate `HttpRequest` instance
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pub fn to_http_request(mut self) -> HttpRequest {
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let req = self.req.finish();
ServiceRequest::new(
Path::new(Url::new(req.uri().clone())),
req,
Rc::new(self.rmap),
AppConfig::new(self.config),
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)
.into_request()
}
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/// Complete request creation and generate `ServiceFromRequest` instance
pub fn to_from(mut self) -> ServiceFromRequest<PayloadStream> {
let req = self.req.finish();
let req = ServiceRequest::new(
Path::new(Url::new(req.uri().clone())),
req,
Rc::new(self.rmap),
AppConfig::new(self.config),
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);
ServiceFromRequest::new(req, None)
}
/// Runs the provided future, blocking the current thread until the future
/// completes.
///
/// This function can be used to synchronously block the current thread
/// until the provided `future` has resolved either successfully or with an
/// error. The result of the future is then returned from this function
/// call.
///
/// Note that this function is intended to be used only for testing purpose.
/// This function panics on nested call.
pub fn block_on<F>(f: F) -> Result<F::Item, F::Error>
where
F: Future,
{
block_on(f)
}
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}