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actix-web/src/application.rs

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Rust
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use std::rc::Rc;
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use handler::{AsyncResult, FromRequest, Handler, Responder, WrapHandler};
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use header::ContentEncoding;
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use http::Method;
use httprequest::HttpRequest;
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use httpresponse::HttpResponse;
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use middleware::Middleware;
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use pipeline::{Pipeline, PipelineHandler};
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use pred::Predicate;
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use resource::Resource;
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use router::{ResourceDef, Router};
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use scope::Scope;
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use server::{HttpHandler, HttpHandlerTask, IntoHttpHandler, Request};
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/// Application
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pub struct HttpApplication<S = ()> {
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state: Rc<S>,
prefix: String,
prefix_len: usize,
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inner: Rc<Inner<S>>,
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filters: Option<Vec<Box<Predicate<S>>>>,
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middlewares: Rc<Vec<Box<Middleware<S>>>>,
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}
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#[doc(hidden)]
pub struct Inner<S> {
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router: Router<S>,
encoding: ContentEncoding,
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}
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impl<S: 'static> PipelineHandler<S> for Inner<S> {
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#[inline]
fn encoding(&self) -> ContentEncoding {
self.encoding
}
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fn handle(&self, req: &HttpRequest<S>) -> AsyncResult<HttpResponse> {
self.router.handle(req)
}
}
impl<S: 'static> HttpApplication<S> {
#[cfg(test)]
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pub(crate) fn run(&self, req: Request) -> AsyncResult<HttpResponse> {
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let info = self
.inner
.router
.recognize(&req, &self.state, self.prefix_len);
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let req = HttpRequest::new(req, Rc::clone(&self.state), info);
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self.inner.handle(&req)
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}
}
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impl<S: 'static> HttpHandler for HttpApplication<S> {
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type Task = Pipeline<S, Inner<S>>;
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fn handle(&self, msg: Request) -> Result<Pipeline<S, Inner<S>>, Request> {
let m = {
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if self.prefix_len == 0 {
true
} else {
let path = msg.path();
path.starts_with(&self.prefix)
&& (path.len() == self.prefix_len
|| path.split_at(self.prefix_len).1.starts_with('/'))
}
};
if m {
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if let Some(ref filters) = self.filters {
for filter in filters {
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if !filter.check(&msg, &self.state) {
return Err(msg);
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}
}
}
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let info = self
.inner
.router
.recognize(&msg, &self.state, self.prefix_len);
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let inner = Rc::clone(&self.inner);
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let req = HttpRequest::new(msg, Rc::clone(&self.state), info);
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Ok(Pipeline::new(req, Rc::clone(&self.middlewares), inner))
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} else {
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Err(msg)
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}
}
}
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struct ApplicationParts<S> {
state: S,
prefix: String,
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router: Router<S>,
encoding: ContentEncoding,
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middlewares: Vec<Box<Middleware<S>>>,
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filters: Vec<Box<Predicate<S>>>,
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}
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/// Structure that follows the builder pattern for building application
/// instances.
pub struct App<S = ()> {
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parts: Option<ApplicationParts<S>>,
}
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impl App<()> {
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/// Create application with empty state. Application can
/// be configured with a builder-like pattern.
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pub fn new() -> App<()> {
App::with_state(())
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}
}
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impl Default for App<()> {
fn default() -> Self {
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App::new()
}
}
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impl<S> App<S>
where
S: 'static,
{
/// Create application with specified state. Application can be
/// configured with a builder-like pattern.
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///
/// State is shared with all resources within same application and
/// could be accessed with `HttpRequest::state()` method.
///
/// **Note**: http server accepts an application factory rather than
/// an application instance. Http server constructs an application
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/// instance for each thread, thus application state must be constructed
/// multiple times. If you want to share state between different
/// threads, a shared object should be used, e.g. `Arc`. Application
/// state does not need to be `Send` and `Sync`.
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pub fn with_state(state: S) -> App<S> {
App {
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parts: Some(ApplicationParts {
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state,
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prefix: "".to_owned(),
router: Router::new(ResourceDef::prefix("")),
middlewares: Vec::new(),
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filters: Vec::new(),
encoding: ContentEncoding::Auto,
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}),
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}
}
/// Get reference to the application state
pub fn state(&self) -> &S {
let parts = self.parts.as_ref().expect("Use after finish");
&parts.state
}
/// Set application prefix.
///
/// Only requests that match the application's prefix get
/// processed by this application.
///
/// The application prefix always contains a leading slash (`/`).
/// If the supplied prefix does not contain leading slash, it is
/// inserted.
///
/// Prefix should consist of valid path segments. i.e for an
/// application with the prefix `/app` any request with the paths
/// `/app`, `/app/` or `/app/test` would match, but the path
/// `/application` would not.
///
/// In the following example only requests with an `/app/` path
/// prefix get handled. Requests with path `/app/test/` would be
/// handled, while requests with the paths `/application` or
/// `/other/...` would return `NOT FOUND`. It is also possible to
/// handle `/app` path, to do this you can register resource for
/// empty string `""`
///
/// ```rust
/// # extern crate actix_web;
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/// use actix_web::{http, App, HttpResponse};
///
/// fn main() {
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/// let app = App::new()
/// .prefix("/app")
/// .resource("", |r| r.f(|_| HttpResponse::Ok())) // <- handle `/app` path
/// .resource("/", |r| r.f(|_| HttpResponse::Ok())) // <- handle `/app/` path
/// .resource("/test", |r| {
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/// r.get().f(|_| HttpResponse::Ok());
/// r.head().f(|_| HttpResponse::MethodNotAllowed());
/// })
/// .finish();
/// }
/// ```
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pub fn prefix<P: Into<String>>(mut self, prefix: P) -> App<S> {
{
let parts = self.parts.as_mut().expect("Use after finish");
let mut prefix = prefix.into();
if !prefix.starts_with('/') {
prefix.insert(0, '/')
}
parts.router.set_prefix(&prefix);
parts.prefix = prefix;
}
self
}
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/// Add match predicate to application.
///
/// ```rust
/// # extern crate actix_web;
/// # use actix_web::*;
/// # fn main() {
/// App::new()
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/// .filter(pred::Host("www.rust-lang.org"))
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/// .resource("/path", |r| r.f(|_| HttpResponse::Ok()))
/// # .finish();
/// # }
/// ```
pub fn filter<T: Predicate<S> + 'static>(mut self, p: T) -> App<S> {
{
let parts = self.parts.as_mut().expect("Use after finish");
parts.filters.push(Box::new(p));
}
self
}
/// Configure route for a specific path.
///
/// This is a simplified version of the `App::resource()` method.
/// Handler functions need to accept one request extractor
/// argument.
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///
/// This method could be called multiple times, in that case
/// multiple routes would be registered for same resource path.
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///
/// ```rust
/// # extern crate actix_web;
/// use actix_web::{http, App, HttpRequest, HttpResponse};
///
/// fn main() {
/// let app = App::new()
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/// .route("/test", http::Method::GET, |_: HttpRequest| {
/// HttpResponse::Ok()
/// })
/// .route("/test", http::Method::POST, |_: HttpRequest| {
/// HttpResponse::MethodNotAllowed()
/// });
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/// }
/// ```
pub fn route<T, F, R>(mut self, path: &str, method: Method, f: F) -> App<S>
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where
F: Fn(T) -> R + 'static,
R: Responder + 'static,
T: FromRequest<S> + 'static,
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{
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self.parts
.as_mut()
.expect("Use after finish")
.router
.register_route(path, method, f);
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self
}
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/// Configure scope for common root path.
///
/// Scopes collect multiple paths under a common path prefix.
/// Scope path can contain variable path segments as resources.
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///
/// ```rust
/// # extern crate actix_web;
/// use actix_web::{http, App, HttpRequest, HttpResponse};
///
/// fn main() {
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/// let app = App::new().scope("/{project_id}", |scope| {
/// scope
/// .resource("/path1", |r| r.f(|_| HttpResponse::Ok()))
/// .resource("/path2", |r| r.f(|_| HttpResponse::Ok()))
/// .resource("/path3", |r| r.f(|_| HttpResponse::MethodNotAllowed()))
/// });
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/// }
/// ```
///
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/// In the above example, three routes get added:
/// * /{project_id}/path1
/// * /{project_id}/path2
/// * /{project_id}/path3
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///
pub fn scope<F>(mut self, path: &str, f: F) -> App<S>
where
F: FnOnce(Scope<S>) -> Scope<S>,
{
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let scope = f(Scope::new(path));
self.parts
.as_mut()
.expect("Use after finish")
.router
.register_scope(scope);
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self
}
/// Configure resource for a specific path.
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///
/// Resources may have variable path segments. For example, a
/// resource with the path `/a/{name}/c` would match all incoming
/// requests with paths such as `/a/b/c`, `/a/1/c`, or `/a/etc/c`.
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///
/// A variable segment is specified in the form `{identifier}`,
/// where the identifier can be used later in a request handler to
/// access the matched value for that segment. This is done by
/// looking up the identifier in the `Params` object returned by
/// `HttpRequest.match_info()` method.
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///
/// By default, each segment matches the regular expression `[^{}/]+`.
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///
/// You can also specify a custom regex in the form `{identifier:regex}`:
///
/// For instance, to route `GET`-requests on any route matching
/// `/users/{userid}/{friend}` and store `userid` and `friend` in
/// the exposed `Params` object:
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///
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/// ```rust
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/// # extern crate actix_web;
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/// use actix_web::{http, App, HttpResponse};
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///
/// fn main() {
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/// let app = App::new().resource("/users/{userid}/{friend}", |r| {
/// r.get().f(|_| HttpResponse::Ok());
/// r.head().f(|_| HttpResponse::MethodNotAllowed());
/// });
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/// }
/// ```
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pub fn resource<F, R>(mut self, path: &str, f: F) -> App<S>
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where
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F: FnOnce(&mut Resource<S>) -> R + 'static,
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{
{
let parts = self.parts.as_mut().expect("Use after finish");
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// create resource
let mut resource = Resource::new(ResourceDef::new(path));
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// configure
f(&mut resource);
parts.router.register_resource(resource);
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}
self
}
/// Configure resource for a specific path.
#[doc(hidden)]
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pub fn register_resource(&mut self, resource: Resource<S>) {
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self.parts
.as_mut()
.expect("Use after finish")
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.router
.register_resource(resource);
}
/// Default resource to be used if no matching route could be found.
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pub fn default_resource<F, R>(mut self, f: F) -> App<S>
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where
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F: FnOnce(&mut Resource<S>) -> R + 'static,
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{
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// create and configure default resource
let mut resource = Resource::new(ResourceDef::new(""));
f(&mut resource);
self.parts
.as_mut()
.expect("Use after finish")
.router
.register_default_resource(resource.into());
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self
}
/// Set default content encoding. `ContentEncoding::Auto` is set by default.
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pub fn default_encoding(mut self, encoding: ContentEncoding) -> App<S> {
{
let parts = self.parts.as_mut().expect("Use after finish");
parts.encoding = encoding;
}
self
}
/// Register an external resource.
///
/// External resources are useful for URL generation purposes only
/// and are never considered for matching at request time. Calls to
/// `HttpRequest::url_for()` will work as expected.
///
/// ```rust
/// # extern crate actix_web;
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/// use actix_web::{App, HttpRequest, HttpResponse, Result};
///
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/// fn index(req: &HttpRequest) -> Result<HttpResponse> {
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/// let url = req.url_for("youtube", &["oHg5SJYRHA0"])?;
/// assert_eq!(url.as_str(), "https://youtube.com/watch/oHg5SJYRHA0");
/// Ok(HttpResponse::Ok().into())
/// }
///
/// fn main() {
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/// let app = App::new()
/// .resource("/index.html", |r| r.get().f(index))
/// .external_resource("youtube", "https://youtube.com/watch/{video_id}")
/// .finish();
/// }
/// ```
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pub fn external_resource<T, U>(mut self, name: T, url: U) -> App<S>
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where
T: AsRef<str>,
U: AsRef<str>,
{
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self.parts
.as_mut()
.expect("Use after finish")
.router
.register_external(name.as_ref(), ResourceDef::external(url.as_ref()));
self
}
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/// Configure handler for specific path prefix.
///
/// A path prefix consists of valid path segments, i.e for the
/// prefix `/app` any request with the paths `/app`, `/app/` or
/// `/app/test` would match, but the path `/application` would
/// not.
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///
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/// Path tail is available as `tail` parameter in request's match_dict.
///
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/// ```rust
/// # extern crate actix_web;
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/// use actix_web::{http, App, HttpRequest, HttpResponse};
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///
/// fn main() {
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/// let app = App::new().handler("/app", |req: &HttpRequest| match *req.method() {
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/// http::Method::GET => HttpResponse::Ok(),
/// http::Method::POST => HttpResponse::MethodNotAllowed(),
/// _ => HttpResponse::NotFound(),
/// });
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/// }
/// ```
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pub fn handler<H: Handler<S>>(mut self, path: &str, handler: H) -> App<S> {
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{
let mut path = path.trim().trim_right_matches('/').to_owned();
if !path.is_empty() && !path.starts_with('/') {
path.insert(0, '/')
}
if path.len() > 1 && path.ends_with('/') {
path.pop();
}
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self.parts
.as_mut()
.expect("Use after finish")
.router
.register_handler(&path, Box::new(WrapHandler::new(handler)), None);
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}
self
}
/// Register a middleware.
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pub fn middleware<M: Middleware<S>>(mut self, mw: M) -> App<S> {
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self.parts
.as_mut()
.expect("Use after finish")
.middlewares
.push(Box::new(mw));
self
}
/// Run external configuration as part of the application building
/// process
///
/// This function is useful for moving parts of configuration to a
/// different module or event library. For example we can move
/// some of the resources' configuration to different module.
///
/// ```rust
/// # extern crate actix_web;
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/// use actix_web::{fs, middleware, App, HttpResponse};
///
/// // this function could be located in different module
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/// fn config(app: App) -> App {
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/// app.resource("/test", |r| {
/// r.get().f(|_| HttpResponse::Ok());
/// r.head().f(|_| HttpResponse::MethodNotAllowed());
/// })
/// }
///
/// fn main() {
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/// let app = App::new()
/// .middleware(middleware::Logger::default())
/// .configure(config) // <- register resources
/// .handler("/static", fs::StaticFiles::new(".").unwrap());
/// }
/// ```
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pub fn configure<F>(self, cfg: F) -> App<S>
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where
F: Fn(App<S>) -> App<S>,
{
cfg(self)
}
/// Finish application configuration and create `HttpHandler` object.
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pub fn finish(&mut self) -> HttpApplication<S> {
let mut parts = self.parts.take().expect("Use after finish");
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let prefix = parts.prefix.trim().trim_right_matches('/');
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parts.router.finish();
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let inner = Rc::new(Inner {
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router: parts.router,
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encoding: parts.encoding,
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});
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let filters = if parts.filters.is_empty() {
None
} else {
Some(parts.filters)
};
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HttpApplication {
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inner,
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filters,
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state: Rc::new(parts.state),
middlewares: Rc::new(parts.middlewares),
prefix: prefix.to_owned(),
prefix_len: prefix.len(),
}
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}
/// Convenience method for creating `Box<HttpHandler>` instances.
///
/// This method is useful if you need to register multiple
/// application instances with different state.
///
/// ```rust
/// # use std::thread;
/// # extern crate actix_web;
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/// use actix_web::{server, App, HttpResponse};
///
/// struct State1;
///
/// struct State2;
///
/// fn main() {
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/// # thread::spawn(|| {
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/// server::new(|| {
/// vec![
/// App::with_state(State1)
/// .prefix("/app1")
/// .resource("/", |r| r.f(|r| HttpResponse::Ok()))
/// .boxed(),
/// App::with_state(State2)
/// .prefix("/app2")
/// .resource("/", |r| r.f(|r| HttpResponse::Ok()))
/// .boxed(),
/// ]
/// }).bind("127.0.0.1:8080")
/// .unwrap()
/// .run()
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/// # });
/// }
/// ```
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pub fn boxed(mut self) -> Box<HttpHandler<Task = Box<HttpHandlerTask>>> {
Box::new(BoxedApplication { app: self.finish() })
}
}
struct BoxedApplication<S> {
app: HttpApplication<S>,
}
impl<S: 'static> HttpHandler for BoxedApplication<S> {
type Task = Box<HttpHandlerTask>;
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fn handle(&self, req: Request) -> Result<Self::Task, Request> {
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self.app.handle(req).map(|t| {
let task: Self::Task = Box::new(t);
task
})
}
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}
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impl<S: 'static> IntoHttpHandler for App<S> {
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type Handler = HttpApplication<S>;
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fn into_handler(mut self) -> HttpApplication<S> {
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self.finish()
}
}
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impl<'a, S: 'static> IntoHttpHandler for &'a mut App<S> {
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type Handler = HttpApplication<S>;
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fn into_handler(self) -> HttpApplication<S> {
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self.finish()
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}
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}
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#[doc(hidden)]
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impl<S: 'static> Iterator for App<S> {
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type Item = HttpApplication<S>;
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fn next(&mut self) -> Option<Self::Item> {
if self.parts.is_some() {
Some(self.finish())
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} else {
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None
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}
}
}
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#[cfg(test)]
mod tests {
use super::*;
use body::{Binary, Body};
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use http::StatusCode;
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use httprequest::HttpRequest;
use httpresponse::HttpResponse;
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use pred;
use test::{TestRequest, TestServer};
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#[test]
fn test_default_resource() {
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let app = App::new()
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.resource("/test", |r| r.f(|_| HttpResponse::Ok()))
.finish();
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let req = TestRequest::with_uri("/test").request();
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let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/blah").request();
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let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::NOT_FOUND);
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let app = App::new()
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.resource("/test", |r| r.f(|_| HttpResponse::Ok()))
.default_resource(|r| r.f(|_| HttpResponse::MethodNotAllowed()))
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.finish();
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let req = TestRequest::with_uri("/blah").request();
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let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::METHOD_NOT_ALLOWED);
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}
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#[test]
fn test_unhandled_prefix() {
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let app = App::new()
.prefix("/test")
.resource("/test", |r| r.f(|_| HttpResponse::Ok()))
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.finish();
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let ctx = TestRequest::default().request();
assert!(app.handle(ctx).is_err());
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}
#[test]
fn test_state() {
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let app = App::with_state(10)
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.resource("/", |r| r.f(|_| HttpResponse::Ok()))
.finish();
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let req = TestRequest::with_state(10).request();
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let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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}
#[test]
fn test_prefix() {
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let app = App::new()
.prefix("/test")
.resource("/blah", |r| r.f(|_| HttpResponse::Ok()))
.finish();
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let req = TestRequest::with_uri("/test").request();
let resp = app.handle(req);
assert!(resp.is_ok());
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let req = TestRequest::with_uri("/test/").request();
let resp = app.handle(req);
assert!(resp.is_ok());
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let req = TestRequest::with_uri("/test/blah").request();
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let resp = app.handle(req);
assert!(resp.is_ok());
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let req = TestRequest::with_uri("/testing").request();
let resp = app.handle(req);
assert!(resp.is_err());
}
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#[test]
fn test_handler() {
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let app = App::new()
.handler("/test", |_: &_| HttpResponse::Ok())
.finish();
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let req = TestRequest::with_uri("/test").request();
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let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/test/").request();
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let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/test/app").request();
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let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/testapp").request();
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let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::NOT_FOUND);
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let req = TestRequest::with_uri("/blah").request();
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let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::NOT_FOUND);
}
#[test]
fn test_handler2() {
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let app = App::new()
.handler("test", |_: &_| HttpResponse::Ok())
.finish();
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let req = TestRequest::with_uri("/test").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/test/").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/test/app").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/testapp").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::NOT_FOUND);
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let req = TestRequest::with_uri("/blah").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::NOT_FOUND);
}
#[test]
fn test_handler_with_prefix() {
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let app = App::new()
.prefix("prefix")
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.handler("/test", |_: &_| HttpResponse::Ok())
.finish();
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let req = TestRequest::with_uri("/prefix/test").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/prefix/test/").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/prefix/test/app").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/prefix/testapp").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::NOT_FOUND);
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let req = TestRequest::with_uri("/prefix/blah").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::NOT_FOUND);
}
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#[test]
fn test_route() {
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let app = App::new()
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.route("/test", Method::GET, |_: HttpRequest| HttpResponse::Ok())
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.route("/test", Method::POST, |_: HttpRequest| {
HttpResponse::Created()
})
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.finish();
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let req = TestRequest::with_uri("/test").method(Method::GET).request();
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let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/test")
.method(Method::POST)
.request();
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let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::CREATED);
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let req = TestRequest::with_uri("/test")
.method(Method::HEAD)
.request();
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let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::NOT_FOUND);
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}
#[test]
fn test_handler_prefix() {
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let app = App::new()
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.prefix("/app")
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.handler("/test", |_: &_| HttpResponse::Ok())
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.finish();
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let req = TestRequest::with_uri("/test").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::NOT_FOUND);
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let req = TestRequest::with_uri("/app/test").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/app/test/").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/app/test/app").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::OK);
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let req = TestRequest::with_uri("/app/testapp").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::NOT_FOUND);
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let req = TestRequest::with_uri("/app/blah").request();
let resp = app.run(req);
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assert_eq!(resp.as_msg().status(), StatusCode::NOT_FOUND);
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}
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#[test]
fn test_option_responder() {
let app = App::new()
.resource("/none", |r| r.f(|_| -> Option<&'static str> { None }))
.resource("/some", |r| r.f(|_| Some("some")))
.finish();
let req = TestRequest::with_uri("/none").request();
let resp = app.run(req);
assert_eq!(resp.as_msg().status(), StatusCode::NOT_FOUND);
let req = TestRequest::with_uri("/some").request();
let resp = app.run(req);
assert_eq!(resp.as_msg().status(), StatusCode::OK);
assert_eq!(resp.as_msg().body(), &Body::Binary(Binary::Slice(b"some")));
}
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#[test]
fn test_filter() {
let mut srv = TestServer::with_factory(|| {
App::new()
.filter(pred::Get())
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.handler("/test", |_: &_| HttpResponse::Ok())
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});
let request = srv.get().uri(srv.url("/test")).finish().unwrap();
let response = srv.execute(request.send()).unwrap();
assert_eq!(response.status(), StatusCode::OK);
let request = srv.post().uri(srv.url("/test")).finish().unwrap();
let response = srv.execute(request.send()).unwrap();
assert_eq!(response.status(), StatusCode::NOT_FOUND);
}
#[test]
fn test_prefix_root() {
let mut srv = TestServer::with_factory(|| {
App::new()
.prefix("/test")
.resource("/", |r| r.f(|_| HttpResponse::Ok()))
.resource("", |r| r.f(|_| HttpResponse::Created()))
});
let request = srv.get().uri(srv.url("/test/")).finish().unwrap();
let response = srv.execute(request.send()).unwrap();
assert_eq!(response.status(), StatusCode::OK);
let request = srv.get().uri(srv.url("/test")).finish().unwrap();
let response = srv.execute(request.send()).unwrap();
assert_eq!(response.status(), StatusCode::CREATED);
}
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}