2017-12-02 08:42:21 +01:00
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# Handler
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2017-12-26 20:19:08 +01:00
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A request handler can by any object that implements
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[*Handler trait*](../actix_web/dev/trait.Handler.html).
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2017-12-09 00:25:37 +01:00
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Request handling happen in two stages. First handler object get called.
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Handle can return any object that implements
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2017-12-14 18:43:42 +01:00
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[*Responder trait*](../actix_web/trait.Responder.html#foreign-impls).
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Then `respond_to()` get called on returned object. And finally
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result of the `respond_to()` call get converted to `Reply` object.
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2017-12-09 00:25:37 +01:00
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2017-12-14 18:43:42 +01:00
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By default actix provides `Responder` implementations for some standard types,
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2017-12-02 08:42:21 +01:00
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like `&'static str`, `String`, etc.
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For complete list of implementations check
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2017-12-26 20:19:08 +01:00
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[*Responder documentation*](../actix_web/trait.Responder.html#foreign-impls).
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2017-12-02 08:42:21 +01:00
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2017-12-09 00:25:37 +01:00
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Examples of valid handlers:
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2017-12-02 08:42:21 +01:00
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```rust,ignore
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fn index(req: HttpRequest) -> &'static str {
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"Hello world!"
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}
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```
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```rust,ignore
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fn index(req: HttpRequest) -> String {
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"Hello world!".to_owned()
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}
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```
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```rust,ignore
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fn index(req: HttpRequest) -> Bytes {
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Bytes::from_static("Hello world!")
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}
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```
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```rust,ignore
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fn index(req: HttpRequest) -> Box<Future<Item=HttpResponse, Error=Error>> {
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...
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}
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```
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2017-12-26 18:00:45 +01:00
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Some notes on shared application state and handler state. If you noticed
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*Handler* trait is generic over *S*, which defines application state type. So
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application state is accessible from handler with `HttpRequest::state()` method.
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But state is accessible as a read-only reference, if you need mutable access to state
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you have to implement it yourself. On other hand handler can mutable access it's own state
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as `handle` method takes mutable reference to *self*. Beware, actix creates multiple copies
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of application state and handlers, unique for each thread, so if you run your
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application in several threads actix will create same amount as number of threads
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of application state objects and handler objects.
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Here is example of handler that stores number of processed requests:
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```rust
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# extern crate actix;
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# extern crate actix_web;
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use actix_web::*;
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use actix_web::dev::Handler;
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struct MyHandler(usize);
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impl<S> Handler<S> for MyHandler {
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type Result = HttpResponse;
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/// Handle request
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fn handle(&mut self, req: HttpRequest<S>) -> Self::Result {
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self.0 += 1;
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httpcodes::HTTPOk.response()
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}
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}
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# fn main() {}
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```
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This handler will work, but `self.0` value will be different depends on number of threads and
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number of requests processed per thread. Proper implementation would use `Arc` and `AtomicUsize`
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```rust
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# extern crate actix;
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# extern crate actix_web;
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use actix_web::*;
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2017-12-26 18:28:24 +01:00
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use actix_web::dev::Handler;
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2017-12-26 18:00:45 +01:00
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use std::sync::Arc;
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use std::sync::atomic::{AtomicUsize, Ordering};
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struct MyHandler(Arc<AtomicUsize>);
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impl<S> Handler<S> for MyHandler {
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type Result = HttpResponse;
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/// Handle request
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fn handle(&mut self, req: HttpRequest<S>) -> Self::Result {
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let num = self.0.load(Ordering::Relaxed) + 1;
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self.0.store(num, Ordering::Relaxed);
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httpcodes::HTTPOk.response()
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}
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}
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fn main() {
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let sys = actix::System::new("example");
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let inc = Arc::new(AtomicUsize::new(0));
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HttpServer::new(
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move || {
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let cloned = inc.clone();
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Application::new()
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.resource("/", move |r| r.h(MyHandler(cloned)))
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})
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.bind("127.0.0.1:8088").unwrap()
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.start();
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println!("Started http server: 127.0.0.1:8088");
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# actix::Arbiter::system().send(actix::msgs::SystemExit(0));
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let _ = sys.run();
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}
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```
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2017-12-26 20:19:08 +01:00
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Be careful with synchronization primitives like *Mutex* or *RwLock*. Actix web framework
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handles request asynchronously, by blocking thread execution all concurrent
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request handling processes would block. If you need to share or update some state
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from multiple threads consider using [actix](https://actix.github.io/actix/actix/) actor system.
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2017-12-09 00:25:37 +01:00
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## Response with custom type
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2017-12-02 08:42:21 +01:00
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2017-12-15 05:12:28 +01:00
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To return custom type directly from handler function type needs to implement `Responder` trait.
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Let's create response for custom type that serializes to `application/json` response:
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2017-12-02 08:42:21 +01:00
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```rust
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2017-12-06 20:00:39 +01:00
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# extern crate actix;
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# extern crate actix_web;
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2017-12-02 08:42:21 +01:00
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extern crate serde;
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extern crate serde_json;
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#[macro_use] extern crate serde_derive;
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use actix_web::*;
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#[derive(Serialize)]
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struct MyObj {
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name: &'static str,
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}
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2017-12-21 08:27:30 +01:00
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/// Responder
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impl Responder for MyObj {
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2017-12-03 23:22:04 +01:00
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type Item = HttpResponse;
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type Error = Error;
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2017-12-14 18:43:42 +01:00
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fn respond_to(self, req: HttpRequest) -> Result<HttpResponse> {
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let body = serde_json::to_string(&self)?;
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// Create response and set content type
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Ok(HttpResponse::Ok()
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.content_type("application/json")
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.body(body)?)
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}
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}
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2017-12-21 08:27:30 +01:00
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/// Because `MyObj` implements `Responder`, it is possible to return it directly
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2017-12-09 00:25:37 +01:00
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fn index(req: HttpRequest) -> MyObj {
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MyObj{name: "user"}
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}
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2017-12-02 08:42:21 +01:00
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fn main() {
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let sys = actix::System::new("example");
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HttpServer::new(
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2017-12-12 16:40:36 +01:00
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|| Application::new()
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2017-12-09 00:25:37 +01:00
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.resource("/", |r| r.method(Method::GET).f(index)))
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2017-12-17 21:35:04 +01:00
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.bind("127.0.0.1:8088").unwrap()
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.start();
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2017-12-02 08:42:21 +01:00
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println!("Started http server: 127.0.0.1:8088");
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2017-12-09 00:25:37 +01:00
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# actix::Arbiter::system().send(actix::msgs::SystemExit(0));
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let _ = sys.run();
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}
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```
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## Async handlers
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There are two different types of async handlers.
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2017-12-20 21:51:39 +01:00
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Response object could be generated asynchronously or more precisely, any type
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that implements [*Responder*](../actix_web/trait.Responder.html) trait. In this case handle must
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return `Future` object that resolves to *Responder* type, i.e:
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2017-12-02 08:42:21 +01:00
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2017-12-05 01:09:22 +01:00
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```rust
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# extern crate actix_web;
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# extern crate futures;
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# extern crate bytes;
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# use actix_web::*;
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# use bytes::Bytes;
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# use futures::stream::once;
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# use futures::future::{FutureResult, result};
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fn index(req: HttpRequest) -> FutureResult<HttpResponse, Error> {
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result(HttpResponse::Ok()
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.content_type("text/html")
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.body(format!("Hello!"))
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.map_err(|e| e.into()))
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}
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2017-12-20 21:51:39 +01:00
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fn index2(req: HttpRequest) -> FutureResult<&'static str, Error> {
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result(Ok("Welcome!"))
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}
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2017-12-05 01:09:22 +01:00
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fn main() {
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2017-12-11 23:16:29 +01:00
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Application::new()
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2017-12-06 17:03:08 +01:00
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.resource("/async", |r| r.route().a(index))
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2017-12-20 21:51:39 +01:00
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.resource("/", |r| r.route().a(index2))
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2017-12-05 01:09:22 +01:00
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.finish();
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}
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```
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2017-12-02 08:42:21 +01:00
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Or response body can be generated asynchronously. In this case body
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must implement stream trait `Stream<Item=Bytes, Error=Error>`, i.e:
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2017-12-05 01:09:22 +01:00
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```rust
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# extern crate actix_web;
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# extern crate futures;
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# extern crate bytes;
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# use actix_web::*;
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# use bytes::Bytes;
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# use futures::stream::once;
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fn index(req: HttpRequest) -> HttpResponse {
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2017-12-05 01:09:22 +01:00
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let body = once(Ok(Bytes::from_static(b"test")));
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2017-12-05 01:09:22 +01:00
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HttpResponse::Ok()
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.content_type("application/json")
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2017-12-05 01:09:22 +01:00
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.body(Body::Streaming(Box::new(body))).unwrap()
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2017-12-02 08:42:21 +01:00
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}
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fn main() {
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2017-12-11 23:16:29 +01:00
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Application::new()
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2017-12-06 17:03:08 +01:00
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.resource("/async", |r| r.f(index))
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.finish();
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}
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```
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Both methods could be combined. (i.e Async response with streaming body)
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