actix-website/content/docs/server.md

---
title: Server
menu: docs_basics
weight: 150
---

# The HTTP Server

The [**HttpServer**](../../actix-web/actix_web/server/struct.HttpServer.html) type is responsible for
serving http requests.

`HttpServer` accepts an application factory as a parameter, and the
application factory must have `Send` + `Sync` boundaries. More about that in the
*multi-threading* section.

To bind to a specific socket address, `bind()` must be used, and it may be
called multiple times. To bind ssl socket `bind_ssl()` or `bind_tls()` should be used.
To start the http server, one of the start methods.

- use `start()` for a server

`HttpServer` is an actix actor. It must be initialized within a properly configured actix system:

```rust
use actix_web::{server::HttpServer, App, HttpResponse};

fn main() {
    let sys = actix::System::new("guide");

    HttpServer::new(|| {
        App::new()
            .resource("/", |r| r.f(|_| HttpResponse::Ok()))
    })
        .bind("127.0.0.1:59080").unwrap()
        .start();

    let _ = sys.run();
}
```

> It is possible to start a server in a separate thread with the `run()` method. In that
> case the server spawns a new thread and creates a new actix system in it. To stop
> this server, send a `StopServer` message.

`HttpServer` is implemented as an actix actor. It is possible to communicate with the server
via a messaging system. Start method, e.g. `start()`, returns the
address of the started http server. It accepts several messages:

- `PauseServer` - Pause accepting incoming connections
- `ResumeServer` - Resume accepting incoming connections
- `StopServer` - Stop incoming connection processing, stop all workers and exit

```rust
use std::thread;
use std::sync::mpsc;
use actix_web::{server, App, HttpResponse};

fn main() {
    let (tx, rx) = mpsc::channel();

    thread::spawn(move || {
        let sys = actix::System::new("http-server");
        let addr = server::new(|| {
            App::new()
                .resource("/", |r| r.f(|_| HttpResponse::Ok()))
        })
            .bind("127.0.0.1:0").expect("Can not bind to 127.0.0.1:0")
            .shutdown_timeout(60)    // <- Set shutdown timeout to 60 seconds
            .start();
        let _ = tx.send(addr);
        let _ = sys.run();
    });

    let addr = rx.recv().unwrap();
    let _ = addr.send(
         server::StopServer{graceful:true}).wait(); // <- Send `StopServer` message to server.
}
```

## Multi-threading

`HttpServer` automatically starts an number of http workers, by default
this number is equal to number of logical CPUs in the system. This number
can be overridden with the `HttpServer::workers()` method.

```rust
use actix_web::{App, HttpResponse, server::HttpServer};

fn main() {
    HttpServer::new(|| {
        App::new()
            .resource("/", |r| r.f(|_| HttpResponse::Ok()))
    })
        .workers(4); // <- Start 4 workers
}
```

The server creates a separate application instance for each created worker. Application state
is not shared between threads. To share state, `Arc` could be used.

> Application state does not need to be `Send` and `Sync`,
> but factories must be `Send` + `Sync`.

## SSL

There are two features for ssl server: `tls` and `alpn`. The `tls` feature is
for `native-tls` integration and `alpn` is for `openssl`.

```toml
[dependencies]
actix-web = { version = "{{< actix-version "actix-web" >}}", features = ["alpn"] }
```

```rust
use std::fs::File;
use actix_web::*;

fn main() {
    // load ssl keys
    let mut builder = SslAcceptor::mozilla_intermediate(SslMethod::tls()).unwrap();
    builder.set_private_key_file("key.pem", SslFiletype::PEM).unwrap();
    builder.set_certificate_chain_file("cert.pem").unwrap();

    server::new(|| {
        App::new()
            .resource("/index.html", |r| r.f(index))
    })
        .bind_ssl("127.0.0.1:8080", builder).unwrap()
        .serve();
}
```

> **Note**: the *HTTP/2.0* protocol requires
> [tls alpn](https://tools.ietf.org/html/rfc7301).
> At the moment, only `openssl` has `alpn` support.
> For a full example, check out
> [examples/tls](https://github.com/actix/examples/tree/master/tls).

To create the key.pem and cert.pem use the command. **Fill in your own subject**
```bash
$ openssl req -x509 -newkey rsa:4096 -keyout key.pem -out cert.pem \
  -days 365 -sha256 -subj "/C=CN/ST=Fujian/L=Xiamen/O=TVlinux/OU=Org/CN=muro.lxd"
```
To remove the password, then copy nopass.pen to key.pem 
```bash
$ openssl rsa -in key.pem -out nopass.pem
```

## Keep-Alive

Actix can wait for requests on a keep-alive connection.

> *keep alive* connection behavior is defined by server settings.

- `75`, `Some(75)`, `KeepAlive::Timeout(75)` - enable 75 second *keep alive* timer.
- `None` or `KeepAlive::Disabled` - disable *keep alive*.
- `KeepAlive::Tcp(75)` - use `SO_KEEPALIVE` socket option.

```rust
use actix_web::{server, App, HttpResponse};

fn main() {
    server::new(||
        App::new()
            .resource("/", |r| r.f(|_| HttpResponse::Ok())))
        .keep_alive(75); // <- Set keep-alive to 75 seconds

    server::new(||
        App::new()
            .resource("/", |r| r.f(|_| HttpResponse::Ok())))
        .keep_alive(server::KeepAlive::Tcp(75)); // <- Use `SO_KEEPALIVE` socket option.

    server::new(||
        App::new()
            .resource("/", |r| r.f(|_| HttpResponse::Ok())))
        .keep_alive(None); // <- Disable keep-alive
}
```

If the first option is selected, then *keep alive* state is
calculated based on the response's *connection-type*. By default
`HttpResponse::connection_type` is not defined. In that case *keep alive* is
defined by the request's http version.

> *keep alive* is **off** for *HTTP/1.0* and is **on** for *HTTP/1.1* and *HTTP/2.0*.

*Connection type* can be change with `HttpResponseBuilder::connection_type()` method.

```rust
use actix_web::{HttpRequest, HttpResponse, http};

fn index(req: HttpRequest) -> HttpResponse {
    HttpResponse::Ok()
        .connection_type(http::ConnectionType::Close) // <- Close connection
        .force_close()                                // <- Alternative method
        .finish()
}
```

## Graceful shutdown

`HttpServer` supports graceful shutdown. After receiving a stop signal, workers
have a specific amount of time to finish serving requests. Any workers still alive after the
timeout are force-dropped. By default the shutdown timeout is set to 30 seconds.
You can change this parameter with the `HttpServer::shutdown_timeout()` method.

You can send a stop message to the server with the server address and specify if you want
graceful shutdown or not. The `start()` methods returns address of the server.

`HttpServer` handles several OS signals. *CTRL-C* is available on all OSs,
other signals are available on unix systems.

- *SIGINT* - Force shutdown workers
- *SIGTERM* - Graceful shutdown workers
- *SIGQUIT* - Force shutdown workers

> It is possible to disable signal handling with `HttpServer::disable_signals()` method.
Update website 2018-05-22 23:15:08 +02:00			`---`
			`title: Server`
			`menu: docs_basics`
			`weight: 150`
			`---`

			`# The HTTP Server`

			`The [HttpServer](../../actix-web/actix_web/server/struct.HttpServer.html) type is responsible for`
			`serving http requests.`

			`HttpServer` accepts an application factory as a parameter, and the
			application factory must have `Send` + `Sync` boundaries. More about that in the
			`multi-threading section.`

			To bind to a specific socket address, `bind()` must be used, and it may be
			called multiple times. To bind ssl socket `bind_ssl()` or `bind_tls()` should be used.
			`To start the http server, one of the start methods.`

			- use `start()` for a server

			`HttpServer` is an actix actor. It must be initialized within a properly configured actix system:

			```rust
			`use actix_web::{server::HttpServer, App, HttpResponse};`

			`fn main() {`
			`let sys = actix::System::new("guide");`

			`HttpServer::new(\|\| {`
			`App::new()`
			`.resource("/", \|r\| r.f(\|_\| HttpResponse::Ok()))`
			`})`
			`.bind("127.0.0.1:59080").unwrap()`
			`.start();`

			`let _ = sys.run();`
			`}`
			```

			> It is possible to start a server in a separate thread with the `run()` method. In that
			`> case the server spawns a new thread and creates a new actix system in it. To stop`
			> this server, send a `StopServer` message.

			`HttpServer` is implemented as an actix actor. It is possible to communicate with the server
			via a messaging system. Start method, e.g. `start()`, returns the
			`address of the started http server. It accepts several messages:`

			- `PauseServer` - Pause accepting incoming connections
			- `ResumeServer` - Resume accepting incoming connections
			- `StopServer` - Stop incoming connection processing, stop all workers and exit

			```rust
			`use std::thread;`
			`use std::sync::mpsc;`
			`use actix_web::{server, App, HttpResponse};`

			`fn main() {`
			`let (tx, rx) = mpsc::channel();`

			`thread::spawn(move \|\| {`
			`let sys = actix::System::new("http-server");`
			`let addr = server::new(\|\| {`
			`App::new()`
			`.resource("/", \|r\| r.f(\|_\| HttpResponse::Ok()))`
			`})`
			`.bind("127.0.0.1:0").expect("Can not bind to 127.0.0.1:0")`
			`.shutdown_timeout(60) // <- Set shutdown timeout to 60 seconds`
			`.start();`
			`let _ = tx.send(addr);`
			`let _ = sys.run();`
			`});`

			`let addr = rx.recv().unwrap();`
			`let _ = addr.send(`
			server::StopServer{graceful:true}).wait(); // <- Send `StopServer` message to server.
			`}`
			```

			`## Multi-threading`

			`HttpServer` automatically starts an number of http workers, by default
			`this number is equal to number of logical CPUs in the system. This number`
			can be overridden with the `HttpServer::workers()` method.

			```rust
			`use actix_web::{App, HttpResponse, server::HttpServer};`

			`fn main() {`
			`HttpServer::new(\|\| {`
			`App::new()`
			`.resource("/", \|r\| r.f(\|_\| HttpResponse::Ok()))`
			`})`
			`.workers(4); // <- Start 4 workers`
			`}`
			```

			`The server creates a separate application instance for each created worker. Application state`
			is not shared between threads. To share state, `Arc` could be used.

			> Application state does not need to be `Send` and `Sync`,
			> but factories must be `Send` + `Sync`.

			`## SSL`

			There are two features for ssl server: `tls` and `alpn`. The `tls` feature is
			for `native-tls` integration and `alpn` is for `openssl`.

			```toml
			`[dependencies]`
			`actix-web = { version = "{{< actix-version "actix-web" >}}", features = ["alpn"] }`
			```

			```rust
			`use std::fs::File;`
			`use actix_web::*;`

			`fn main() {`
			`// load ssl keys`
			`let mut builder = SslAcceptor::mozilla_intermediate(SslMethod::tls()).unwrap();`
			`builder.set_private_key_file("key.pem", SslFiletype::PEM).unwrap();`
			`builder.set_certificate_chain_file("cert.pem").unwrap();`

			`server::new(\|\| {`
			`App::new()`
			`.resource("/index.html", \|r\| r.f(index))`
			`})`
			`.bind_ssl("127.0.0.1:8080", builder).unwrap()`
			`.serve();`
			`}`
			```

			`> Note: the HTTP/2.0 protocol requires`
			`> [tls alpn](https://tools.ietf.org/html/rfc7301).`
			> At the moment, only `openssl` has `alpn` support.
			`> For a full example, check out`
			`> [examples/tls](https://github.com/actix/examples/tree/master/tls).`

			`To create the key.pem and cert.pem use the command. Fill in your own subject`
			```bash
			`$ openssl req -x509 -newkey rsa:4096 -keyout key.pem -out cert.pem \`
			`-days 365 -sha256 -subj "/C=CN/ST=Fujian/L=Xiamen/O=TVlinux/OU=Org/CN=muro.lxd"`
			```
			`To remove the password, then copy nopass.pen to key.pem`
			```bash
			`$ openssl rsa -in key.pem -out nopass.pem`
			```

			`## Keep-Alive`

			`Actix can wait for requests on a keep-alive connection.`

			`> keep alive connection behavior is defined by server settings.`

			- `75`, `Some(75)`, `KeepAlive::Timeout(75)` - enable 75 second keep alive timer.
			- `None` or `KeepAlive::Disabled` - disable keep alive.
			- `KeepAlive::Tcp(75)` - use `SO_KEEPALIVE` socket option.

			```rust
			`use actix_web::{server, App, HttpResponse};`

			`fn main() {`
			`server::new(\|\|`
			`App::new()`
			`.resource("/", \|r\| r.f(\|_\| HttpResponse::Ok())))`
			`.keep_alive(75); // <- Set keep-alive to 75 seconds`

			`server::new(\|\|`
			`App::new()`
			`.resource("/", \|r\| r.f(\|_\| HttpResponse::Ok())))`
			.keep_alive(server::KeepAlive::Tcp(75)); // <- Use `SO_KEEPALIVE` socket option.

			`server::new(\|\|`
			`App::new()`
			`.resource("/", \|r\| r.f(\|_\| HttpResponse::Ok())))`
			`.keep_alive(None); // <- Disable keep-alive`
			`}`
			```

			`If the first option is selected, then keep alive state is`
			`calculated based on the response's connection-type. By default`
			`HttpResponse::connection_type` is not defined. In that case keep alive is
			`defined by the request's http version.`

			`> keep alive is off for HTTP/1.0 and is on for HTTP/1.1 and HTTP/2.0.`

			Connection type can be change with `HttpResponseBuilder::connection_type()` method.

			```rust
			`use actix_web::{HttpRequest, HttpResponse, http};`

			`fn index(req: HttpRequest) -> HttpResponse {`
			`HttpResponse::Ok()`
			`.connection_type(http::ConnectionType::Close) // <- Close connection`
			`.force_close() // <- Alternative method`
			`.finish()`
			`}`
			```

			`## Graceful shutdown`

			`HttpServer` supports graceful shutdown. After receiving a stop signal, workers
			`have a specific amount of time to finish serving requests. Any workers still alive after the`
			`timeout are force-dropped. By default the shutdown timeout is set to 30 seconds.`
			You can change this parameter with the `HttpServer::shutdown_timeout()` method.

			`You can send a stop message to the server with the server address and specify if you want`
			graceful shutdown or not. The `start()` methods returns address of the server.

			`HttpServer` handles several OS signals. CTRL-C is available on all OSs,
			`other signals are available on unix systems.`

			`- SIGINT - Force shutdown workers`
			`- SIGTERM - Graceful shutdown workers`
			`- SIGQUIT - Force shutdown workers`

			> It is possible to disable signal handling with `HttpServer::disable_signals()` method.