Continue creating boosted Server Side Rendering implementation. In the first part we prepared ReactJS Application with SSR script that lets choose the best technologies for our Web Server.
Choosing Tech Stack for the SSR Web server
Rust has the most powerful combination of safety and hight speed for today (you can check out here why - www.rust-lang.org). In addition, Actix-web framework is the fastest one according TechEmpower Framework Benchmark.
So, let’s use the best technologies for our forced Web Server.
Setup Rust App
It is easy to setup Rust on your computer - just go to rustup.rs website and install
rustupNext step is initialisation a new app. Cargo, Rust package manager can help with it: run
cargo initThe Cargo.toml file for each package is called its manifest. It contains settings and dependencies. New one should look like that:
[package]
name = "rust-ssr-webserver"
version = "0.1.0"
authors = ["Alex Tkachuk <alex@pagespeed.green>"]
edition = "2018"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]Now we can add our dependencies:
actix-web = { version = "^2.0.0", features = ["rustls"] }
actix-rt = "^1.0.0"
actix-files = "^0.2.1"
env_logger = "^0.7.1"
futures = "^0.3.4"
mime_guess = "^2.0.1"
serde_json = "^1.0.40"
lazy_static = "^1.4.0"
rustls = "^0.16.0"Using actix-web is qute easy to create web server. Firstly, we need to read SSL keys for supporting HTTPS and HTTP/2:
let mut config = ServerConfig::new(NoClientAuth::new());
let cert_file = &mut BufReader::new(File::open("cert.pem").unwrap());
let key_file = &mut BufReader::new(File::open("key.pem").unwrap());
let cert_chain = certs(cert_file).unwrap();
let mut keys = rsa_private_keys(key_file).unwrap();
config.set_single_cert(cert_chain, keys.remove(0)).unwrap();Be aware of using unwrap() in production - if it fails, the app will crash (panic).
We are ready for actually Web Server code now:
HttpServer::new(|| {
App::new()
.wrap(middleware::Logger::default())
.service(Files::new("/static", "static"))
.default_service(
web::resource("")
.route(web::get().to(index))
.route(
web::route()
.guard(guard::Not(guard::Get()))
.to(|| HttpResponse::MethodNotAllowed()),
),
)
})
.bind_rustls("0.0.0.0:3001", config)?
.run()
.awaitThis line:
[Part I: SSR]). For handling HTML-files requests from ReactJs App we need to use
.service(Files::new("/static", "static")npm build:ssr[Part I: SSR]). For handling HTML-files requests from ReactJs App we need to use
.default_service()web::resource("")indexasync fn index(req: HttpRequest) -> impl Responder {
let path_req = req.match_info().query("tail").get(1..).unwrap_or_default().trim().clone();
let path = if path_req.len() == 0 {
"home_page"
} else {
match ROUTES.get(path_req) {
Some(r) => r,
None => "index"
}
};
match std::fs::File::open(format!("static/{}.html", path)) {
Ok(mut file) => {
let mut contents = String::new();
file.read_to_string(&mut contents).unwrap_or_default();
HttpResponse::Ok()
.content_type("text/html; charset=utf-8")
.header("Cache-Control", "no-cache, no-store, max-age=0, must-revalidate")
.header("pragma", "no-cache")
.header("x-ua-compatible", "IE=edge, Chrome=1")
.body(contents)
},
Err(e) => {
// error handling
}
}
}The function implements the routing logic, so our web server can return right HTML file (React server rendered) by a route. The
ROUTESroutes.jsonOne improvement that you can do for this implementation is using a cash instead of directly reading a file from disk.
Finally, copy folder dist/web to static, obveously, it should be automatic step, and run our Web Server by
cargo rThe final article of Server Side Rendering is about testing performance between this solution vs Node.js
You can check how fast this approach in production by getting Google PageSpeed Insights Performance score for PageSpeed Green website.
Happy coding!