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Rust systems programming patterns including ownership, traits, async runtime, error handling, and unsafe guidelines
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| name | rust-systems |
| description | Rust systems programming patterns including ownership, traits, async runtime, error handling, and unsafe guidelines |
fn process_data(data: &[u8]) -> Vec<u8> {
data.iter().map(|b| b.wrapping_add(1)).collect()
}
fn modify_in_place(data: &mut Vec<u8>) {
data.retain(|b| *b != 0);
data.sort_unstable();
}
fn take_ownership(data: Vec<u8>) -> Vec<u8> {
let mut result = data;
result.push(0xFF);
result
}
fn main() {
let data = vec![1, 2, 3, 0, 4];
let processed = process_data(&data); // borrow: data still usable
let mut owned = take_ownership(data); // move: data no longer usable
modify_in_place(&mut owned); // mutable borrow
}
Prefer borrowing (&T, &mut T) over ownership transfer. Use Clone only when necessary.
use thiserror::Error;
#[derive(Error, Debug)]
pub enum AppError {
#[error("database error: {0}")]
Database(#[from] sqlx::Error),
#[error("not found: {resource} with id {id}")]
NotFound { resource: &'static str, id: String },
#[error("validation failed: {0}")]
Validation(String),
}
type Result<T> = std::result::Result<T, AppError>;
async fn get_user(pool: &PgPool, id: &str) -> Result<User> {
sqlx::query_as::<_, User>("SELECT * FROM users WHERE id = $1")
.bind(id)
.fetch_optional(pool)
.await?
.ok_or_else(|| AppError::NotFound {
resource: "User",
id: id.to_string(),
})
}
Use thiserror for library errors, anyhow for application-level errors. Avoid .unwrap() in production code.
trait Repository {
type Item;
type Error;
async fn find_by_id(&self, id: &str) -> std::result::Result<Option<Self::Item>, Self::Error>;
async fn save(&self, item: &Self::Item) -> std::result::Result<(), Self::Error>;
}
struct PgUserRepo {
pool: PgPool,
}
impl Repository for PgUserRepo {
type Item = User;
type Error = AppError;
async fn find_by_id(&self, id: &str) -> Result<Option<User>> {
let user = sqlx::query_as::<_, User>("SELECT * FROM users WHERE id = $1")
.bind(id)
.fetch_optional(&self.pool)
.await?;
Ok(user)
}
async fn save(&self, user: &User) -> Result<()> {
sqlx::query("INSERT INTO users (id, name, email) VALUES ($1, $2, $3)")
.bind(&user.id)
.bind(&user.name)
.bind(&user.email)
.execute(&self.pool)
.await?;
Ok(())
}
}
use tokio::sync::Semaphore;
use futures::stream::{self, StreamExt};
async fn fetch_all(urls: Vec<String>, max_concurrent: usize) -> Vec<Result<String>> {
let semaphore = Arc::new(Semaphore::new(max_concurrent));
stream::iter(urls)
.map(|url| {
let sem = semaphore.clone();
async move {
let _permit = sem.acquire().await.unwrap();
reqwest::get(&url).await?.text().await.map_err(Into::into)
}
})
.buffer_unordered(max_concurrent)
.collect()
.await
}
async fn graceful_shutdown(handle: tokio::runtime::Handle) {
let ctrl_c = tokio::signal::ctrl_c();
ctrl_c.await.expect("Failed to listen for Ctrl+C");
handle.shutdown_timeout(std::time::Duration::from_secs(30));
}
pub struct ServerConfig {
host: String,
port: u16,
workers: usize,
tls: bool,
}
pub struct ServerConfigBuilder {
host: String,
port: u16,
workers: usize,
tls: bool,
}
impl ServerConfigBuilder {
pub fn new() -> Self {
Self { host: "0.0.0.0".into(), port: 8080, workers: 4, tls: false }
}
pub fn host(mut self, host: impl Into<String>) -> Self { self.host = host.into(); self }
pub fn port(mut self, port: u16) -> Self { self.port = port; self }
pub fn workers(mut self, n: usize) -> Self { self.workers = n; self }
pub fn tls(mut self, enabled: bool) -> Self { self.tls = enabled; self }
pub fn build(self) -> ServerConfig {
ServerConfig { host: self.host, port: self.port, workers: self.workers, tls: self.tls }
}
}
.unwrap() or .expect() in library codeMutexGuard across .await points (causes deadlocks)Arc<Mutex<Vec<T>>> when a channel would be more appropriateunsafe without documenting invariants#[must_use] on Result-returning functionsthiserror and ? operator used for propagation.unwrap() in production pathsbuffer_unordered)unsafe blocks have documented safety invariants