spring-rs is an application framework that emphasizes convention over configuration, inspired by Java's SpringBoot. spring-rs provides an easily extensible plug-in system for integrating excellent projects in the Rust community, such as axum, sqlx, sea-orm, etc.
Compared with SpringBoot in java, spring-rs has higher performance and lower memory usage, allowing you to completely get rid of the bloated JVM and travel light.
- ⚡️ High performance: Benefiting from the awesome rust language, spring-rs has the ultimate performance comparable to C/C++
- 🛡️ High security: Compared to C/C++, the Rust language used by spring-rs provides memory safety and thread safety.
- 🔨 Lightweight: The core code of spring-rs does not exceed 5,000 lines, and the binary size of the release version packaged in rust is also small.
- 🔧 Easy to use: spring-rs provides a clear and concise API and optional Procedural Macros to simplify development.
- 🔌 Highly extensible: spring-rs uses a highly extensible plug-in model, and users can customize plug-ins to extend program capabilities.
- ⚙️ Highly configurable: spring-rs uses toml to configure applications and plug-ins to improve application flexibility.
web
use spring::{auto_config, App};
use spring_sqlx::{
sqlx::{self, Row},
ConnectPool, SqlxPlugin
};
use spring_web::{get, route};
use spring_web::{
error::Result, extractor::{Path, Component}, handler::TypeRouter, axum::response::IntoResponse, Router,
WebConfigurator, WebPlugin,
};
use anyhow::Context;
#[auto_config(WebConfigurator)]
#[tokio::main]
async fn main() {
App::new()
.add_plugin(SqlxPlugin)
.add_plugin(WebPlugin)
.run()
.await
}
#[get("/")]
async fn hello_world() -> impl IntoResponse {
"hello world"
}
#[route("/hello/:name", method = "GET", method = "POST")]
async fn hello(Path(name): Path<String>) -> impl IntoResponse {
format!("hello {name}")
}
#[get("/version")]
async fn sqlx_request_handler(Component(pool): Component<ConnectPool>) -> Result<String> {
let version = sqlx::query("select version() as version")
.fetch_one(&pool)
.await
.context("sqlx query failed")?
.get("version");
Ok(version)
}job
use anyhow::Context;
use spring::{auto_config, App};
use spring_job::{cron, fix_delay, fix_rate};
use spring_job::{extractor::Component, JobConfigurator, JobPlugin};
use spring_sqlx::{
sqlx::{self, Row},
ConnectPool, SqlxPlugin,
};
use std::time::{Duration, SystemTime};
#[auto_config(JobConfigurator)]
#[tokio::main]
async fn main() {
App::new()
.add_plugin(JobPlugin)
.add_plugin(SqlxPlugin)
.run()
.await;
tokio::time::sleep(Duration::from_secs(100)).await;
}
#[cron("1/10 * * * * *")]
async fn cron_job(Component(db): Component<ConnectPool>) {
let time: String = sqlx::query("select TO_CHAR(now(),'YYYY-MM-DD HH24:MI:SS') as time")
.fetch_one(&db)
.await
.context("query failed")
.unwrap()
.get("time");
println!("cron scheduled: {:?}", time)
}
#[fix_delay(5)]
async fn fix_delay_job() {
let now = SystemTime::now();
let datetime: sqlx::types::chrono::DateTime<sqlx::types::chrono::Local> = now.into();
let formatted_time = datetime.format("%Y-%m-%d %H:%M:%S");
println!("fix delay scheduled: {}", formatted_time)
}
#[fix_rate(5)]
async fn fix_rate_job() {
tokio::time::sleep(Duration::from_secs(10)).await;
let now = SystemTime::now();
let datetime: sqlx::types::chrono::DateTime<sqlx::types::chrono::Local> = now.into();
let formatted_time = datetime.format("%Y-%m-%d %H:%M:%S");
println!("fix rate scheduled: {}", formatted_time)
}-
spring-web: Based onaxum -
spring-sqlx: Integrated withsqlx -
spring-postgres: Integrated withrust-postgres -
spring-sea-orm: Integrated withsea-orm -
spring-redis: Integrated withredis -
spring-mail: Integrated withlettre -
spring-job: Integrated withtokio-cron-scheduler -
spring-stream: Integratesea-streamerto implement message processing such as redis-stream and kafka -
spring-opentelemetry: Integrate withopentelemetryto implement full observability of logging, metrics, tracing -
spring-tarpc: Integratetarpcto implement RPC calls