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use super::IPAddr;
use crate::{get_ip, LemmyError};
use actix_web::dev::{Service, ServiceRequest, ServiceResponse, Transform};
use futures::future::{ok, Ready};
use lemmy_utils::settings::{RateLimitConfig, Settings};
use rate_limiter::{RateLimitType, RateLimiter};
use std::{
future::Future,
pin::Pin,
sync::Arc,
task::{Context, Poll},
};
use tokio::sync::Mutex;
pub mod rate_limiter;
#[derive(Debug, Clone)]
pub struct RateLimit {
// it might be reasonable to use a std::sync::Mutex here, since we don't need to lock this
// across await points
pub rate_limiter: Arc<Mutex<RateLimiter>>,
}
#[derive(Debug, Clone)]
pub struct RateLimited {
rate_limiter: Arc<Mutex<RateLimiter>>,
type_: RateLimitType,
}
pub struct RateLimitedMiddleware<S> {
rate_limited: RateLimited,
service: S,
}
impl RateLimit {
pub fn message(&self) -> RateLimited {
self.kind(RateLimitType::Message)
}
pub fn post(&self) -> RateLimited {
self.kind(RateLimitType::Post)
}
pub fn register(&self) -> RateLimited {
self.kind(RateLimitType::Register)
}
fn kind(&self, type_: RateLimitType) -> RateLimited {
RateLimited {
rate_limiter: self.rate_limiter.clone(),
type_,
}
}
}
impl RateLimited {
pub async fn wrap<T, E>(
self,
ip_addr: String,
fut: impl Future<Output = Result<T, E>>,
) -> Result<T, E>
where
E: From<LemmyError>,
{
// Does not need to be blocking because the RwLock in settings never held across await points,
// and the operation here locks only long enough to clone
let rate_limit: RateLimitConfig = Settings::get().rate_limit;
// before
{
let mut limiter = self.rate_limiter.lock().await;
match self.type_ {
RateLimitType::Message => {
limiter.check_rate_limit_full(
self.type_,
&ip_addr,
rate_limit.message,
rate_limit.message_per_second,
false,
)?;
drop(limiter);
return fut.await;
}
RateLimitType::Post => {
limiter.check_rate_limit_full(
self.type_,
&ip_addr,
rate_limit.post,
rate_limit.post_per_second,
true,
)?;
}
RateLimitType::Register => {
limiter.check_rate_limit_full(
self.type_,
&ip_addr,
rate_limit.register,
rate_limit.register_per_second,
true,
)?;
}
};
}
let res = fut.await;
// after
{
let mut limiter = self.rate_limiter.lock().await;
if res.is_ok() {
match self.type_ {
RateLimitType::Post => {
limiter.check_rate_limit_full(
self.type_,
&ip_addr,
rate_limit.post,
rate_limit.post_per_second,
false,
)?;
}
RateLimitType::Register => {
limiter.check_rate_limit_full(
self.type_,
&ip_addr,
rate_limit.register,
rate_limit.register_per_second,
false,
)?;
}
_ => (),
};
}
}
res
}
}
impl<S> Transform<S> for RateLimited
where
S: Service<Request = ServiceRequest, Response = ServiceResponse, Error = actix_web::Error>,
S::Future: 'static,
{
type Request = S::Request;
type Response = S::Response;
type Error = actix_web::Error;
type InitError = ();
type Transform = RateLimitedMiddleware<S>;
type Future = Ready<Result<Self::Transform, Self::InitError>>;
fn new_transform(&self, service: S) -> Self::Future {
ok(RateLimitedMiddleware {
rate_limited: self.clone(),
service,
})
}
}
type FutResult<T, E> = dyn Future<Output = Result<T, E>>;
impl<S> Service for RateLimitedMiddleware<S>
where
S: Service<Request = ServiceRequest, Response = ServiceResponse, Error = actix_web::Error>,
S::Future: 'static,
{
type Request = S::Request;
type Response = S::Response;
type Error = actix_web::Error;
type Future = Pin<Box<FutResult<Self::Response, Self::Error>>>;
fn poll_ready(&mut self, cx: &mut Context<'_>) -> Poll<Result<(), Self::Error>> {
self.service.poll_ready(cx)
}
fn call(&mut self, req: S::Request) -> Self::Future {
let ip_addr = get_ip(&req.connection_info());
let fut = self
.rate_limited
.clone()
.wrap(ip_addr, self.service.call(req));
Box::pin(async move { fut.await.map_err(actix_web::Error::from) })
}
}
|
