MeiliSearch/meilisearch/src/search_queue.rs

171 lines
7.8 KiB
Rust

//! This file implements a queue of searches to process and the ability to control how many searches can be run in parallel.
//! We need this because we don't want to process more search requests than we have cores.
//! That slows down everything and consumes RAM for no reason.
//! The steps to do a search are to get the `SearchQueue` data structure and try to get a search permit.
//! This can fail if the queue is full, and we need to drop your search request to register a new one.
//!
//! ### How to do a search request
//!
//! In order to do a search request you should try to get a search permit.
//! Retrieve the `SearchQueue` structure from actix-web (`search_queue: Data<SearchQueue>`)
//! and right before processing the search, calls the `SearchQueue::try_get_search_permit` method: `search_queue.try_get_search_permit().await?;`
//!
//! What is going to happen at this point is that you're going to send a oneshot::Sender over an async mpsc channel.
//! Then, the queue/scheduler is going to either:
//! - Drop your oneshot channel => that means there are too many searches going on, and yours won't be executed.
//! You should exit and free all the RAM you use ASAP.
//! - Sends you a Permit => that will unlock the method, and you will be able to process your search.
//! And should drop the Permit only once you have freed all the RAM consumed by the method.
use std::num::NonZeroUsize;
use std::time::Duration;
use rand::rngs::StdRng;
use rand::{Rng, SeedableRng};
use tokio::sync::{mpsc, oneshot};
use crate::error::MeilisearchHttpError;
#[derive(Debug)]
pub struct SearchQueue {
sender: mpsc::Sender<oneshot::Sender<Permit>>,
capacity: usize,
/// If we have waited longer than this to get a permit, we should abort the search request entirely.
/// The client probably already closed the connection, but we have no way to find out.
time_to_abort: Duration,
}
/// You should only run search requests while holding this permit.
/// Once it's dropped, a new search request will be able to process.
/// You should always try to drop the permit yourself calling the `drop` async method on it.
#[derive(Debug)]
pub struct Permit {
sender: mpsc::Sender<()>,
}
impl Permit {
/// Drop the permit giving back on permit to the search queue.
pub async fn drop(self) {
// if the channel is closed then the whole instance is down
let _ = self.sender.send(()).await;
}
}
impl Drop for Permit {
/// The implicit drop implementation can still be called in multiple cases:
/// - We forgot to call the explicit one somewhere => this should be fixed on our side asap
/// - The future is cancelled while running and the permit dropped with it
fn drop(&mut self) {
let sender = self.sender.clone();
// if the channel is closed then the whole instance is down
std::mem::drop(tokio::spawn(async move { sender.send(()).await }));
}
}
impl SearchQueue {
pub fn new(capacity: usize, paralellism: NonZeroUsize) -> Self {
// Search requests are going to wait until we're available anyway,
// so let's not allocate any RAM and keep a capacity of 1.
let (sender, receiver) = mpsc::channel(1);
tokio::task::spawn(Self::run(capacity, paralellism, receiver));
Self { sender, capacity, time_to_abort: Duration::from_secs(60) }
}
pub fn with_time_to_abort(self, time_to_abort: Duration) -> Self {
Self { time_to_abort, ..self }
}
/// This function is the main loop, it's in charge on scheduling which search request should execute first and
/// how many should executes at the same time.
///
/// It **must never** panic or exit.
async fn run(
capacity: usize,
parallelism: NonZeroUsize,
mut receive_new_searches: mpsc::Receiver<oneshot::Sender<Permit>>,
) {
let mut queue: Vec<oneshot::Sender<Permit>> = Default::default();
let mut rng: StdRng = StdRng::from_entropy();
let mut searches_running: usize = 0;
// By having a capacity of parallelism we ensures that every time a search finish it can release its RAM asap
let (sender, mut search_finished) = mpsc::channel(parallelism.into());
loop {
tokio::select! {
// biased select because we wants to free up space before trying to register new tasks
biased;
_ = search_finished.recv() => {
searches_running = searches_running.saturating_sub(1);
if !queue.is_empty() {
// Can't panic: the queue wasn't empty thus the range isn't empty.
let remove = rng.gen_range(0..queue.len());
let channel = queue.swap_remove(remove);
let _ = channel.send(Permit { sender: sender.clone() });
}
},
search_request = receive_new_searches.recv() => {
let search_request = match search_request {
Some(search_request) => search_request,
// This should never happen while actix-web is running, but it's not a reason to crash
// and it can generate a lot of noise in the tests.
None => continue,
};
if searches_running < usize::from(parallelism) && queue.is_empty() {
searches_running += 1;
// if the search requests die it's not a hard error on our side
let _ = search_request.send(Permit { sender: sender.clone() });
continue;
} else if capacity == 0 {
// in the very specific case where we have a capacity of zero
// we must refuse the request straight away without going through
// the queue stuff.
drop(search_request);
continue;
} else if queue.len() >= capacity {
let remove = rng.gen_range(0..queue.len());
let thing = queue.swap_remove(remove); // this will drop the channel and notify the search that it won't be processed
drop(thing);
}
queue.push(search_request);
},
}
}
}
/// Returns a search `Permit`.
/// It should be dropped as soon as you've freed all the RAM associated with the search request being processed.
pub async fn try_get_search_permit(&self) -> Result<Permit, MeilisearchHttpError> {
let now = std::time::Instant::now();
let (sender, receiver) = oneshot::channel();
self.sender.send(sender).await.map_err(|_| MeilisearchHttpError::SearchLimiterIsDown)?;
let permit = receiver
.await
.map_err(|_| MeilisearchHttpError::TooManySearchRequests(self.capacity))?;
// If we've been for more than one minute to get a search permit, it's better to simply
// abort the search request than spending time processing something were the client
// most certainly exited or got a timeout a long time ago.
// We may find a better solution in https://github.com/actix/actix-web/issues/3462.
if now.elapsed() > self.time_to_abort {
permit.drop().await;
Err(MeilisearchHttpError::TooManySearchRequests(self.capacity))
} else {
Ok(permit)
}
}
/// Returns `Ok(())` if everything seems normal.
/// Returns `Err(MeilisearchHttpError::SearchLimiterIsDown)` if the search limiter seems down.
pub fn health(&self) -> Result<(), MeilisearchHttpError> {
if self.sender.is_closed() {
Err(MeilisearchHttpError::SearchLimiterIsDown)
} else {
Ok(())
}
}
}