mirror of
https://github.com/meilisearch/MeiliSearch
synced 2024-11-29 16:24:26 +01:00
push and test the search queue datastructure
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@ -305,6 +305,7 @@ MissingSwapIndexes , InvalidRequest , BAD_REQUEST ;
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MissingTaskFilters , InvalidRequest , BAD_REQUEST ;
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NoSpaceLeftOnDevice , System , UNPROCESSABLE_ENTITY;
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PayloadTooLarge , InvalidRequest , PAYLOAD_TOO_LARGE ;
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TooManySearchRequests , System , SERVICE_UNAVAILABLE ;
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TaskNotFound , InvalidRequest , NOT_FOUND ;
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TooManyOpenFiles , System , UNPROCESSABLE_ENTITY ;
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TooManyVectors , InvalidRequest , BAD_REQUEST ;
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@ -29,6 +29,10 @@ pub enum MeilisearchHttpError {
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InvalidExpression(&'static [&'static str], Value),
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#[error("A {0} payload is missing.")]
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MissingPayload(PayloadType),
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#[error("Too many search requests running at the same time: {0}. Retry after {1:?}.")]
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TooManySearchRequests(usize, std::time::Duration),
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#[error("Internal error: Search limiter is down")]
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SearchLimiterIsDown,
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#[error("The provided payload reached the size limit. The maximum accepted payload size is {}.", Byte::from_bytes(*.0 as u64).get_appropriate_unit(true))]
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PayloadTooLarge(usize),
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#[error("Two indexes must be given for each swap. The list `[{}]` contains {} indexes.",
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@ -69,6 +73,8 @@ impl ErrorCode for MeilisearchHttpError {
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MeilisearchHttpError::EmptyFilter => Code::InvalidDocumentFilter,
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MeilisearchHttpError::InvalidExpression(_, _) => Code::InvalidSearchFilter,
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MeilisearchHttpError::PayloadTooLarge(_) => Code::PayloadTooLarge,
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MeilisearchHttpError::TooManySearchRequests(_, _) => Code::TooManySearchRequests,
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MeilisearchHttpError::SearchLimiterIsDown => Code::Internal,
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MeilisearchHttpError::SwapIndexPayloadWrongLength(_) => Code::InvalidSwapIndexes,
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MeilisearchHttpError::IndexUid(e) => e.error_code(),
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MeilisearchHttpError::SerdeJson(_) => Code::Internal,
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@ -9,6 +9,7 @@ pub mod middleware;
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pub mod option;
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pub mod routes;
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pub mod search;
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pub mod search_queue;
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use std::fs::File;
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use std::io::{BufReader, BufWriter};
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88
meilisearch/src/search_queue.rs
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88
meilisearch/src/search_queue.rs
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@ -0,0 +1,88 @@
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use std::time::Duration;
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use rand::{rngs::StdRng, Rng, SeedableRng};
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use tokio::sync::{mpsc, oneshot};
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use crate::error::MeilisearchHttpError;
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#[derive(Debug)]
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pub struct SearchQueue {
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sender: mpsc::Sender<oneshot::Sender<Permit>>,
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capacity: usize,
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}
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#[derive(Debug)]
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pub struct Permit {
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sender: mpsc::Sender<()>,
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}
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impl Drop for Permit {
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fn drop(&mut self) {
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// if the channel is closed then the whole instance is down
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let _ = futures::executor::block_on(self.sender.send(()));
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}
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}
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impl SearchQueue {
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pub fn new(capacity: usize, paralellism: usize) -> Self {
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// We can make the search requests wait until we're available.
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// they're going to wait anyway right after, so let's not allocate any
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// RAM by keeping a capacity of 1.
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let (sender, receiver) = mpsc::channel(1);
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tokio::task::spawn(Self::run(capacity, paralellism, receiver));
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Self { sender, capacity }
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}
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async fn run(
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capacity: usize,
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parallelism: usize,
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mut receive_new_searches: mpsc::Receiver<oneshot::Sender<Permit>>,
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) {
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let mut queue: Vec<oneshot::Sender<Permit>> = Default::default();
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let mut rng: StdRng = StdRng::from_entropy();
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let mut searches_running = 0;
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// by having a capacity of parallelism we ensures that every time a search finish it can release its RAM asap
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let (sender, mut search_finished) = mpsc::channel(parallelism);
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loop {
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tokio::select! {
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search_request = receive_new_searches.recv() => {
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let search_request = search_request.unwrap();
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println!("queue contains {} elements and already running {}", queue.len(), searches_running);
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if searches_running < parallelism && queue.is_empty() {
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println!("We can process the search straight away");
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searches_running += 1;
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// if the search requests die it's not a hard error on our side
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let _ = search_request.send(Permit { sender: sender.clone() });
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continue;
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}
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if queue.len() >= capacity {
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println!("we're above capacity, dropping a random request");
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let remove = rng.gen_range(0..queue.len());
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let thing = queue.swap_remove(remove); // this will drop the channel and notify the search that it won't be processed
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drop(thing);
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}
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println!("pushed a new search request to the queue {}", queue.len());
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queue.push(search_request);
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},
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_ = search_finished.recv() => {
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searches_running = searches_running.saturating_sub(1);
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if !queue.is_empty() {
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println!("processed an element in the queue");
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let remove = rng.gen_range(0..queue.len());
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let channel = queue.swap_remove(remove);
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let _ = channel.send(Permit { sender: sender.clone() });
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}
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},
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}
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}
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}
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pub async fn register_search(&self) -> Result<Permit, MeilisearchHttpError> {
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let (sender, receiver) = oneshot::channel();
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self.sender.send(sender).await.map_err(|_| MeilisearchHttpError::SearchLimiterIsDown)?;
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receiver.await.map_err(|_| {
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MeilisearchHttpError::TooManySearchRequests(self.capacity, Duration::from_secs(10))
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})
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}
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}
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@ -10,6 +10,7 @@ mod hybrid;
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mod multi;
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mod pagination;
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mod restrict_searchable;
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mod search_queue;
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use once_cell::sync::Lazy;
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120
meilisearch/tests/search/search_queue.rs
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120
meilisearch/tests/search/search_queue.rs
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@ -0,0 +1,120 @@
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use std::{sync::Arc, time::Duration};
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use meili_snap::snapshot;
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use meilisearch::search_queue::SearchQueue;
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#[actix_rt::test]
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async fn search_queue_register() {
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let queue = SearchQueue::new(4, 2);
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// First, use all the cores
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let permit1 = tokio::time::timeout(Duration::from_secs(1), queue.register_search())
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.await
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.expect("I should get a permit straight away")
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.unwrap();
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let _permit2 = tokio::time::timeout(Duration::from_secs(1), queue.register_search())
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.await
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.expect("I should get a permit straight away")
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.unwrap();
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// If we free one spot we should be able to register one new search
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drop(permit1);
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let permit3 = tokio::time::timeout(Duration::from_secs(1), queue.register_search())
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.await
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.expect("I should get a permit straight away")
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.unwrap();
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// And again
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drop(permit3);
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let _permit4 = tokio::time::timeout(Duration::from_secs(1), queue.register_search())
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.await
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.expect("I should get a permit straight away")
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.unwrap();
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}
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#[actix_rt::test]
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async fn search_queue_wait_till_cores_available() {
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let queue = Arc::new(SearchQueue::new(4, 1));
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// First, use all the cores
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let permit1 = tokio::time::timeout(Duration::from_secs(1), queue.register_search())
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.await
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.expect("I should get a permit straight away")
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.unwrap();
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let ret = tokio::time::timeout(Duration::from_secs(1), queue.register_search()).await;
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assert!(ret.is_err(), "The capacity is full, we should not get a permit");
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let q = queue.clone();
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let task = tokio::task::spawn(async move { q.register_search().await });
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// after dropping a permit the previous task should be able to finish
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drop(permit1);
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let _permit2 = tokio::time::timeout(Duration::from_secs(1), task)
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.await
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.expect("I should get a permit straight away")
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.unwrap();
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}
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#[actix_rt::test]
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async fn search_queue_refuse_search_requests() {
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let queue = Arc::new(SearchQueue::new(1, 1));
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// First, use the whole capacity of the
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let _permit1 = tokio::time::timeout(Duration::from_secs(1), queue.register_search())
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.await
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.expect("I should get a permit straight away")
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.unwrap();
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let q = queue.clone();
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let permit2 = tokio::task::spawn(async move { q.register_search().await });
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// Here the queue is full. By registering two new search requests the permit 2 and 3 should be thrown out
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let q = queue.clone();
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let _permit3 = tokio::task::spawn(async move { q.register_search().await });
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let permit2 = tokio::time::timeout(Duration::from_secs(1), permit2)
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.await
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.expect("I should get a result straight away")
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.unwrap(); // task should end successfully
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snapshot!(permit2.unwrap_err(), @"Too many search requests running at the same time: 1. Retry after 10s.");
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}
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#[actix_rt::test]
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async fn search_request_crashes_while_holding_permits() {
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let queue = Arc::new(SearchQueue::new(1, 1));
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let (send, recv) = tokio::sync::oneshot::channel();
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// This first request take a cpu
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let q = queue.clone();
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tokio::task::spawn(async move {
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let _permit = q.register_search().await.unwrap();
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recv.await.unwrap();
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panic!("oops an unexpected crash happened")
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});
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// This second request waits in the queue till the first request finishes
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let q = queue.clone();
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let task = tokio::task::spawn(async move {
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let _permit = q.register_search().await.unwrap();
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});
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// By sending something in the channel the request holding a CPU will panic and should lose its permit
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send.send(()).unwrap();
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// Then the second request should be able to process and finishes correctly without panic
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tokio::time::timeout(Duration::from_secs(1), task)
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.await
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.expect("I should get a permit straight away")
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.unwrap();
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// I should even be able to take second permit here
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let _permit1 = tokio::time::timeout(Duration::from_secs(1), queue.register_search())
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.await
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.expect("I should get a permit straight away")
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.unwrap();
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}
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