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131 lines
3.6 KiB
Rust
131 lines
3.6 KiB
Rust
use std::sync::Arc;
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use chrono::{Duration, Utc};
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use common_kafka::test::create_mock_kafka;
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use cyclotron_core::{Bytes, Job, JobInit, QueueError, Worker};
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use cyclotron_fetch::{
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config::AppConfig,
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context::AppContext,
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fetch::{FetchParameters, HttpMethod},
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};
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use sqlx::PgPool;
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use tokio::sync::Semaphore;
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const FETCH_QUEUE: &str = "fetch";
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const RETURN_QUEUE: &str = "return";
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pub async fn get_app_test_context(db: PgPool) -> AppContext {
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let worker = Worker::from_pool(db.clone(), Default::default());
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let client = reqwest::Client::new();
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let concurrency_limit = Arc::new(Semaphore::new(1));
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let health = health::HealthRegistry::new("test");
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let liveness = health
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.register("test".to_string(), Duration::seconds(30).to_std().unwrap())
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.await;
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let config = AppConfig {
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fetch_timeout: Duration::seconds(10),
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concurrent_requests_limit: 1,
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host: "localhost".to_string(),
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port: 16,
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worker_id: "test".to_string(),
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shard_id: "test".to_string(),
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job_poll_interval: Duration::seconds(10),
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max_retry_attempts: 3,
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queue_served: FETCH_QUEUE.to_string(),
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batch_size: 1000,
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max_response_bytes: 1024 * 1024,
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retry_backoff_base: Duration::milliseconds(1000),
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allow_internal_ips: true,
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};
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let (_, mock_producer) = create_mock_kafka().await;
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AppContext {
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worker,
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client,
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kafka_producer: mock_producer,
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concurrency_limit,
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liveness,
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config,
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metric_labels: Default::default(),
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}
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}
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pub fn construct_params(url: String, method: HttpMethod) -> FetchParameters {
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FetchParameters {
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url,
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method,
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return_queue: RETURN_QUEUE.to_string(),
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headers: None,
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max_tries: None,
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on_finish: None,
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}
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}
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pub fn construct_job(parameters: FetchParameters, body: Option<Bytes>) -> JobInit {
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JobInit {
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team_id: 1,
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queue_name: FETCH_QUEUE.to_string(),
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priority: 0,
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scheduled: Utc::now() - Duration::seconds(1),
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function_id: None,
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vm_state: None,
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parameters: Some(serde_json::to_vec(¶meters).unwrap()),
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blob: body,
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metadata: None,
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}
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}
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pub async fn wait_on_return(
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worker: &Worker,
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count: usize,
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with_vm: bool,
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) -> Result<Vec<Job>, QueueError> {
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let timeout = Duration::seconds(1);
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let start = Utc::now();
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let mut returned = vec![];
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while start + timeout > Utc::now() {
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let mut jobs = if with_vm {
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worker.dequeue_with_vm_state(RETURN_QUEUE, 1).await?
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} else {
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worker.dequeue_jobs(RETURN_QUEUE, 1).await?
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};
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returned.append(&mut jobs);
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if returned.len() == count {
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return Ok(returned);
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}
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if returned.len() > count {
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panic!("Too many jobs returned");
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}
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}
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panic!("Timeout waiting for jobs to return");
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}
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pub async fn wait_on_no_running(pool: &PgPool, max_time: Duration) {
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let start = Utc::now();
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loop {
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let running: i64 =
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sqlx::query_scalar("SELECT COUNT(*) FROM cyclotron_jobs WHERE state = 'running'")
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.fetch_one(pool)
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.await
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.unwrap();
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if running == 0 {
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return;
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}
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if Utc::now() - start > max_time {
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panic!("Timeout waiting for jobs to finish");
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}
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}
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}
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pub async fn make_immediately_available(pool: &PgPool) {
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sqlx::query(
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"UPDATE cyclotron_jobs SET scheduled = NOW() - INTERVAL '1 second' WHERE state = 'available'",
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)
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.execute(pool)
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.await
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.unwrap();
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}
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