use paste::paste; use reqwest::Client; use reqwest::StatusCode; use reqwest_middleware::ClientBuilder; use reqwest_retry::{policies::ExponentialBackoff, RetryTransientMiddleware}; use std::sync::{ atomic::{AtomicU32, Ordering}, Arc, }; use wiremock::matchers::{method, path}; use wiremock::{Mock, MockServer, Respond, ResponseTemplate}; use crate::helpers::SimpleServer; pub struct RetryResponder(Arc, u32, u16); impl RetryResponder { fn new(retries: u32, status_code: u16) -> Self { Self(Arc::new(AtomicU32::new(0)), retries, status_code) } } impl Respond for RetryResponder { fn respond(&self, _request: &wiremock::Request) -> ResponseTemplate { let mut retries = self.0.load(Ordering::SeqCst); retries += 1; self.0.store(retries, Ordering::SeqCst); if retries + 1 >= self.1 { ResponseTemplate::new(200) } else { ResponseTemplate::new(self.2) } } } macro_rules! assert_retry_succeeds_inner { ($x:tt, $name:ident, $status:expr, $retry:tt, $exact:tt, $responder:expr) => { #[tokio::test] async fn $name() { let server = MockServer::start().await; let retry_amount: u32 = $retry; Mock::given(method("GET")) .and(path("/foo")) .respond_with($responder) .expect($exact) .mount(&server) .await; let reqwest_client = Client::builder().build().unwrap(); let client = ClientBuilder::new(reqwest_client) .with(RetryTransientMiddleware::new_with_policy( ExponentialBackoff { max_n_retries: retry_amount, max_retry_interval: std::time::Duration::from_millis(30), min_retry_interval: std::time::Duration::from_millis(100), backoff_exponent: 2, }, )) .build(); let resp = client .get(&format!("{}/foo", server.uri())) .send() .await .expect("call failed"); assert_eq!(resp.status(), $status); } }; } macro_rules! assert_retry_succeeds { ($x:tt, $status:expr) => { paste! { assert_retry_succeeds_inner!($x, [], $status, 3, 2, RetryResponder::new(3 as u32, $x)); } }; } macro_rules! assert_no_retry { ($x:tt, $status:expr) => { paste! { assert_retry_succeeds_inner!($x, [], $status, 1, 1, ResponseTemplate::new($x)); } }; } // 2xx. assert_no_retry!(200, StatusCode::OK); assert_no_retry!(201, StatusCode::CREATED); assert_no_retry!(202, StatusCode::ACCEPTED); assert_no_retry!(203, StatusCode::NON_AUTHORITATIVE_INFORMATION); assert_no_retry!(204, StatusCode::NO_CONTENT); assert_no_retry!(205, StatusCode::RESET_CONTENT); assert_no_retry!(206, StatusCode::PARTIAL_CONTENT); assert_no_retry!(207, StatusCode::MULTI_STATUS); assert_no_retry!(226, StatusCode::IM_USED); // 3xx. assert_no_retry!(300, StatusCode::MULTIPLE_CHOICES); assert_no_retry!(301, StatusCode::MOVED_PERMANENTLY); assert_no_retry!(302, StatusCode::FOUND); assert_no_retry!(303, StatusCode::SEE_OTHER); assert_no_retry!(304, StatusCode::NOT_MODIFIED); assert_no_retry!(307, StatusCode::TEMPORARY_REDIRECT); assert_no_retry!(308, StatusCode::PERMANENT_REDIRECT); // 5xx. assert_retry_succeeds!(500, StatusCode::OK); assert_retry_succeeds!(501, StatusCode::OK); assert_retry_succeeds!(502, StatusCode::OK); assert_retry_succeeds!(503, StatusCode::OK); assert_retry_succeeds!(504, StatusCode::OK); assert_retry_succeeds!(505, StatusCode::OK); assert_retry_succeeds!(506, StatusCode::OK); assert_retry_succeeds!(507, StatusCode::OK); assert_retry_succeeds!(508, StatusCode::OK); assert_retry_succeeds!(510, StatusCode::OK); assert_retry_succeeds!(511, StatusCode::OK); // 4xx. assert_no_retry!(400, StatusCode::BAD_REQUEST); assert_no_retry!(401, StatusCode::UNAUTHORIZED); assert_no_retry!(402, StatusCode::PAYMENT_REQUIRED); assert_no_retry!(403, StatusCode::FORBIDDEN); assert_no_retry!(404, StatusCode::NOT_FOUND); assert_no_retry!(405, StatusCode::METHOD_NOT_ALLOWED); assert_no_retry!(406, StatusCode::NOT_ACCEPTABLE); assert_no_retry!(407, StatusCode::PROXY_AUTHENTICATION_REQUIRED); assert_retry_succeeds!(408, StatusCode::OK); assert_no_retry!(409, StatusCode::CONFLICT); assert_no_retry!(410, StatusCode::GONE); assert_no_retry!(411, StatusCode::LENGTH_REQUIRED); assert_no_retry!(412, StatusCode::PRECONDITION_FAILED); assert_no_retry!(413, StatusCode::PAYLOAD_TOO_LARGE); assert_no_retry!(414, StatusCode::URI_TOO_LONG); assert_no_retry!(415, StatusCode::UNSUPPORTED_MEDIA_TYPE); assert_no_retry!(416, StatusCode::RANGE_NOT_SATISFIABLE); assert_no_retry!(417, StatusCode::EXPECTATION_FAILED); assert_no_retry!(418, StatusCode::IM_A_TEAPOT); assert_no_retry!(421, StatusCode::MISDIRECTED_REQUEST); assert_no_retry!(422, StatusCode::UNPROCESSABLE_ENTITY); assert_no_retry!(423, StatusCode::LOCKED); assert_no_retry!(424, StatusCode::FAILED_DEPENDENCY); assert_no_retry!(426, StatusCode::UPGRADE_REQUIRED); assert_no_retry!(428, StatusCode::PRECONDITION_REQUIRED); assert_retry_succeeds!(429, StatusCode::OK); assert_no_retry!(431, StatusCode::REQUEST_HEADER_FIELDS_TOO_LARGE); assert_no_retry!(451, StatusCode::UNAVAILABLE_FOR_LEGAL_REASONS); pub struct RetryTimeoutResponder(Arc, u32, std::time::Duration); impl RetryTimeoutResponder { fn new(retries: u32, initial_timeout: std::time::Duration) -> Self { Self(Arc::new(AtomicU32::new(0)), retries, initial_timeout) } } impl Respond for RetryTimeoutResponder { fn respond(&self, _request: &wiremock::Request) -> ResponseTemplate { let mut retries = self.0.load(Ordering::SeqCst); retries += 1; self.0.store(retries, Ordering::SeqCst); if retries + 1 >= self.1 { ResponseTemplate::new(200) } else { ResponseTemplate::new(500).set_delay(self.2) } } } #[tokio::test] async fn assert_retry_on_request_timeout() { let server = MockServer::start().await; Mock::given(method("GET")) .and(path("/foo")) .respond_with(RetryTimeoutResponder::new( 3, std::time::Duration::from_millis(1000), )) .expect(2) .mount(&server) .await; let reqwest_client = Client::builder().build().unwrap(); let client = ClientBuilder::new(reqwest_client) .with(RetryTransientMiddleware::new_with_policy( ExponentialBackoff { max_n_retries: 3, max_retry_interval: std::time::Duration::from_millis(100), min_retry_interval: std::time::Duration::from_millis(30), backoff_exponent: 2, }, )) .build(); let resp = client .get(&format!("{}/foo", server.uri())) .timeout(std::time::Duration::from_millis(10)) .send() .await .expect("call failed"); assert_eq!(resp.status(), 200); } #[tokio::test] async fn assert_retry_on_incomplete_message() { // Following the HTTP/1.1 specification (https://en.wikipedia.org/wiki/HTTP_message_body) a valid response contains: // - status line // - headers // - empty line // - optional message body // // After a few tries we have noticed that: // - "message_that_makes_no_sense" triggers a hyper::ParseError because the format is completely wrong // - "HTTP/1.1" triggers a hyper::IncompleteMessage because the format is correct until that point but misses mandatory parts let incomplete_message = "HTTP/1.1"; let complete_message = "HTTP/1.1 200 OK\r\n\r\n"; // create a SimpleServer that returns the correct response after 3 attempts. // the first 3 attempts are incomplete http response and internally they result in a [`hyper::Error(IncompleteMessage)`] error. let simple_server = SimpleServer::new( "127.0.0.1", None, vec![ incomplete_message.to_string(), incomplete_message.to_string(), incomplete_message.to_string(), complete_message.to_string(), ], ) .await .expect("Error when creating a simple server"); let uri = simple_server.uri(); tokio::spawn(simple_server.start()); let reqwest_client = Client::builder().build().unwrap(); let client = ClientBuilder::new(reqwest_client) .with(RetryTransientMiddleware::new_with_policy( ExponentialBackoff { max_n_retries: 3, max_retry_interval: std::time::Duration::from_millis(100), min_retry_interval: std::time::Duration::from_millis(30), backoff_exponent: 2, }, )) .build(); let resp = client .get(&format!("{}/foo", uri)) .timeout(std::time::Duration::from_millis(100)) .send() .await .expect("call failed"); assert_eq!(resp.status(), 200); }