2024-10-21 08:18:43 +02:00

196 lines
6.9 KiB
Rust

use meili_snap::{json_string, snapshot};
use serde_json::{json, Value};
use crate::common::Server;
#[actix_rt::test]
async fn create_and_get_index() {
let server = Server::new().await;
let index = server.index("test");
let (_, code) = index.create(None).await;
assert_eq!(code, 202);
index.wait_task(0).await;
let (response, code) = index.get().await;
assert_eq!(code, 200);
assert_eq!(response["uid"], "test");
assert!(response.get("createdAt").is_some());
assert!(response.get("updatedAt").is_some());
assert_eq!(response["createdAt"], response["updatedAt"]);
assert_eq!(response["primaryKey"], Value::Null);
assert_eq!(response.as_object().unwrap().len(), 4);
}
#[actix_rt::test]
async fn error_get_unexisting_index() {
let server = Server::new().await;
let index = server.index("test");
let (response, code) = index.get().await;
let expected_response = json!({
"message": "Index `test` not found.",
"code": "index_not_found",
"type": "invalid_request",
"link": "https://docs.meilisearch.com/errors#index_not_found"
});
assert_eq!(response, expected_response);
assert_eq!(code, 404);
}
#[actix_rt::test]
async fn no_index_return_empty_list() {
let server = Server::new().await;
let (response, code) = server.list_indexes(None, None).await;
assert_eq!(code, 200);
assert!(response["results"].is_array());
assert!(response["results"].as_array().unwrap().is_empty());
}
#[actix_rt::test]
async fn list_multiple_indexes() {
let server = Server::new().await;
server.index("test").create(None).await;
server.index("test1").create(Some("key")).await;
server.index("test").wait_task(1).await;
let (response, code) = server.list_indexes(None, None).await;
assert_eq!(code, 200);
assert!(response["results"].is_array());
let arr = response["results"].as_array().unwrap();
assert_eq!(arr.len(), 2);
assert!(arr.iter().any(|entry| entry["uid"] == "test" && entry["primaryKey"] == Value::Null));
assert!(arr.iter().any(|entry| entry["uid"] == "test1" && entry["primaryKey"] == "key"));
}
#[actix_rt::test]
async fn get_and_paginate_indexes() {
let server = Server::new().await;
const NB_INDEXES: usize = 50;
for i in 0..NB_INDEXES {
server.index(&format!("test_{i:02}")).create(None).await;
server.index(&format!("test_{i:02}")).wait_task(i as u64).await;
}
// basic
let (response, code) = server.list_indexes(None, None).await;
assert_eq!(code, 200);
assert_eq!(response["limit"], json!(20));
assert_eq!(response["offset"], json!(0));
assert_eq!(response["total"], json!(NB_INDEXES));
assert!(response["results"].is_array());
let arr = response["results"].as_array().unwrap();
assert_eq!(arr.len(), 20);
// ensuring we get all the indexes in the alphabetical order
assert!((0..20)
.map(|idx| format!("test_{idx:02}"))
.zip(arr)
.all(|(expected, entry)| entry["uid"] == expected));
// with an offset
let (response, code) = server.list_indexes(Some(15), None).await;
assert_eq!(code, 200);
assert_eq!(response["limit"], json!(20));
assert_eq!(response["offset"], json!(15));
assert_eq!(response["total"], json!(NB_INDEXES));
assert!(response["results"].is_array());
let arr = response["results"].as_array().unwrap();
assert_eq!(arr.len(), 20);
assert!((15..35)
.map(|idx| format!("test_{idx:02}"))
.zip(arr)
.all(|(expected, entry)| entry["uid"] == expected));
// with an offset and not enough elements
let (response, code) = server.list_indexes(Some(45), None).await;
assert_eq!(code, 200);
assert_eq!(response["limit"], json!(20));
assert_eq!(response["offset"], json!(45));
assert_eq!(response["total"], json!(NB_INDEXES));
assert!(response["results"].is_array());
let arr = response["results"].as_array().unwrap();
assert_eq!(arr.len(), 5);
assert!((45..50)
.map(|idx| format!("test_{idx:02}"))
.zip(arr)
.all(|(expected, entry)| entry["uid"] == expected));
// with a limit lower than the default
let (response, code) = server.list_indexes(None, Some(5)).await;
assert_eq!(code, 200);
assert_eq!(response["limit"], json!(5));
assert_eq!(response["offset"], json!(0));
assert_eq!(response["total"], json!(NB_INDEXES));
assert!(response["results"].is_array());
let arr = response["results"].as_array().unwrap();
assert_eq!(arr.len(), 5);
assert!((0..5)
.map(|idx| format!("test_{idx:02}"))
.zip(arr)
.all(|(expected, entry)| entry["uid"] == expected));
// with a limit higher than the default
let (response, code) = server.list_indexes(None, Some(40)).await;
assert_eq!(code, 200);
assert_eq!(response["limit"], json!(40));
assert_eq!(response["offset"], json!(0));
assert_eq!(response["total"], json!(NB_INDEXES));
assert!(response["results"].is_array());
let arr = response["results"].as_array().unwrap();
assert_eq!(arr.len(), 40);
assert!((0..40)
.map(|idx| format!("test_{idx:02}"))
.zip(arr)
.all(|(expected, entry)| entry["uid"] == expected));
// with a limit higher than the default
let (response, code) = server.list_indexes(None, Some(80)).await;
assert_eq!(code, 200);
assert_eq!(response["limit"], json!(80));
assert_eq!(response["offset"], json!(0));
assert_eq!(response["total"], json!(NB_INDEXES));
assert!(response["results"].is_array());
let arr = response["results"].as_array().unwrap();
assert_eq!(arr.len(), 50);
assert!((0..50)
.map(|idx| format!("test_{idx:02}"))
.zip(arr)
.all(|(expected, entry)| entry["uid"] == expected));
// with a limit and an offset
let (response, code) = server.list_indexes(Some(20), Some(10)).await;
assert_eq!(code, 200);
assert_eq!(response["limit"], json!(10));
assert_eq!(response["offset"], json!(20));
assert_eq!(response["total"], json!(NB_INDEXES));
assert!(response["results"].is_array());
let arr = response["results"].as_array().unwrap();
assert_eq!(arr.len(), 10);
assert!((20..30)
.map(|idx| format!("test_{idx:02}"))
.zip(arr)
.all(|(expected, entry)| entry["uid"] == expected));
}
#[actix_rt::test]
async fn get_invalid_index_uid() {
let server = Server::new().await;
let index = server.index("this is not a valid index name");
let (response, code) = index.get().await;
snapshot!(code, @"400 Bad Request");
snapshot!(json_string!(response), @r###"
{
"message": "`this is not a valid index name` is not a valid index uid. Index uid can be an integer or a string containing only alphanumeric characters, hyphens (-) and underscores (_), and can not be more than 512 bytes.",
"code": "invalid_index_uid",
"type": "invalid_request",
"link": "https://docs.meilisearch.com/errors#invalid_index_uid"
}
"###);
}