MeiliSearch/crates/meilisearch/tests/common/server.rs
2024-10-21 08:18:43 +02:00

406 lines
14 KiB
Rust

#![allow(dead_code)]
use std::marker::PhantomData;
use std::path::Path;
use std::str::FromStr;
use std::time::Duration;
use actix_http::body::MessageBody;
use actix_web::dev::ServiceResponse;
use actix_web::http::StatusCode;
use byte_unit::{Byte, Unit};
use clap::Parser;
use meilisearch::option::{IndexerOpts, MaxMemory, MaxThreads, Opt};
use meilisearch::setup_meilisearch;
use once_cell::sync::Lazy;
use tempfile::TempDir;
use tokio::sync::OnceCell;
use tokio::time::sleep;
use uuid::Uuid;
use super::index::Index;
use super::service::Service;
use super::{Owned, Shared};
use crate::common::encoder::Encoder;
use crate::common::Value;
use crate::json;
pub struct Server<State = Owned> {
pub service: Service,
// hold ownership to the tempdir while we use the server instance.
_dir: Option<TempDir>,
_marker: PhantomData<State>,
}
pub static TEST_TEMP_DIR: Lazy<TempDir> = Lazy::new(|| TempDir::new().unwrap());
impl Server<Owned> {
fn into_shared(self) -> Server<Shared> {
Server { service: self.service, _dir: self._dir, _marker: PhantomData }
}
pub async fn new() -> Self {
let dir = TempDir::new().unwrap();
if cfg!(windows) {
std::env::set_var("TMP", TEST_TEMP_DIR.path());
} else {
std::env::set_var("TMPDIR", TEST_TEMP_DIR.path());
}
let options = default_settings(dir.path());
let (index_scheduler, auth) = setup_meilisearch(&options).unwrap();
let service = Service { index_scheduler, auth, options, api_key: None };
Server { service, _dir: Some(dir), _marker: PhantomData }
}
pub async fn new_auth_with_options(mut options: Opt, dir: TempDir) -> Self {
if cfg!(windows) {
std::env::set_var("TMP", TEST_TEMP_DIR.path());
} else {
std::env::set_var("TMPDIR", TEST_TEMP_DIR.path());
}
options.master_key = Some("MASTER_KEY".to_string());
let (index_scheduler, auth) = setup_meilisearch(&options).unwrap();
let service = Service { index_scheduler, auth, options, api_key: None };
Server { service, _dir: Some(dir), _marker: PhantomData }
}
pub async fn new_auth() -> Self {
let dir = TempDir::new().unwrap();
let options = default_settings(dir.path());
Self::new_auth_with_options(options, dir).await
}
pub async fn new_with_options(options: Opt) -> Result<Self, anyhow::Error> {
let (index_scheduler, auth) = setup_meilisearch(&options)?;
let service = Service { index_scheduler, auth, options, api_key: None };
Ok(Server { service, _dir: None, _marker: PhantomData })
}
pub fn use_api_key(&mut self, api_key: impl AsRef<str>) {
self.service.api_key = Some(api_key.as_ref().to_string());
}
/// Fetch and use the default admin key for nexts http requests.
pub async fn use_admin_key(&mut self, master_key: impl AsRef<str>) {
self.use_api_key(master_key);
let (response, code) = self.list_api_keys("").await;
assert_eq!(200, code, "{:?}", response);
let admin_key = &response["results"][1]["key"];
self.use_api_key(admin_key.as_str().unwrap());
}
pub async fn add_api_key(&self, content: Value) -> (Value, StatusCode) {
let url = "/keys";
self.service.post(url, content).await
}
pub async fn patch_api_key(&self, key: impl AsRef<str>, content: Value) -> (Value, StatusCode) {
let url = format!("/keys/{}", key.as_ref());
self.service.patch(url, content).await
}
pub async fn delete_api_key(&self, key: impl AsRef<str>) -> (Value, StatusCode) {
let url = format!("/keys/{}", key.as_ref());
self.service.delete(url).await
}
/// Returns a view to an index. There is no guarantee that the index exists.
pub fn index(&self, uid: impl AsRef<str>) -> Index<'_> {
self.index_with_encoder(uid, Encoder::Plain)
}
pub async fn create_index(&self, body: Value) -> (Value, StatusCode) {
self.service.post("/indexes", body).await
}
pub fn index_with_encoder(&self, uid: impl AsRef<str>, encoder: Encoder) -> Index<'_> {
Index {
uid: uid.as_ref().to_string(),
service: &self.service,
encoder,
marker: PhantomData,
}
}
pub async fn list_indexes(
&self,
offset: Option<usize>,
limit: Option<usize>,
) -> (Value, StatusCode) {
let (offset, limit) = (
offset.map(|offset| format!("offset={offset}")),
limit.map(|limit| format!("limit={limit}")),
);
let query_parameter = offset
.as_ref()
.zip(limit.as_ref())
.map(|(offset, limit)| format!("{offset}&{limit}"))
.or_else(|| offset.xor(limit));
if let Some(query_parameter) = query_parameter {
self.service.get(format!("/indexes?{query_parameter}")).await
} else {
self.service.get("/indexes").await
}
}
pub async fn stats(&self) -> (Value, StatusCode) {
self.service.get("/stats").await
}
pub async fn tasks(&self) -> (Value, StatusCode) {
self.service.get("/tasks").await
}
pub async fn set_features(&self, value: Value) -> (Value, StatusCode) {
self.service.patch("/experimental-features", value).await
}
pub async fn get_metrics(&self) -> (Value, StatusCode) {
self.service.get("/metrics").await
}
}
impl Server<Shared> {
fn init_new_shared_instance() -> Server<Shared> {
let dir = TempDir::new().unwrap();
if cfg!(windows) {
std::env::set_var("TMP", TEST_TEMP_DIR.path());
} else {
std::env::set_var("TMPDIR", TEST_TEMP_DIR.path());
}
let options = default_settings(dir.path());
let (index_scheduler, auth) = setup_meilisearch(&options).unwrap();
let service = Service { index_scheduler, auth, api_key: None, options };
Server { service, _dir: Some(dir), _marker: PhantomData }
}
pub fn new_shared() -> &'static Server<Shared> {
static SERVER: Lazy<Server<Shared>> = Lazy::new(Server::init_new_shared_instance);
&SERVER
}
pub async fn new_shared_with_admin_key() -> &'static Server<Shared> {
static SERVER: OnceCell<Server<Shared>> = OnceCell::const_new();
SERVER
.get_or_init(|| async {
let mut server = Server::new_auth().await;
server.use_admin_key("MASTER_KEY").await;
server.into_shared()
})
.await
}
/// You shouldn't access random indexes on a shared instance thus this method
/// must fail.
pub async fn get_index_fail(&self, uid: impl AsRef<str>) -> (Value, StatusCode) {
let url = format!("/indexes/{}", urlencoding::encode(uid.as_ref()));
let (value, code) = self.service.get(url).await;
if code.is_success() {
panic!("`get_index_fail` succeeded with uid: {}", uid.as_ref());
}
(value, code)
}
pub async fn delete_index_fail(&self, uid: impl AsRef<str>) -> (Value, StatusCode) {
let url = format!("/indexes/{}", urlencoding::encode(uid.as_ref()));
let (value, code) = self.service.delete(url).await;
if code.is_success() {
panic!("`delete_index_fail` succeeded with uid: {}", uid.as_ref());
}
(value, code)
}
pub async fn update_raw_index_fail(
&self,
uid: impl AsRef<str>,
body: Value,
) -> (Value, StatusCode) {
let url = format!("/indexes/{}", urlencoding::encode(uid.as_ref()));
let (value, code) = self.service.patch_encoded(url, body, Encoder::Plain).await;
if code.is_success() {
panic!("`update_raw_index_fail` succeeded with uid: {}", uid.as_ref());
}
(value, code)
}
/// Since this call updates the state of the instance, it must fail.
/// If it doesn't fail, the test will panic to help you debug what
/// is going on.
pub async fn create_index_fail(&self, body: Value) -> (Value, StatusCode) {
let (mut task, code) = self._create_index(body).await;
if code.is_success() {
task = self.wait_task(task.uid()).await;
if task.is_success() {
panic!(
"`create_index_fail` succeeded: {}",
serde_json::to_string_pretty(&task).unwrap()
);
}
}
(task, code)
}
}
impl<State> Server<State> {
pub async fn init_web_app(
&self,
) -> impl actix_web::dev::Service<
actix_http::Request,
Response = ServiceResponse<impl MessageBody>,
Error = actix_web::Error,
> {
self.service.init_web_app().await
}
pub async fn list_api_keys(&self, params: &str) -> (Value, StatusCode) {
let url = format!("/keys{params}");
self.service.get(url).await
}
pub async fn dummy_request(
&self,
method: impl AsRef<str>,
url: impl AsRef<str>,
) -> (Value, StatusCode) {
match method.as_ref() {
"POST" => self.service.post(url, json!({})).await,
"PUT" => self.service.put(url, json!({})).await,
"PATCH" => self.service.patch(url, json!({})).await,
"GET" => self.service.get(url).await,
"DELETE" => self.service.delete(url).await,
_ => unreachable!(),
}
}
pub async fn get_api_key(&self, key: impl AsRef<str>) -> (Value, StatusCode) {
let url = format!("/keys/{}", key.as_ref());
self.service.get(url).await
}
pub(super) fn _index(&self, uid: impl AsRef<str>) -> Index<'_> {
Index {
uid: uid.as_ref().to_string(),
service: &self.service,
encoder: Encoder::Plain,
marker: PhantomData,
}
}
/// Returns a view to an index. There is no guarantee that the index exists.
pub fn unique_index(&self) -> Index<'_> {
let uuid = Uuid::new_v4();
Index {
uid: uuid.to_string(),
service: &self.service,
encoder: Encoder::Plain,
marker: PhantomData,
}
}
pub fn unique_index_with_encoder(&self, encoder: Encoder) -> Index<'_> {
let uuid = Uuid::new_v4();
Index { uid: uuid.to_string(), service: &self.service, encoder, marker: PhantomData }
}
pub(super) async fn _create_index(&self, body: Value) -> (Value, StatusCode) {
self.service.post("/indexes", body).await
}
pub async fn multi_search(&self, queries: Value) -> (Value, StatusCode) {
self.service.post("/multi-search", queries).await
}
pub async fn list_indexes_raw(&self, parameters: &str) -> (Value, StatusCode) {
self.service.get(format!("/indexes{parameters}")).await
}
pub async fn tasks_filter(&self, filter: &str) -> (Value, StatusCode) {
self.service.get(format!("/tasks?{}", filter)).await
}
pub async fn version(&self) -> (Value, StatusCode) {
self.service.get("/version").await
}
pub async fn create_dump(&self) -> (Value, StatusCode) {
self.service.post("/dumps", json!(null)).await
}
pub async fn create_snapshot(&self) -> (Value, StatusCode) {
self.service.post("/snapshots", json!(null)).await
}
pub async fn index_swap(&self, value: Value) -> (Value, StatusCode) {
self.service.post("/swap-indexes", value).await
}
pub async fn cancel_tasks(&self, value: &str) -> (Value, StatusCode) {
self.service.post(format!("/tasks/cancel?{}", value), json!(null)).await
}
pub async fn delete_tasks(&self, value: &str) -> (Value, StatusCode) {
self.service.delete(format!("/tasks?{}", value)).await
}
pub async fn wait_task(&self, update_id: u64) -> Value {
// try several times to get status, or panic to not wait forever
let url = format!("/tasks/{}", update_id);
for _ in 0..100 {
let (response, status_code) = self.service.get(&url).await;
assert_eq!(200, status_code, "response: {}", response);
if response["status"] == "succeeded" || response["status"] == "failed" {
return response;
}
// wait 0.5 second.
sleep(Duration::from_millis(500)).await;
}
panic!("Timeout waiting for update id");
}
pub async fn get_task(&self, update_id: u64) -> (Value, StatusCode) {
let url = format!("/tasks/{}", update_id);
self.service.get(url).await
}
pub async fn get_features(&self) -> (Value, StatusCode) {
self.service.get("/experimental-features").await
}
}
pub fn default_settings(dir: impl AsRef<Path>) -> Opt {
Opt {
db_path: dir.as_ref().join("db"),
dump_dir: dir.as_ref().join("dumps"),
env: "development".to_owned(),
#[cfg(feature = "analytics")]
no_analytics: true,
max_index_size: Byte::from_u64_with_unit(100, Unit::MiB).unwrap(),
max_task_db_size: Byte::from_u64_with_unit(1, Unit::GiB).unwrap(),
http_payload_size_limit: Byte::from_u64_with_unit(10, Unit::MiB).unwrap(),
snapshot_dir: ".".into(),
indexer_options: IndexerOpts {
// memory has to be unlimited because several meilisearch are running in test context.
max_indexing_memory: MaxMemory::unlimited(),
skip_index_budget: true,
// Having 2 threads makes the tests way faster
max_indexing_threads: MaxThreads::from_str("2").unwrap(),
},
experimental_enable_metrics: false,
..Parser::parse_from(None as Option<&str>)
}
}