1
0
Fork 0
mirror of https://github.com/Nutomic/ibis.git synced 2024-11-22 15:31:08 +00:00
ibis/tests/test.rs

473 lines
17 KiB
Rust

extern crate fediwiki;
mod common;
use crate::common::{
create_article, edit_article, edit_article_with_conflict, follow_instance, get_article,
get_query, post, TestData, TEST_ARTICLE_DEFAULT_TEXT,
};
use common::get;
use fediwiki::api::{
ApiConflict, EditArticleData, ForkArticleData, ResolveObject, SearchArticleData,
};
use fediwiki::database::article::{ArticleView, DbArticle};
use fediwiki::error::MyResult;
use fediwiki::federation::objects::instance::DbInstance;
use pretty_assertions::{assert_eq, assert_ne};
use serial_test::serial;
use url::Url;
#[tokio::test]
#[serial]
async fn test_create_read_and_edit_article() -> MyResult<()> {
let data = TestData::start();
// create article
let title = "Manu_Chao".to_string();
let create_res = create_article(&data.alpha.hostname, title.clone()).await?;
assert_eq!(title, create_res.article.title);
assert!(create_res.article.local);
// now article can be read
let get_res = get_article(&data.alpha.hostname, create_res.article.id).await?;
assert_eq!(title, get_res.article.title);
assert_eq!(TEST_ARTICLE_DEFAULT_TEXT, get_res.article.text);
assert!(get_res.article.local);
// error on article which wasnt federated
let not_found = get_article(&data.beta.hostname, create_res.article.id).await;
assert!(not_found.is_err());
// edit article
let edit_form = EditArticleData {
article_id: create_res.article.id,
new_text: "Lorem Ipsum 2".to_string(),
previous_version: get_res.latest_version,
resolve_conflict_id: None,
};
let edit_res = edit_article(&data.alpha.hostname, &edit_form).await?;
assert_eq!(edit_form.new_text, edit_res.article.text);
assert_eq!(2, edit_res.edits.len());
let search_form = SearchArticleData {
query: title.clone(),
};
let search_res: Vec<DbArticle> =
get_query(&data.alpha.hostname, "search", Some(search_form)).await?;
assert_eq!(1, search_res.len());
assert_eq!(edit_res.article, search_res[0]);
data.stop()
}
#[tokio::test]
#[serial]
async fn test_create_duplicate_article() -> MyResult<()> {
let data = TestData::start();
// create article
let title = "Manu_Chao".to_string();
let create_res = create_article(&data.alpha.hostname, title.clone()).await?;
assert_eq!(title, create_res.article.title);
assert!(create_res.article.local);
let create_res = create_article(&data.alpha.hostname, title.clone()).await;
assert!(create_res.is_err());
data.stop()
}
#[tokio::test]
#[serial]
async fn test_follow_instance() -> MyResult<()> {
let data = TestData::start();
// check initial state
let alpha_instance: DbInstance = get(&data.alpha.hostname, "instance").await?;
assert_eq!(0, alpha_instance.follows.len());
let beta_instance: DbInstance = get(&data.beta.hostname, "instance").await?;
assert_eq!(0, beta_instance.followers.len());
follow_instance(&data.alpha.hostname, &data.beta.hostname).await?;
// check that follow was federated
let beta_instance: DbInstance = get(&data.beta.hostname, "instance").await?;
assert_eq!(1, beta_instance.followers.len());
let alpha_instance: DbInstance = get(&data.alpha.hostname, "instance").await?;
assert_eq!(1, alpha_instance.follows.len());
data.stop()
}
#[tokio::test]
#[serial]
async fn test_synchronize_articles() -> MyResult<()> {
let data = TestData::start();
// create article on alpha
let title = "Manu_Chao".to_string();
let create_res = create_article(&data.alpha.hostname, title.clone()).await?;
assert_eq!(title, create_res.article.title);
assert_eq!(1, create_res.edits.len());
assert!(create_res.article.local);
// edit the article
let edit_form = EditArticleData {
article_id: create_res.article.id,
new_text: "Lorem Ipsum 2\n".to_string(),
previous_version: create_res.latest_version,
resolve_conflict_id: None,
};
edit_article(&data.alpha.hostname, &edit_form).await?;
// article is not yet on beta
let get_res = get_article(&data.beta.hostname, create_res.article.id).await;
assert!(get_res.is_err());
// fetch alpha instance on beta, articles are also fetched automatically
let resolve_object = ResolveObject {
id: Url::parse(&format!("http://{}", &data.alpha.hostname))?,
};
get_query::<DbInstance, _>(
&data.beta.hostname,
"resolve_instance",
Some(resolve_object),
)
.await?;
// get the article and compare
let get_res = get_article(&data.beta.hostname, create_res.article.id).await?;
assert_eq!(create_res.article.ap_id, get_res.article.ap_id);
assert_eq!(title, get_res.article.title);
assert_eq!(2, get_res.edits.len());
assert_eq!(edit_form.new_text, get_res.article.text);
assert!(!get_res.article.local);
data.stop()
}
#[tokio::test]
#[serial]
async fn test_edit_local_article() -> MyResult<()> {
let data = TestData::start();
follow_instance(&data.alpha.hostname, &data.beta.hostname).await?;
// create new article
let title = "Manu_Chao".to_string();
let create_res = create_article(&data.beta.hostname, title.clone()).await?;
assert_eq!(title, create_res.article.title);
assert!(create_res.article.local);
// article should be federated to alpha
let get_res = get_article(&data.alpha.hostname, create_res.article.id).await?;
assert_eq!(create_res.article.title, get_res.article.title);
assert_eq!(1, get_res.edits.len());
assert!(!get_res.article.local);
assert_eq!(create_res.article.text, get_res.article.text);
// edit the article
let edit_form = EditArticleData {
article_id: create_res.article.id,
new_text: "Lorem Ipsum 2".to_string(),
previous_version: get_res.latest_version,
resolve_conflict_id: None,
};
let edit_res = edit_article(&data.beta.hostname, &edit_form).await?;
assert_eq!(edit_res.article.text, edit_form.new_text);
assert_eq!(edit_res.edits.len(), 2);
assert!(edit_res.edits[0]
.ap_id
.to_string()
.starts_with(&edit_res.article.ap_id.to_string()));
// edit should be federated to alpha
let get_res = get_article(&data.alpha.hostname, edit_res.article.id).await?;
assert_eq!(edit_res.article.title, get_res.article.title);
assert_eq!(edit_res.edits.len(), 2);
assert_eq!(edit_res.article.text, get_res.article.text);
data.stop()
}
#[tokio::test]
#[serial]
async fn test_edit_remote_article() -> MyResult<()> {
let data = TestData::start();
follow_instance(&data.alpha.hostname, &data.beta.hostname).await?;
follow_instance(&data.gamma.hostname, &data.beta.hostname).await?;
// create new article
let title = "Manu_Chao".to_string();
let create_res = create_article(&data.beta.hostname, title.clone()).await?;
assert_eq!(title, create_res.article.title);
assert!(create_res.article.local);
// article should be federated to alpha and gamma
let get_res = get_article(&data.alpha.hostname, create_res.article.id).await?;
assert_eq!(create_res.article.title, get_res.article.title);
assert_eq!(1, get_res.edits.len());
assert!(!get_res.article.local);
let get_res = get_article(&data.gamma.hostname, create_res.article.id).await?;
assert_eq!(create_res.article.title, get_res.article.title);
assert_eq!(create_res.article.text, get_res.article.text);
let edit_form = EditArticleData {
article_id: create_res.article.id,
new_text: "Lorem Ipsum 2".to_string(),
previous_version: get_res.latest_version,
resolve_conflict_id: None,
};
let edit_res = edit_article(&data.alpha.hostname, &edit_form).await?;
assert_eq!(edit_form.new_text, edit_res.article.text);
assert_eq!(2, edit_res.edits.len());
assert!(!edit_res.article.local);
assert!(edit_res.edits[0]
.ap_id
.to_string()
.starts_with(&edit_res.article.ap_id.to_string()));
// edit should be federated to beta and gamma
let get_res = get_article(&data.alpha.hostname, create_res.article.id).await?;
assert_eq!(edit_res.article.title, get_res.article.title);
assert_eq!(edit_res.edits.len(), 2);
assert_eq!(edit_res.article.text, get_res.article.text);
let get_res = get_article(&data.gamma.hostname, create_res.article.id).await?;
assert_eq!(edit_res.article.title, get_res.article.title);
assert_eq!(edit_res.edits.len(), 2);
assert_eq!(edit_res.article.text, get_res.article.text);
data.stop()
}
#[tokio::test]
#[serial]
async fn test_local_edit_conflict() -> MyResult<()> {
let data = TestData::start();
// create new article
let title = "Manu_Chao".to_string();
let create_res = create_article(&data.alpha.hostname, title.clone()).await?;
assert_eq!(title, create_res.article.title);
assert!(create_res.article.local);
// one user edits article
let edit_form = EditArticleData {
article_id: create_res.article.id,
new_text: "Lorem Ipsum\n".to_string(),
previous_version: create_res.latest_version.clone(),
resolve_conflict_id: None,
};
let edit_res = edit_article(&data.alpha.hostname, &edit_form).await?;
assert_eq!(edit_res.article.text, edit_form.new_text);
assert_eq!(2, edit_res.edits.len());
// another user edits article, without being aware of previous edit
let edit_form = EditArticleData {
article_id: create_res.article.id,
new_text: "Ipsum Lorem\n".to_string(),
previous_version: create_res.latest_version,
resolve_conflict_id: None,
};
let edit_res = edit_article_with_conflict(&data.alpha.hostname, &edit_form)
.await?
.unwrap();
assert_eq!("<<<<<<< ours\nIpsum Lorem\n||||||| original\nsome\nexample\ntext\n=======\nLorem Ipsum\n>>>>>>> theirs\n", edit_res.three_way_merge);
let conflicts: Vec<ApiConflict> =
get_query(&data.alpha.hostname, "edit_conflicts", None::<()>).await?;
assert_eq!(1, conflicts.len());
assert_eq!(conflicts[0], edit_res);
let edit_form = EditArticleData {
article_id: create_res.article.id,
new_text: "Lorem Ipsum and Ipsum Lorem\n".to_string(),
previous_version: edit_res.previous_version,
resolve_conflict_id: Some(edit_res.id),
};
let edit_res = edit_article(&data.alpha.hostname, &edit_form).await?;
assert_eq!(edit_form.new_text, edit_res.article.text);
let conflicts: Vec<ApiConflict> =
get_query(&data.alpha.hostname, "edit_conflicts", None::<()>).await?;
assert_eq!(0, conflicts.len());
data.stop()
}
#[tokio::test]
#[serial]
async fn test_federated_edit_conflict() -> MyResult<()> {
let data = TestData::start();
follow_instance(&data.alpha.hostname, &data.beta.hostname).await?;
// create new article
let title = "Manu_Chao".to_string();
let create_res = create_article(&data.beta.hostname, title.clone()).await?;
assert_eq!(title, create_res.article.title);
assert!(create_res.article.local);
// fetch article to gamma
let resolve_object = ResolveObject {
id: create_res.article.ap_id.inner().clone(),
};
let resolve_res: ArticleView = get_query(
&data.gamma.hostname,
"resolve_article",
Some(resolve_object),
)
.await?;
assert_eq!(create_res.article.text, resolve_res.article.text);
// alpha edits article
let edit_form = EditArticleData {
article_id: create_res.article.id,
new_text: "Lorem Ipsum\n".to_string(),
previous_version: create_res.latest_version.clone(),
resolve_conflict_id: None,
};
let edit_res = edit_article(&data.alpha.hostname, &edit_form).await?;
assert_eq!(edit_res.article.text, edit_form.new_text);
assert_eq!(2, edit_res.edits.len());
assert!(!edit_res.article.local);
assert!(edit_res.edits[1]
.ap_id
.to_string()
.starts_with(&edit_res.article.ap_id.to_string()));
// gamma also edits, as its not the latest version there is a conflict. local version should
// not be updated with this conflicting version, instead user needs to handle the conflict
dbg!(&create_res.article.text, &create_res.latest_version);
let edit_form = EditArticleData {
article_id: create_res.article.id,
new_text: "aaaa\n".to_string(),
previous_version: create_res.latest_version,
resolve_conflict_id: None,
};
dbg!(1);
let edit_res = edit_article(&data.gamma.hostname, &edit_form).await?;
assert_ne!(edit_form.new_text, edit_res.article.text);
assert_eq!(2, edit_res.edits.len());
assert!(!edit_res.article.local);
dbg!(2);
let conflicts: Vec<ApiConflict> =
get_query(&data.gamma.hostname, "edit_conflicts", None::<()>).await?;
assert_eq!(1, conflicts.len());
// resolve the conflict
let edit_form = EditArticleData {
article_id: create_res.article.id,
new_text: "aaaa\n".to_string(),
previous_version: conflicts[0].previous_version.clone(),
resolve_conflict_id: Some(conflicts[0].id),
};
dbg!(3);
let edit_res = edit_article(&data.gamma.hostname, &edit_form).await?;
assert_eq!(edit_form.new_text, edit_res.article.text);
assert_eq!(3, edit_res.edits.len());
dbg!(4);
let conflicts: Vec<ApiConflict> =
get_query(&data.gamma.hostname, "edit_conflicts", None::<()>).await?;
assert_eq!(0, conflicts.len());
dbg!(5);
data.stop()
}
#[tokio::test]
#[serial]
async fn test_overlapping_edits_no_conflict() -> MyResult<()> {
let data = TestData::start();
// create new article
let title = "Manu_Chao".to_string();
let create_res = create_article(&data.alpha.hostname, title.clone()).await?;
assert_eq!(title, create_res.article.title);
assert!(create_res.article.local);
// one user edits article
let edit_form = EditArticleData {
article_id: create_res.article.id,
new_text: "my\nexample\ntext\n".to_string(),
previous_version: create_res.latest_version.clone(),
resolve_conflict_id: None,
};
let edit_res = edit_article(&data.alpha.hostname, &edit_form).await?;
assert_eq!(edit_res.article.text, edit_form.new_text);
assert_eq!(2, edit_res.edits.len());
// another user edits article, without being aware of previous edit
let edit_form = EditArticleData {
article_id: create_res.article.id,
new_text: "some\nexample\narticle\n".to_string(),
previous_version: create_res.latest_version,
resolve_conflict_id: None,
};
let edit_res = edit_article(&data.alpha.hostname, &edit_form).await?;
let conflicts: Vec<ApiConflict> =
get_query(&data.alpha.hostname, "edit_conflicts", None::<()>).await?;
assert_eq!(0, conflicts.len());
assert_eq!(3, edit_res.edits.len());
assert_eq!("my\nexample\narticle\n", edit_res.article.text);
data.stop()
}
#[tokio::test]
#[serial]
async fn test_fork_article() -> MyResult<()> {
let data = TestData::start();
// create article
let title = "Manu_Chao".to_string();
let create_res = create_article(&data.alpha.hostname, title.clone()).await?;
assert_eq!(title, create_res.article.title);
assert!(create_res.article.local);
// fetch on beta
let resolve_object = ResolveObject {
id: create_res.article.ap_id.into_inner(),
};
let resolve_res: ArticleView =
get_query(&data.beta.hostname, "resolve_article", Some(resolve_object)).await?;
let resolved_article = resolve_res.article;
assert_eq!(create_res.edits.len(), resolve_res.edits.len());
// fork the article to local instance
let fork_form = ForkArticleData {
article_id: resolved_article.id,
};
let fork_res: ArticleView = post(&data.beta.hostname, "article/fork", &fork_form).await?;
let forked_article = fork_res.article;
assert_eq!(resolved_article.title, forked_article.title);
assert_eq!(resolved_article.text, forked_article.text);
assert_eq!(resolve_res.edits.len(), fork_res.edits.len());
assert_eq!(resolve_res.edits[0].diff, fork_res.edits[0].diff);
assert_eq!(resolve_res.edits[0].version, fork_res.edits[0].version);
assert_ne!(resolve_res.edits[0].id, fork_res.edits[0].id);
assert!(fork_res.edits[0].local);
assert_eq!(resolve_res.latest_version, fork_res.latest_version);
assert_ne!(resolved_article.ap_id, forked_article.ap_id);
assert!(forked_article.local);
let beta_instance: DbInstance = get(&data.beta.hostname, "instance").await?;
assert_eq!(forked_article.instance_id, beta_instance.ap_id);
// now search returns two articles for this title (original and forked)
let search_form = SearchArticleData {
query: title.clone(),
};
let search_res: Vec<DbArticle> =
get_query(&data.beta.hostname, "search", Some(search_form)).await?;
assert_eq!(2, search_res.len());
data.stop()
}