use super::db::*; use collections::HashMap; use gpui::executor::{Background, Deterministic}; use std::{sync::Arc, time::Duration}; use time::OffsetDateTime; #[tokio::test(flavor = "multi_thread")] async fn test_get_users_by_ids() { for test_db in [ TestDb::postgres().await, TestDb::fake(build_background_executor()), ] { let db = test_db.db(); let mut user_ids = Vec::new(); for i in 1..=4 { user_ids.push( db.create_user( &format!("user{i}@example.com"), false, NewUserParams { github_login: format!("user{i}"), github_user_id: i, invite_count: 0, }, ) .await .unwrap() .user_id, ); } assert_eq!( db.get_users_by_ids(user_ids.clone()).await.unwrap(), vec![ User { id: user_ids[0], github_login: "user1".to_string(), github_user_id: Some(1), email_address: Some("user1@example.com".to_string()), admin: false, ..Default::default() }, User { id: user_ids[1], github_login: "user2".to_string(), github_user_id: Some(2), email_address: Some("user2@example.com".to_string()), admin: false, ..Default::default() }, User { id: user_ids[2], github_login: "user3".to_string(), github_user_id: Some(3), email_address: Some("user3@example.com".to_string()), admin: false, ..Default::default() }, User { id: user_ids[3], github_login: "user4".to_string(), github_user_id: Some(4), email_address: Some("user4@example.com".to_string()), admin: false, ..Default::default() } ] ); } } #[tokio::test(flavor = "multi_thread")] async fn test_get_user_by_github_account() { for test_db in [ TestDb::postgres().await, TestDb::fake(build_background_executor()), ] { let db = test_db.db(); let user_id1 = db .create_user( "user1@example.com", false, NewUserParams { github_login: "login1".into(), github_user_id: 101, invite_count: 0, }, ) .await .unwrap() .user_id; let user_id2 = db .create_user( "user2@example.com", false, NewUserParams { github_login: "login2".into(), github_user_id: 102, invite_count: 0, }, ) .await .unwrap() .user_id; let user = db .get_user_by_github_account("login1", None) .await .unwrap() .unwrap(); assert_eq!(user.id, user_id1); assert_eq!(&user.github_login, "login1"); assert_eq!(user.github_user_id, Some(101)); assert!(db .get_user_by_github_account("non-existent-login", None) .await .unwrap() .is_none()); let user = db .get_user_by_github_account("the-new-login2", Some(102)) .await .unwrap() .unwrap(); assert_eq!(user.id, user_id2); assert_eq!(&user.github_login, "the-new-login2"); assert_eq!(user.github_user_id, Some(102)); } } #[tokio::test(flavor = "multi_thread")] async fn test_worktree_extensions() { let test_db = TestDb::postgres().await; let db = test_db.db(); let user = db .create_user( "u1@example.com", false, NewUserParams { github_login: "u1".into(), github_user_id: 0, invite_count: 0, }, ) .await .unwrap() .user_id; let project = db.register_project(user).await.unwrap(); db.update_worktree_extensions(project, 100, Default::default()) .await .unwrap(); db.update_worktree_extensions( project, 100, [("rs".to_string(), 5), ("md".to_string(), 3)] .into_iter() .collect(), ) .await .unwrap(); db.update_worktree_extensions( project, 100, [("rs".to_string(), 6), ("md".to_string(), 5)] .into_iter() .collect(), ) .await .unwrap(); db.update_worktree_extensions( project, 101, [("ts".to_string(), 2), ("md".to_string(), 1)] .into_iter() .collect(), ) .await .unwrap(); assert_eq!( db.get_project_extensions(project).await.unwrap(), [ ( 100, [("rs".into(), 6), ("md".into(), 5),] .into_iter() .collect::>() ), ( 101, [("ts".into(), 2), ("md".into(), 1),] .into_iter() .collect::>() ) ] .into_iter() .collect() ); } #[tokio::test(flavor = "multi_thread")] async fn test_user_activity() { let test_db = TestDb::postgres().await; let db = test_db.db(); let mut user_ids = Vec::new(); for i in 0..=2 { user_ids.push( db.create_user( &format!("user{i}@example.com"), false, NewUserParams { github_login: format!("user{i}"), github_user_id: i, invite_count: 0, }, ) .await .unwrap() .user_id, ); } let project_1 = db.register_project(user_ids[0]).await.unwrap(); db.update_worktree_extensions( project_1, 1, HashMap::from_iter([("rs".into(), 5), ("md".into(), 7)]), ) .await .unwrap(); let project_2 = db.register_project(user_ids[1]).await.unwrap(); let t0 = OffsetDateTime::now_utc() - Duration::from_secs(60 * 60); // User 2 opens a project let t1 = t0 + Duration::from_secs(10); db.record_user_activity(t0..t1, &[(user_ids[1], project_2)]) .await .unwrap(); let t2 = t1 + Duration::from_secs(10); db.record_user_activity(t1..t2, &[(user_ids[1], project_2)]) .await .unwrap(); // User 1 joins the project let t3 = t2 + Duration::from_secs(10); db.record_user_activity( t2..t3, &[(user_ids[1], project_2), (user_ids[0], project_2)], ) .await .unwrap(); // User 1 opens another project let t4 = t3 + Duration::from_secs(10); db.record_user_activity( t3..t4, &[ (user_ids[1], project_2), (user_ids[0], project_2), (user_ids[0], project_1), ], ) .await .unwrap(); // User 3 joins that project let t5 = t4 + Duration::from_secs(10); db.record_user_activity( t4..t5, &[ (user_ids[1], project_2), (user_ids[0], project_2), (user_ids[0], project_1), (user_ids[2], project_1), ], ) .await .unwrap(); // User 2 leaves let t6 = t5 + Duration::from_secs(5); db.record_user_activity( t5..t6, &[(user_ids[0], project_1), (user_ids[2], project_1)], ) .await .unwrap(); let t7 = t6 + Duration::from_secs(60); let t8 = t7 + Duration::from_secs(10); db.record_user_activity(t7..t8, &[(user_ids[0], project_1)]) .await .unwrap(); assert_eq!( db.get_top_users_activity_summary(t0..t6, 10).await.unwrap(), &[ UserActivitySummary { id: user_ids[0], github_login: "user0".to_string(), project_activity: vec![ ProjectActivitySummary { id: project_1, duration: Duration::from_secs(25), max_collaborators: 2 }, ProjectActivitySummary { id: project_2, duration: Duration::from_secs(30), max_collaborators: 2 } ] }, UserActivitySummary { id: user_ids[1], github_login: "user1".to_string(), project_activity: vec![ProjectActivitySummary { id: project_2, duration: Duration::from_secs(50), max_collaborators: 2 }] }, UserActivitySummary { id: user_ids[2], github_login: "user2".to_string(), project_activity: vec![ProjectActivitySummary { id: project_1, duration: Duration::from_secs(15), max_collaborators: 2 }] }, ] ); assert_eq!( db.get_active_user_count(t0..t6, Duration::from_secs(56), false) .await .unwrap(), 0 ); assert_eq!( db.get_active_user_count(t0..t6, Duration::from_secs(56), true) .await .unwrap(), 0 ); assert_eq!( db.get_active_user_count(t0..t6, Duration::from_secs(54), false) .await .unwrap(), 1 ); assert_eq!( db.get_active_user_count(t0..t6, Duration::from_secs(54), true) .await .unwrap(), 1 ); assert_eq!( db.get_active_user_count(t0..t6, Duration::from_secs(30), false) .await .unwrap(), 2 ); assert_eq!( db.get_active_user_count(t0..t6, Duration::from_secs(30), true) .await .unwrap(), 2 ); assert_eq!( db.get_active_user_count(t0..t6, Duration::from_secs(10), false) .await .unwrap(), 3 ); assert_eq!( db.get_active_user_count(t0..t6, Duration::from_secs(10), true) .await .unwrap(), 3 ); assert_eq!( db.get_active_user_count(t0..t1, Duration::from_secs(5), false) .await .unwrap(), 1 ); assert_eq!( db.get_active_user_count(t0..t1, Duration::from_secs(5), true) .await .unwrap(), 0 ); assert_eq!( db.get_user_activity_timeline(t3..t6, user_ids[0]) .await .unwrap(), &[ UserActivityPeriod { project_id: project_1, start: t3, end: t6, extensions: HashMap::from_iter([("rs".to_string(), 5), ("md".to_string(), 7)]), }, UserActivityPeriod { project_id: project_2, start: t3, end: t5, extensions: Default::default(), }, ] ); assert_eq!( db.get_user_activity_timeline(t0..t8, user_ids[0]) .await .unwrap(), &[ UserActivityPeriod { project_id: project_2, start: t2, end: t5, extensions: Default::default(), }, UserActivityPeriod { project_id: project_1, start: t3, end: t6, extensions: HashMap::from_iter([("rs".to_string(), 5), ("md".to_string(), 7)]), }, UserActivityPeriod { project_id: project_1, start: t7, end: t8, extensions: HashMap::from_iter([("rs".to_string(), 5), ("md".to_string(), 7)]), }, ] ); } #[tokio::test(flavor = "multi_thread")] async fn test_recent_channel_messages() { for test_db in [ TestDb::postgres().await, TestDb::fake(build_background_executor()), ] { let db = test_db.db(); let user = db .create_user( "u@example.com", false, NewUserParams { github_login: "u".into(), github_user_id: 1, invite_count: 0, }, ) .await .unwrap() .user_id; let org = db.create_org("org", "org").await.unwrap(); let channel = db.create_org_channel(org, "channel").await.unwrap(); for i in 0..10 { db.create_channel_message(channel, user, &i.to_string(), OffsetDateTime::now_utc(), i) .await .unwrap(); } let messages = db.get_channel_messages(channel, 5, None).await.unwrap(); assert_eq!( messages.iter().map(|m| &m.body).collect::>(), ["5", "6", "7", "8", "9"] ); let prev_messages = db .get_channel_messages(channel, 4, Some(messages[0].id)) .await .unwrap(); assert_eq!( prev_messages.iter().map(|m| &m.body).collect::>(), ["1", "2", "3", "4"] ); } } #[tokio::test(flavor = "multi_thread")] async fn test_channel_message_nonces() { for test_db in [ TestDb::postgres().await, TestDb::fake(build_background_executor()), ] { let db = test_db.db(); let user = db .create_user( "user@example.com", false, NewUserParams { github_login: "user".into(), github_user_id: 1, invite_count: 0, }, ) .await .unwrap() .user_id; let org = db.create_org("org", "org").await.unwrap(); let channel = db.create_org_channel(org, "channel").await.unwrap(); let msg1_id = db .create_channel_message(channel, user, "1", OffsetDateTime::now_utc(), 1) .await .unwrap(); let msg2_id = db .create_channel_message(channel, user, "2", OffsetDateTime::now_utc(), 2) .await .unwrap(); let msg3_id = db .create_channel_message(channel, user, "3", OffsetDateTime::now_utc(), 1) .await .unwrap(); let msg4_id = db .create_channel_message(channel, user, "4", OffsetDateTime::now_utc(), 2) .await .unwrap(); assert_ne!(msg1_id, msg2_id); assert_eq!(msg1_id, msg3_id); assert_eq!(msg2_id, msg4_id); } } #[tokio::test(flavor = "multi_thread")] async fn test_create_access_tokens() { let test_db = TestDb::postgres().await; let db = test_db.db(); let user = db .create_user( "u1@example.com", false, NewUserParams { github_login: "u1".into(), github_user_id: 1, invite_count: 0, }, ) .await .unwrap() .user_id; db.create_access_token_hash(user, "h1", 3).await.unwrap(); db.create_access_token_hash(user, "h2", 3).await.unwrap(); assert_eq!( db.get_access_token_hashes(user).await.unwrap(), &["h2".to_string(), "h1".to_string()] ); db.create_access_token_hash(user, "h3", 3).await.unwrap(); assert_eq!( db.get_access_token_hashes(user).await.unwrap(), &["h3".to_string(), "h2".to_string(), "h1".to_string(),] ); db.create_access_token_hash(user, "h4", 3).await.unwrap(); assert_eq!( db.get_access_token_hashes(user).await.unwrap(), &["h4".to_string(), "h3".to_string(), "h2".to_string(),] ); db.create_access_token_hash(user, "h5", 3).await.unwrap(); assert_eq!( db.get_access_token_hashes(user).await.unwrap(), &["h5".to_string(), "h4".to_string(), "h3".to_string()] ); } #[test] fn test_fuzzy_like_string() { assert_eq!(PostgresDb::fuzzy_like_string("abcd"), "%a%b%c%d%"); assert_eq!(PostgresDb::fuzzy_like_string("x y"), "%x%y%"); assert_eq!(PostgresDb::fuzzy_like_string(" z "), "%z%"); } #[tokio::test(flavor = "multi_thread")] async fn test_fuzzy_search_users() { let test_db = TestDb::postgres().await; let db = test_db.db(); for (i, github_login) in [ "California", "colorado", "oregon", "washington", "florida", "delaware", "rhode-island", ] .into_iter() .enumerate() { db.create_user( &format!("{github_login}@example.com"), false, NewUserParams { github_login: github_login.into(), github_user_id: i as i32, invite_count: 0, }, ) .await .unwrap(); } assert_eq!( fuzzy_search_user_names(db, "clr").await, &["colorado", "California"] ); assert_eq!( fuzzy_search_user_names(db, "ro").await, &["rhode-island", "colorado", "oregon"], ); async fn fuzzy_search_user_names(db: &Arc, query: &str) -> Vec { db.fuzzy_search_users(query, 10) .await .unwrap() .into_iter() .map(|user| user.github_login) .collect::>() } } #[tokio::test(flavor = "multi_thread")] async fn test_add_contacts() { for test_db in [ TestDb::postgres().await, TestDb::fake(build_background_executor()), ] { let db = test_db.db(); let mut user_ids = Vec::new(); for i in 0..3 { user_ids.push( db.create_user( &format!("user{i}@example.com"), false, NewUserParams { github_login: format!("user{i}"), github_user_id: i, invite_count: 0, }, ) .await .unwrap() .user_id, ); } let user_1 = user_ids[0]; let user_2 = user_ids[1]; let user_3 = user_ids[2]; // User starts with no contacts assert_eq!(db.get_contacts(user_1).await.unwrap(), &[]); // User requests a contact. Both users see the pending request. db.send_contact_request(user_1, user_2).await.unwrap(); assert!(!db.has_contact(user_1, user_2).await.unwrap()); assert!(!db.has_contact(user_2, user_1).await.unwrap()); assert_eq!( db.get_contacts(user_1).await.unwrap(), &[Contact::Outgoing { user_id: user_2 }], ); assert_eq!( db.get_contacts(user_2).await.unwrap(), &[Contact::Incoming { user_id: user_1, should_notify: true }] ); // User 2 dismisses the contact request notification without accepting or rejecting. // We shouldn't notify them again. db.dismiss_contact_notification(user_1, user_2) .await .unwrap_err(); db.dismiss_contact_notification(user_2, user_1) .await .unwrap(); assert_eq!( db.get_contacts(user_2).await.unwrap(), &[Contact::Incoming { user_id: user_1, should_notify: false }] ); // User can't accept their own contact request db.respond_to_contact_request(user_1, user_2, true) .await .unwrap_err(); // User accepts a contact request. Both users see the contact. db.respond_to_contact_request(user_2, user_1, true) .await .unwrap(); assert_eq!( db.get_contacts(user_1).await.unwrap(), &[Contact::Accepted { user_id: user_2, should_notify: true }], ); assert!(db.has_contact(user_1, user_2).await.unwrap()); assert!(db.has_contact(user_2, user_1).await.unwrap()); assert_eq!( db.get_contacts(user_2).await.unwrap(), &[Contact::Accepted { user_id: user_1, should_notify: false, }] ); // Users cannot re-request existing contacts. db.send_contact_request(user_1, user_2).await.unwrap_err(); db.send_contact_request(user_2, user_1).await.unwrap_err(); // Users can't dismiss notifications of them accepting other users' requests. db.dismiss_contact_notification(user_2, user_1) .await .unwrap_err(); assert_eq!( db.get_contacts(user_1).await.unwrap(), &[Contact::Accepted { user_id: user_2, should_notify: true, }] ); // Users can dismiss notifications of other users accepting their requests. db.dismiss_contact_notification(user_1, user_2) .await .unwrap(); assert_eq!( db.get_contacts(user_1).await.unwrap(), &[Contact::Accepted { user_id: user_2, should_notify: false, }] ); // Users send each other concurrent contact requests and // see that they are immediately accepted. db.send_contact_request(user_1, user_3).await.unwrap(); db.send_contact_request(user_3, user_1).await.unwrap(); assert_eq!( db.get_contacts(user_1).await.unwrap(), &[ Contact::Accepted { user_id: user_2, should_notify: false, }, Contact::Accepted { user_id: user_3, should_notify: false } ] ); assert_eq!( db.get_contacts(user_3).await.unwrap(), &[Contact::Accepted { user_id: user_1, should_notify: false }], ); // User declines a contact request. Both users see that it is gone. db.send_contact_request(user_2, user_3).await.unwrap(); db.respond_to_contact_request(user_3, user_2, false) .await .unwrap(); assert!(!db.has_contact(user_2, user_3).await.unwrap()); assert!(!db.has_contact(user_3, user_2).await.unwrap()); assert_eq!( db.get_contacts(user_2).await.unwrap(), &[Contact::Accepted { user_id: user_1, should_notify: false }] ); assert_eq!( db.get_contacts(user_3).await.unwrap(), &[Contact::Accepted { user_id: user_1, should_notify: false }], ); } } #[tokio::test(flavor = "multi_thread")] async fn test_invite_codes() { let postgres = TestDb::postgres().await; let db = postgres.db(); let NewUserResult { user_id: user1, .. } = db .create_user( "user1@example.com", false, NewUserParams { github_login: "user1".into(), github_user_id: 0, invite_count: 0, }, ) .await .unwrap(); // Initially, user 1 has no invite code assert_eq!(db.get_invite_code_for_user(user1).await.unwrap(), None); // Setting invite count to 0 when no code is assigned does not assign a new code db.set_invite_count_for_user(user1, 0).await.unwrap(); assert!(db.get_invite_code_for_user(user1).await.unwrap().is_none()); // User 1 creates an invite code that can be used twice. db.set_invite_count_for_user(user1, 2).await.unwrap(); let (invite_code, invite_count) = db.get_invite_code_for_user(user1).await.unwrap().unwrap(); assert_eq!(invite_count, 2); // User 2 redeems the invite code and becomes a contact of user 1. let user2_invite = db .create_invite_from_code(&invite_code, "user2@example.com", Some("user-2-device-id")) .await .unwrap(); let NewUserResult { user_id: user2, inviting_user_id, signup_device_id, metrics_id, } = db .create_user_from_invite( &user2_invite, NewUserParams { github_login: "user2".into(), github_user_id: 2, invite_count: 7, }, ) .await .unwrap() .unwrap(); let (_, invite_count) = db.get_invite_code_for_user(user1).await.unwrap().unwrap(); assert_eq!(invite_count, 1); assert_eq!(inviting_user_id, Some(user1)); assert_eq!(signup_device_id.unwrap(), "user-2-device-id"); assert_eq!(db.get_user_metrics_id(user2).await.unwrap(), metrics_id); assert_eq!( db.get_contacts(user1).await.unwrap(), [Contact::Accepted { user_id: user2, should_notify: true }] ); assert_eq!( db.get_contacts(user2).await.unwrap(), [Contact::Accepted { user_id: user1, should_notify: false }] ); assert_eq!( db.get_invite_code_for_user(user2).await.unwrap().unwrap().1, 7 ); // User 3 redeems the invite code and becomes a contact of user 1. let user3_invite = db .create_invite_from_code(&invite_code, "user3@example.com", None) .await .unwrap(); let NewUserResult { user_id: user3, inviting_user_id, signup_device_id, .. } = db .create_user_from_invite( &user3_invite, NewUserParams { github_login: "user-3".into(), github_user_id: 3, invite_count: 3, }, ) .await .unwrap() .unwrap(); let (_, invite_count) = db.get_invite_code_for_user(user1).await.unwrap().unwrap(); assert_eq!(invite_count, 0); assert_eq!(inviting_user_id, Some(user1)); assert!(signup_device_id.is_none()); assert_eq!( db.get_contacts(user1).await.unwrap(), [ Contact::Accepted { user_id: user2, should_notify: true }, Contact::Accepted { user_id: user3, should_notify: true } ] ); assert_eq!( db.get_contacts(user3).await.unwrap(), [Contact::Accepted { user_id: user1, should_notify: false }] ); assert_eq!( db.get_invite_code_for_user(user3).await.unwrap().unwrap().1, 3 ); // Trying to reedem the code for the third time results in an error. db.create_invite_from_code(&invite_code, "user4@example.com", Some("user-4-device-id")) .await .unwrap_err(); // Invite count can be updated after the code has been created. db.set_invite_count_for_user(user1, 2).await.unwrap(); let (latest_code, invite_count) = db.get_invite_code_for_user(user1).await.unwrap().unwrap(); assert_eq!(latest_code, invite_code); // Invite code doesn't change when we increment above 0 assert_eq!(invite_count, 2); // User 4 can now redeem the invite code and becomes a contact of user 1. let user4_invite = db .create_invite_from_code(&invite_code, "user4@example.com", Some("user-4-device-id")) .await .unwrap(); let user4 = db .create_user_from_invite( &user4_invite, NewUserParams { github_login: "user-4".into(), github_user_id: 4, invite_count: 5, }, ) .await .unwrap() .unwrap() .user_id; let (_, invite_count) = db.get_invite_code_for_user(user1).await.unwrap().unwrap(); assert_eq!(invite_count, 1); assert_eq!( db.get_contacts(user1).await.unwrap(), [ Contact::Accepted { user_id: user2, should_notify: true }, Contact::Accepted { user_id: user3, should_notify: true }, Contact::Accepted { user_id: user4, should_notify: true } ] ); assert_eq!( db.get_contacts(user4).await.unwrap(), [Contact::Accepted { user_id: user1, should_notify: false }] ); assert_eq!( db.get_invite_code_for_user(user4).await.unwrap().unwrap().1, 5 ); // An existing user cannot redeem invite codes. db.create_invite_from_code(&invite_code, "user2@example.com", Some("user-2-device-id")) .await .unwrap_err(); let (_, invite_count) = db.get_invite_code_for_user(user1).await.unwrap().unwrap(); assert_eq!(invite_count, 1); } #[tokio::test(flavor = "multi_thread")] async fn test_signups() { let postgres = TestDb::postgres().await; let db = postgres.db(); // people sign up on the waitlist for i in 0..8 { db.create_signup(Signup { email_address: format!("person-{i}@example.com"), platform_mac: true, platform_linux: i % 2 == 0, platform_windows: i % 4 == 0, editor_features: vec!["speed".into()], programming_languages: vec!["rust".into(), "c".into()], device_id: Some(format!("device_id_{i}")), }) .await .unwrap(); } assert_eq!( db.get_waitlist_summary().await.unwrap(), WaitlistSummary { count: 8, mac_count: 8, linux_count: 4, windows_count: 2, unknown_count: 0, } ); // retrieve the next batch of signup emails to send let signups_batch1 = db.get_unsent_invites(3).await.unwrap(); let addresses = signups_batch1 .iter() .map(|s| &s.email_address) .collect::>(); assert_eq!( addresses, &[ "person-0@example.com", "person-1@example.com", "person-2@example.com" ] ); assert_ne!( signups_batch1[0].email_confirmation_code, signups_batch1[1].email_confirmation_code ); // the waitlist isn't updated until we record that the emails // were successfully sent. let signups_batch = db.get_unsent_invites(3).await.unwrap(); assert_eq!(signups_batch, signups_batch1); // once the emails go out, we can retrieve the next batch // of signups. db.record_sent_invites(&signups_batch1).await.unwrap(); let signups_batch2 = db.get_unsent_invites(3).await.unwrap(); let addresses = signups_batch2 .iter() .map(|s| &s.email_address) .collect::>(); assert_eq!( addresses, &[ "person-3@example.com", "person-4@example.com", "person-5@example.com" ] ); // the sent invites are excluded from the summary. assert_eq!( db.get_waitlist_summary().await.unwrap(), WaitlistSummary { count: 5, mac_count: 5, linux_count: 2, windows_count: 1, unknown_count: 0, } ); // user completes the signup process by providing their // github account. let NewUserResult { user_id, inviting_user_id, signup_device_id, .. } = db .create_user_from_invite( &Invite { email_address: signups_batch1[0].email_address.clone(), email_confirmation_code: signups_batch1[0].email_confirmation_code.clone(), }, NewUserParams { github_login: "person-0".into(), github_user_id: 0, invite_count: 5, }, ) .await .unwrap() .unwrap(); let user = db.get_user_by_id(user_id).await.unwrap().unwrap(); assert!(inviting_user_id.is_none()); assert_eq!(user.github_login, "person-0"); assert_eq!(user.email_address.as_deref(), Some("person-0@example.com")); assert_eq!(user.invite_count, 5); assert_eq!(signup_device_id.unwrap(), "device_id_0"); // cannot redeem the same signup again. assert!(db .create_user_from_invite( &Invite { email_address: signups_batch1[0].email_address.clone(), email_confirmation_code: signups_batch1[0].email_confirmation_code.clone(), }, NewUserParams { github_login: "some-other-github_account".into(), github_user_id: 1, invite_count: 5, }, ) .await .unwrap() .is_none()); // cannot redeem a signup with the wrong confirmation code. db.create_user_from_invite( &Invite { email_address: signups_batch1[1].email_address.clone(), email_confirmation_code: "the-wrong-code".to_string(), }, NewUserParams { github_login: "person-1".into(), github_user_id: 2, invite_count: 5, }, ) .await .unwrap_err(); } #[tokio::test(flavor = "multi_thread")] async fn test_metrics_id() { let postgres = TestDb::postgres().await; let db = postgres.db(); let NewUserResult { user_id: user1, metrics_id: metrics_id1, .. } = db .create_user( "person1@example.com", false, NewUserParams { github_login: "person1".into(), github_user_id: 101, invite_count: 5, }, ) .await .unwrap(); let NewUserResult { user_id: user2, metrics_id: metrics_id2, .. } = db .create_user( "person2@example.com", false, NewUserParams { github_login: "person2".into(), github_user_id: 102, invite_count: 5, }, ) .await .unwrap(); assert_eq!(db.get_user_metrics_id(user1).await.unwrap(), metrics_id1); assert_eq!(db.get_user_metrics_id(user2).await.unwrap(), metrics_id2); assert_eq!(metrics_id1.len(), 36); assert_eq!(metrics_id2.len(), 36); assert_ne!(metrics_id1, metrics_id2); } fn build_background_executor() -> Arc { Deterministic::new(0).build_background() }