use super::common::{self, Format, Socket, DB, NS, PASS, USER}; use assert_fs::TempDir; use serde_json::json; use std::future::Future; use std::pin::Pin; use std::time::Duration; use test_log::test; #[test(tokio::test)] async fn ping() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Send INFO command let res = socket.send_request("ping", json!([])).await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn info() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Define a user table socket.send_message_query("DEFINE TABLE user PERMISSIONS FULL").await?; // Define a user record access method socket .send_message_query( r#" DEFINE ACCESS user ON DATABASE TYPE RECORD DURATION 24h SIGNUP ( CREATE user SET user = $user, pass = crypto::argon2::generate($pass) ) SIGNIN ( SELECT * FROM user WHERE user = $user AND crypto::argon2::compare(pass, $pass) ) ; "#, ) .await?; // Create a user record socket .send_message_query( r#" CREATE user CONTENT { user: 'user', pass: crypto::argon2::generate('pass') }; "#, ) .await?; // Sign in as record user socket.send_message_signin("user", "pass", Some(NS), Some(DB), Some("user")).await?; // Send INFO command let res = socket.send_request("info", json!([])).await?; assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert_eq!(res["user"], "user", "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn signup() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Define a user record access method socket .send_message_query( r#" DEFINE ACCESS user ON DATABASE TYPE RECORD DURATION 24h SIGNUP ( CREATE user SET email = $email, pass = crypto::argon2::generate($pass) ) SIGNIN ( SELECT * FROM user WHERE email = $email AND crypto::argon2::compare(pass, $pass) ) ;"#, ) .await?; // Send SIGNUP command let res = socket .send_request( "signup", json!([{ "ns": NS, "db": DB, "ac": "user", "email": "email@email.com", "pass": "pass", }]), ) .await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Verify it returns a token assert!(res["result"].is_string(), "result: {:?}", res); let res = res["result"].as_str().unwrap(); assert!(res.starts_with("eyJ0eXAiOiJKV1QiLCJhbGciOiJIUzUxMiJ9"), "result: {}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn signin() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Define a user record access method socket .send_message_query( r#" DEFINE ACCESS user ON DATABASE TYPE RECORD DURATION 24h SIGNUP ( CREATE user SET email = $email, pass = crypto::argon2::generate($pass) ) SIGNIN ( SELECT * FROM user WHERE email = $email AND crypto::argon2::compare(pass, $pass) ) ;"#, ) .await?; // Send SIGNUP command let res = socket .send_request( "signup", json!( [{ "ns": NS, "db": DB, "ac": "user", "email": "email@email.com", "pass": "pass", }] ), ) .await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Verify it returns a token assert!(res["result"].is_string(), "result: {:?}", res); let res = res["result"].as_str().unwrap(); assert!(res.starts_with("eyJ0eXAiOiJKV1QiLCJhbGciOiJIUzUxMiJ9"), "result: {}", res); // Send SIGNIN command let res = socket .send_request( "signin", json!( [{ "ns": NS, "db": DB, "ac": "user", "email": "email@email.com", "pass": "pass", }]), ) .await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Verify it returns a token assert!(res["result"].is_string(), "result: {:?}", res); let res = res["result"].as_str().unwrap(); assert!(res.starts_with("eyJ0eXAiOiJKV1QiLCJhbGciOiJIUzUxMiJ9"), "result: {}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn invalidate() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Verify we have an authenticated session let res = socket.send_message_query("DEFINE NAMESPACE test").await?; assert_eq!(res[0]["status"], "OK", "result: {:?}", res); // Send INVALIDATE command socket.send_request("invalidate", json!([])).await?; // Verify we have an invalidated session let res = socket.send_message_query("DEFINE NAMESPACE test").await?; assert_eq!(res[0]["status"], "ERR", "result: {:?}", res); assert_eq!( res[0]["result"], "IAM error: Not enough permissions to perform this action", "result: {:?}", res ); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn authenticate() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection let token = socket.send_message_signin(USER, PASS, None, None, None).await?; // Disconnect the connection socket.close().await?; // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Send AUTHENTICATE command socket.send_request("authenticate", json!([token,])).await?; // Verify we have an authenticated session let res = socket.send_message_query("DEFINE NAMESPACE test").await?; assert_eq!(res[0]["status"], "OK", "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn letset() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Send LET command socket.send_request("let", json!(["let_var", "let_value",])).await?; // Send SET command socket.send_request("set", json!(["set_var", "set_value",])).await?; // Verify the variables are set let res = socket.send_message_query("SELECT * FROM $let_var, $set_var").await?; assert_eq!(res[0]["result"], json!(["let_value", "set_value"]), "result: {:?}", res); server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn unset() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Send LET command socket.send_request("let", json!(["let_var", "let_value",])).await?; // Verify the variable is set let res = socket.send_message_query("SELECT * FROM $let_var").await?; assert_eq!(res[0]["result"], json!(["let_value"]), "result: {:?}", res); // Send UNSET command socket.send_request("unset", json!(["let_var",])).await?; // Verify the variable is unset let res = socket.send_message_query("SELECT * FROM $let_var").await?; assert_eq!(res[0]["result"], json!([null]), "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn select() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Create a test record socket.send_message_query("CREATE tester SET name = 'foo', value = 'bar'").await?; // Send SELECT command let res = socket.send_request("select", json!(["tester",])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert_eq!(res[0]["name"], "foo", "result: {:?}", res); assert_eq!(res[0]["value"], "bar", "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn insert() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Send INSERT command let res = socket .send_request( "insert", json!([ "tester", { "name": "foo", "value": "bar", } ]), ) .await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert_eq!(res[0]["name"], "foo", "result: {:?}", res); assert_eq!(res[0]["value"], "bar", "result: {:?}", res); // Verify the data was inserted and can be queried let res = socket.send_message_query("SELECT * FROM tester").await?; assert!(res[0]["result"].is_array(), "result: {:?}", res); let res = res[0]["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert_eq!(res[0]["name"], "foo", "result: {:?}", res); assert_eq!(res[0]["value"], "bar", "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn create() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Send CREATE command let res = socket .send_request( "create", json!([ "tester", { "value": "bar", } ]), ) .await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert_eq!(res[0]["value"], "bar", "result: {:?}", res); // Verify the data was created let res = socket.send_message_query("SELECT * FROM tester").await?; assert!(res[0]["result"].is_array(), "result: {:?}", res); let res = res[0]["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert_eq!(res[0]["value"], "bar", "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn update() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Create a test record socket.send_message_query("CREATE tester SET name = 'foo'").await?; // Send UPDATE command let res = socket .send_request( "update", json!([ "tester", { "value": "bar", } ]), ) .await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert_eq!(res[0]["value"], "bar", "result: {:?}", res); // Verify the data was updated let res = socket.send_message_query("SELECT * FROM tester").await?; assert!(res[0]["result"].is_array(), "result: {:?}", res); let res = res[0]["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert_eq!(res[0]["name"], json!(null), "result: {:?}", res); assert_eq!(res[0]["value"], "bar", "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn merge() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Create a test record socket.send_message_query("CREATE tester SET name = 'foo'").await?; // Send UPDATE command let res = socket .send_request( "merge", json!([ "tester", { "value": "bar", } ]), ) .await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert_eq!(res[0]["name"], "foo", "result: {:?}", res); assert_eq!(res[0]["value"], "bar", "result: {:?}", res); // Verify the data was merged let res = socket.send_message_query("SELECT * FROM tester").await?; assert!(res[0]["result"].is_array(), "result: {:?}", res); let res = res[0]["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert_eq!(res[0]["name"], "foo", "result: {:?}", res); assert_eq!(res[0]["value"], "bar", "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn patch() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Create a test record socket.send_message_query("CREATE tester:id SET name = 'foo'").await?; // Send PATCH command let res = socket .send_request( "patch", json!([ "tester:id", [ { "op": "add", "path": "value", "value": "bar" }, { "op": "remove", "path": "name", } ] ]), ) .await?; assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert_eq!(res.get("value"), Some(json!("bar")).as_ref(), "result: {:?}", res); // Verify the data was patched let res = socket.send_message_query("SELECT * FROM tester").await?; assert!(res[0]["result"].is_array(), "result: {:?}", res); let res = res[0]["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert_eq!(res[0]["name"], json!(null), "result: {:?}", res); assert_eq!(res[0]["value"], "bar", "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn delete() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Create a test record socket.send_message_query("CREATE tester:id").await?; // Send DELETE command let res = socket.send_request("delete", json!(["tester"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert_eq!(res[0]["id"], "tester:id", "result: {:?}", res); // Create a test record socket.send_message_query("CREATE tester:id").await?; // Send DELETE command let res = socket.send_request("delete", json!(["tester:id"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert_eq!(res["id"], "tester:id", "result: {:?}", res); // Verify the data was merged let res = socket.send_message_query("SELECT * FROM tester").await?; assert!(res[0]["result"].is_array(), "result: {:?}", res); let res = res[0]["result"].as_array().unwrap(); assert_eq!(res.len(), 0, "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn query() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Send QUERY command let res = socket.send_request("query", json!(["CREATE tester; SELECT * FROM tester;",])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 2, "result: {:?}", res); // Verify the data was created let res = socket.send_message_query("SELECT * FROM tester").await?; assert!(res[0]["result"].is_array(), "result: {:?}", res); let res = res[0]["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn version() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Send version command let res = socket.send_request("version", json!([])).await?; assert!(res["result"].is_string(), "result: {:?}", res); let res = res["result"].as_str().unwrap(); assert!(res.starts_with("surrealdb-"), "result: {}", res); // Test passed server.finish().unwrap(); Ok(()) } // Validate that the WebSocket is able to process multiple queries concurrently #[test(tokio::test)] async fn concurrency() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Send 5 long-running queries and verify they run concurrently let mut futures = Vec::>>>::new(); for i in 0..5 { let future = socket.send_request("query", json!([format!("SLEEP 3s; RETURN {i};")])); futures.push(Box::pin(future)) } let res = tokio::time::timeout(Duration::from_secs(5), futures::future::join_all(futures)).await; let Ok(res) = res else { panic!("future timed-out"); }; let res = res.into_iter().try_fold( Vec::new(), |mut acc, x| -> Result<_, Box> { acc.push(x?); Ok(acc) }, )?; assert!(res.iter().all(|v| v["error"].is_null()), "Unexpected error received: {:#?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn live() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Send LIVE command let res = socket.send_request("live", json!(["tester"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_string(), "result: {:?}", res); let live1 = res["result"].as_str().unwrap(); // Send QUERY command let res = socket.send_request("query", json!(["LIVE SELECT * FROM tester"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert!(res[0]["result"].is_string(), "result: {:?}", res); let live2 = res[0]["result"].as_str().unwrap(); // Create a new test record let res = socket.send_request("query", json!(["CREATE tester:id SET name = 'foo'"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); // Wait some time for all messages to arrive, and then search for the notification message let msgs: Result<_, Box> = tokio::time::timeout(Duration::from_secs(1), async { Ok(vec![socket.receive_other_message().await?, socket.receive_other_message().await?]) }) .await?; let msgs = msgs?; assert!(msgs.iter().all(|v| v["error"].is_null()), "Unexpected error received: {:?}", msgs); // Check for first live query notifcation let res = msgs.iter().find(|v| common::is_notification_from_lq(v, live1)); assert!(res.is_some(), "Expected to find a notification for LQ id {}: {:?}", live1, msgs); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert!(res["action"].is_string(), "result: {:?}", res); assert_eq!(res["action"], "CREATE", "result: {:?}", res); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert_eq!(res["id"], "tester:id", "result: {:?}", res); // Check for second live query notifcation let res = msgs.iter().find(|v| common::is_notification_from_lq(v, live2)); assert!(res.is_some(), "Expected to find a notification for LQ id {}: {:?}", live2, msgs); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert_eq!(res["action"], "CREATE", "result: {:?}", res); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert_eq!(res["id"], "tester:id", "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn kill() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await?; // Send LIVE command let res = socket.send_request("live", json!(["tester"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_string(), "result: {:?}", res); let live1 = res["result"].as_str().unwrap(); // Send QUERY command let res = socket.send_request("query", json!(["LIVE SELECT * FROM tester"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert!(res[0]["result"].is_string(), "result: {:?}", res); let live2 = res[0]["result"].as_str().unwrap(); // Create a new test record let res = socket.send_request("query", json!(["CREATE tester:one SET name = 'one'"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); // Wait some time for all messages to arrive, and then search for the notification message let msgs = socket.receive_all_other_messages(2, Duration::from_secs(1)).await?; assert!(msgs.iter().all(|v| v["error"].is_null()), "Unexpected error received: {:?}", msgs); // Check for first live query notifcation let res = msgs.iter().find(|v| common::is_notification_from_lq(v, live1)); assert!(res.is_some(), "Expected to find a notification for LQ id {}: {:?}", live1, msgs); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert!(res["action"].is_string(), "result: {:?}", res); assert_eq!(res["action"], "CREATE", "result: {:?}", res); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert_eq!(res["id"], "tester:one", "result: {:?}", res); // Check for second live query notifcation let res = msgs.iter().find(|v| common::is_notification_from_lq(v, live2)); assert!(res.is_some(), "Expected to find a notification for LQ id {}: {:?}", live2, msgs); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert_eq!(res["action"], "CREATE", "result: {:?}", res); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert_eq!(res["id"], "tester:one", "result: {:?}", res); // Send KILL command let res = socket.send_request("kill", json!([live1])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_null(), "result: {:?}", res); // Create a new test record let res = socket.send_request("query", json!(["CREATE tester:two SET name = 'two'"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); // Wait some time for all messages to arrive, and then search for the notification message let msgs = socket.receive_all_other_messages(1, Duration::from_secs(1)).await?; assert!(msgs.iter().all(|v| v["error"].is_null()), "Unexpected error received: {:?}", msgs); // Check for second live query notifcation let res = msgs.iter().find(|v| common::is_notification_from_lq(v, live2)); assert!(res.is_some(), "Expected to find a notification for LQ id {}: {:?}", live2, msgs); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert_eq!(res["action"], "CREATE", "result: {:?}", res); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert_eq!(res["id"], "tester:two", "result: {:?}", res); // Send QUERY command let res = socket.send_request("query", json!([format!("KILL u'{live2}'")])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); assert!(res[0]["result"].is_null(), "result: {:?}", res); // Create a new test record let res = socket.send_request("query", json!(["CREATE tester:tre SET name = 'two'"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); // Wait some time for all messages to arrive, and then search for the notification message let msgs = socket.receive_all_other_messages(0, Duration::from_secs(1)).await?; assert!(msgs.iter().all(|v| v["error"].is_null()), "Unexpected error received: {:?}", msgs); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn live_second_connection() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket1 = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket1.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket1.send_message_use(Some(NS), Some(DB)).await?; // Send LIVE command let res = socket1.send_request("live", json!(["tester"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_string(), "result: {:?}", res); let liveid = res["result"].as_str().unwrap(); // Connect to WebSocket let mut socket2 = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket2.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket2.send_message_use(Some(NS), Some(DB)).await?; // Create a new test record let res = socket2.send_request("query", json!(["CREATE tester:id SET name = 'foo'"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); // Wait some time for all messages to arrive, and then search for the notification message let msgs = socket1.receive_all_other_messages(1, Duration::from_secs(1)).await?; assert!(msgs.iter().all(|v| v["error"].is_null()), "Unexpected error received: {:?}", msgs); // Check for live query notifcation let res = msgs.iter().find(|v| common::is_notification_from_lq(v, liveid)); assert!(res.is_some(), "Expected to find a notification for LQ id {}: {:?}", liveid, msgs); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert!(res["action"].is_string(), "result: {:?}", res); assert_eq!(res["action"], "CREATE", "result: {:?}", res); assert!(res["result"].is_object(), "result: {:?}", res); let res = res["result"].as_object().unwrap(); assert_eq!(res["id"], "tester:id", "result: {:?}", res); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn variable_auth_live_query() -> Result<(), Box> { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket_permanent = Socket::connect(&addr, SERVER, FORMAT).await?; // Authenticate the connection socket_permanent.send_message_signin(USER, PASS, None, None, None).await?; // Specify a namespace and database socket_permanent.send_message_use(Some(NS), Some(DB)).await?; // Define a user record access method socket_permanent .send_message_query( r#" DEFINE ACCESS user ON DATABASE TYPE RECORD DURATION 1s SIGNUP ( CREATE user SET email = $email, pass = crypto::argon2::generate($pass) ) SIGNIN ( SELECT * FROM user WHERE email = $email AND crypto::argon2::compare(pass, $pass) ) ;"#, ) .await?; // Send SIGNUP command let mut socket_expiring_auth = Socket::connect(&addr, SERVER, FORMAT).await?; let res = socket_expiring_auth .send_request( "signup", json!([{ "ns": NS, "db": DB, "ac": "user", "email": "email@email.com", "pass": "pass", }]), ) .await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Authenticate the connection socket_expiring_auth.send_message_signin(USER, PASS, None, None, None).await?; // Send LIVE command let res = socket_expiring_auth.send_request("live", json!(["tester"])).await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_string(), "result: {:?}", res); // Wait 2 seconds for auth to expire tokio::time::sleep(Duration::from_secs(1)).await; // Create a new test record let res = socket_permanent .send_request("query", json!(["CREATE tester:id SET name = 'foo'"])) .await?; assert!(res.is_object(), "result: {:?}", res); assert!(res["result"].is_array(), "result: {:?}", res); let res = res["result"].as_array().unwrap(); assert_eq!(res.len(), 1, "result: {:?}", res); // Wait some time for all messages to arrive, and then search for the notification message let msgs = socket_expiring_auth.receive_all_other_messages(0, Duration::from_secs(1)).await?; assert!(msgs.iter().all(|v| v["error"].is_null()), "Unexpected error received: {:?}", msgs); // Test passed server.finish().unwrap(); Ok(()) } #[test(tokio::test)] async fn session_expiration() { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await.unwrap(); // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await.unwrap(); // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await.unwrap(); // Define a user record access method socket .send_message_query( r#" DEFINE ACCESS user ON DATABASE TYPE RECORD DURATION 1s SIGNUP ( CREATE user SET email = $email, pass = crypto::argon2::generate($pass) ) SIGNIN ( SELECT * FROM user WHERE email = $email AND crypto::argon2::compare(pass, $pass) ) ;"#, ) .await .unwrap(); // Create resource that requires a session with the access method to query socket .send_message_query( r#" DEFINE TABLE test SCHEMALESS PERMISSIONS FOR select, create, update, delete WHERE $access = "user" ;"#, ) .await .unwrap(); socket .send_message_query( r#" CREATE test:1 SET working = "yes" ;"#, ) .await .unwrap(); // Send SIGNUP command let res = socket .send_request( "signup", json!( [{ "ns": NS, "db": DB, "ac": "user", "email": "email@email.com", "pass": "pass", }] ), ) .await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Verify it returns a token assert!(res["result"].is_string(), "result: {:?}", res); let res = res["result"].as_str().unwrap(); assert!(res.starts_with("eyJ0eXAiOiJKV1QiLCJhbGciOiJIUzUxMiJ9"), "result: {}", res); // Authenticate using the token, which will expire soon socket.send_request("authenticate", json!([res,])).await.unwrap(); // Check if the session is now authenticated let res = socket.send_message_query("SELECT VALUE working FROM test:1").await.unwrap(); assert_eq!(res[0]["result"], json!(["yes"]), "result: {:?}", res); // Wait two seconds for token to expire tokio::time::sleep(tokio::time::Duration::from_secs(2)).await; // Check that the session has expired and queries fail let res = socket.send_request("query", json!(["SELECT VALUE working FROM test:1",])).await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert_eq!( res["error"], json!({"code": -32000, "message": "There was a problem with the database: The session has expired"}) ); // Sign in again using the same session let res = socket .send_request( "signin", json!( [{ "ns": NS, "db": DB, "ac": "user", "email": "email@email.com", "pass": "pass", }] ), ) .await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Check that the session is now valid again and queries succeed let res = socket.send_message_query("SELECT VALUE working FROM test:1").await.unwrap(); assert_eq!(res[0]["result"], json!(["yes"]), "result: {:?}", res); // Test passed server.finish().unwrap(); } #[test(tokio::test)] async fn session_expiration_operations() { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await.unwrap(); // Authenticate the connection // We store the root token to test reauthentication later let root_token = socket.send_message_signin(USER, PASS, None, None, None).await.unwrap(); // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await.unwrap(); // Define a user record access method socket .send_message_query( r#" DEFINE ACCESS user ON DATABASE TYPE RECORD DURATION 1s SIGNUP ( CREATE user SET email = $email, pass = crypto::argon2::generate($pass) ) SIGNIN ( SELECT * FROM user WHERE email = $email AND crypto::argon2::compare(pass, $pass) ) ;"#, ) .await .unwrap(); // Create resource that requires a session with the access method to query socket .send_message_query( r#" DEFINE TABLE test SCHEMALESS PERMISSIONS FOR select, create, update, delete WHERE $access = "user" ;"#, ) .await .unwrap(); socket .send_message_query( r#" CREATE test:1 SET working = "yes" ;"#, ) .await .unwrap(); // Send SIGNUP command let res = socket .send_request( "signup", json!( [{ "ns": NS, "db": DB, "ac": "user", "email": "email@email.com", "pass": "pass", }] ), ) .await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Verify it returns a token assert!(res["result"].is_string(), "result: {:?}", res); let res = res["result"].as_str().unwrap(); assert!(res.starts_with("eyJ0eXAiOiJKV1QiLCJhbGciOiJIUzUxMiJ9"), "result: {}", res); // Authenticate using the token, which will expire soon socket.send_request("authenticate", json!([res,])).await.unwrap(); // Check if the session is now authenticated let res = socket.send_message_query("SELECT VALUE working FROM test:1").await.unwrap(); assert_eq!(res[0]["result"], json!(["yes"]), "result: {:?}", res); // Wait two seconds for the session to expire tokio::time::sleep(tokio::time::Duration::from_secs(2)).await; // Check if the session is now expired let res = socket.send_request("query", json!(["SELECT VALUE working FROM test:1",])).await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert_eq!( res["error"], json!({"code": -32000, "message": "There was a problem with the database: The session has expired"}) ); // Test operations that SHOULD NOT work with an expired session let operations_ko = vec![ socket.send_request("let", json!(["let_var", "let_value",])), socket.send_request("set", json!(["set_var", "set_value",])), socket.send_request("info", json!([])), socket.send_request("select", json!(["tester",])), socket.send_request( "insert", json!([ "tester", { "name": "foo", "value": "bar", } ]), ), socket.send_request( "create", json!([ "tester", { "value": "bar", } ]), ), socket.send_request( "update", json!([ "tester", { "value": "bar", } ]), ), socket.send_request( "merge", json!([ "tester", { "value": "bar", } ]), ), socket.send_request( "patch", json!([ "tester:id", [ { "op": "add", "path": "value", "value": "bar" }, { "op": "remove", "path": "name", } ] ]), ), socket.send_request("delete", json!(["tester"])), socket.send_request("live", json!(["tester"])), socket.send_request("kill", json!(["tester"])), ]; // Futures are executed sequentially as some operations rely on the previous state for operation in operations_ko { let res = operation.await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert_eq!( res["error"], json!({"code": -32000, "message": "There was a problem with the database: The session has expired"}) ); } // Test operations that SHOULD work with an expired session let operations_ok = vec![ socket.send_request("use", json!([NS, DB])), socket.send_request("ping", json!([])), socket.send_request("version", json!([])), socket.send_request("invalidate", json!([])), ]; // Futures are executed sequentially as some operations rely on the previous state for operation in operations_ok { let res = operation.await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); } // Test operations that SHOULD work with an expired session // These operations will refresh the session expiration let res = socket .send_request( "signup", json!([{ "ns": NS, "db": DB, "ac": "user", "email": "another@email.com", "pass": "pass", }]), ) .await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Wait two seconds for the session to expire tokio::time::sleep(tokio::time::Duration::from_secs(2)).await; // The session must be expired now or we fail the test let res = socket.send_request("query", json!(["SELECT VALUE working FROM test:1",])).await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert_eq!( res["error"], json!({"code": -32000, "message": "There was a problem with the database: The session has expired"}) ); let res = socket .send_request( "signin", json!( [{ "ns": NS, "db": DB, "ac": "user", "email": "another@email.com", "pass": "pass", }] ), ) .await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Wait two seconds for the session to expire tokio::time::sleep(tokio::time::Duration::from_secs(2)).await; // The session must be expired now or we fail the test let res = socket.send_request("query", json!(["SELECT VALUE working FROM test:1",])).await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert_eq!( res["error"], json!({"code": -32000, "message": "There was a problem with the database: The session has expired"}) ); // This needs to be last operation as the session will no longer expire afterwards let res = socket.send_request("authenticate", json!([root_token,])).await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Test passed server.finish().unwrap(); } #[test(tokio::test)] async fn session_reauthentication() { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await.unwrap(); // Authenticate the connection and store the root level token let root_token = socket.send_message_signin(USER, PASS, None, None, None).await.unwrap(); // Check that we have root access socket.send_message_query("INFO FOR ROOT").await.unwrap(); // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await.unwrap(); // Define a user record access method socket .send_message_query( r#" DEFINE ACCESS user ON DATABASE TYPE RECORD DURATION 1h SIGNUP ( CREATE user SET email = $email, pass = crypto::argon2::generate($pass) ) SIGNIN ( SELECT * FROM user WHERE email = $email AND crypto::argon2::compare(pass, $pass) ) ;"#, ) .await .unwrap(); // Create resource that requires a session with the access method to query socket .send_message_query( r#" DEFINE TABLE test SCHEMALESS PERMISSIONS FOR select, create, update, delete WHERE $access = "user" ;"#, ) .await .unwrap(); socket .send_message_query( r#" CREATE test:1 SET working = "yes" ;"#, ) .await .unwrap(); // Send SIGNUP command let res = socket .send_request( "signup", json!( [{ "ns": NS, "db": DB, "ac": "user", "email": "email@email.com", "pass": "pass", }] ), ) .await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Verify it returns a token assert!(res["result"].is_string(), "result: {:?}", res); let res = res["result"].as_str().unwrap(); assert!(res.starts_with("eyJ0eXAiOiJKV1QiLCJhbGciOiJIUzUxMiJ9"), "result: {}", res); // Authenticate using the token socket.send_request("authenticate", json!([res,])).await.unwrap(); // Check that we do not have root access let res = socket.send_message_query("INFO FOR ROOT").await.unwrap(); assert_eq!(res[0]["status"], "ERR", "result: {:?}", res); assert_eq!( res[0]["result"], "IAM error: Not enough permissions to perform this action", "result: {:?}", res ); // Check if the session is authenticated let res = socket.send_message_query("SELECT VALUE working FROM test:1").await.unwrap(); assert_eq!(res[0]["result"], json!(["yes"]), "result: {:?}", res); // Authenticate using the root token socket.send_request("authenticate", json!([root_token,])).await.unwrap(); // Check that we have root access again let res = socket.send_message_query("INFO FOR ROOT").await.unwrap(); assert_eq!(res[0]["status"], "OK", "result: {:?}", res); // Test passed server.finish().unwrap(); } #[test(tokio::test)] async fn session_reauthentication_expired() { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await.unwrap(); // Authenticate the connection and store the root level token let root_token = socket.send_message_signin(USER, PASS, None, None, None).await.unwrap(); // Check that we have root access socket.send_message_query("INFO FOR ROOT").await.unwrap(); // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await.unwrap(); // Define a user record access method socket .send_message_query( r#" DEFINE ACCESS user ON DATABASE TYPE RECORD DURATION 1s SIGNUP ( CREATE user SET email = $email, pass = crypto::argon2::generate($pass) ) SIGNIN ( SELECT * FROM user WHERE email = $email AND crypto::argon2::compare(pass, $pass) ) ;"#, ) .await .unwrap(); // Create resource that requires a session with the access method to query socket .send_message_query( r#" DEFINE TABLE test SCHEMALESS PERMISSIONS FOR select, create, update, delete WHERE $access = "user" ;"#, ) .await .unwrap(); socket .send_message_query( r#" CREATE test:1 SET working = "yes" ;"#, ) .await .unwrap(); // Send SIGNUP command let res = socket .send_request( "signup", json!( [{ "ns": NS, "db": DB, "ac": "user", "email": "email@email.com", "pass": "pass", }] ), ) .await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); // Verify response contains no error assert!(res.keys().all(|k| ["id", "result"].contains(&k.as_str())), "result: {:?}", res); // Verify it returns a token assert!(res["result"].is_string(), "result: {:?}", res); let res = res["result"].as_str().unwrap(); assert!(res.starts_with("eyJ0eXAiOiJKV1QiLCJhbGciOiJIUzUxMiJ9"), "result: {}", res); // Authenticate using the token, which will expire soon socket.send_request("authenticate", json!([res,])).await.unwrap(); // Wait two seconds for token to expire tokio::time::sleep(tokio::time::Duration::from_secs(2)).await; // Verify that the session has expired let res = socket.send_request("query", json!(["SELECT VALUE working FROM test:1",])).await; assert!(res.is_ok(), "result: {:?}", res); let res = res.unwrap(); assert!(res.is_object(), "result: {:?}", res); let res = res.as_object().unwrap(); assert_eq!( res["error"], json!({"code": -32000, "message": "There was a problem with the database: The session has expired"}) ); // Authenticate using the root token, which has not expired yet socket.send_request("authenticate", json!([root_token,])).await.unwrap(); // Check that we have root access and the session is not expired let res = socket.send_message_query("INFO FOR ROOT").await.unwrap(); assert_eq!(res[0]["status"], "OK", "result: {:?}", res); // Test passed server.finish().unwrap(); } #[test(tokio::test)] async fn run_functions() { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await.unwrap(); // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await.unwrap(); // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await.unwrap(); // Define function socket .send_message_query("DEFINE FUNCTION fn::foo() {RETURN 'fn::foo called';}") .await .unwrap(); socket .send_message_query( "DEFINE FUNCTION fn::bar($val: string) {RETURN 'fn::bar called with: ' + $val;}", ) .await .unwrap(); // call functions let res = socket.send_message_run("fn::foo", None, vec![]).await.unwrap(); assert!(matches!(res, serde_json::Value::String(s) if &s == "fn::foo called")); let res = socket.send_message_run("fn::bar", None, vec![]).await; assert!(res.is_err()); let res = socket.send_message_run("fn::bar", None, vec![42.into()]).await; assert!(res.is_err()); let res = socket.send_message_run("fn::bar", None, vec!["first".into(), "second".into()]).await; assert!(res.is_err()); let res = socket.send_message_run("fn::bar", None, vec!["string_val".into()]).await.unwrap(); assert!(matches!(res, serde_json::Value::String(s) if &s == "fn::bar called with: string_val")); // normal functions let res = socket.send_message_run("math::abs", None, vec![42.into()]).await.unwrap(); assert!(matches!(res, serde_json::Value::Number(n) if n.as_u64() == Some(42))); let res = socket .send_message_run("math::max", None, vec![vec![1, 2, 3, 4, 5, 6].into()]) .await .unwrap(); assert!(matches!(res, serde_json::Value::Number(n) if n.as_u64() == Some(6))); // Test passed server.finish().unwrap(); } #[test(tokio::test)] async fn relate_rpc() { // Setup database server let (addr, mut server) = common::start_server_with_defaults().await.unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await.unwrap(); // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await.unwrap(); // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await.unwrap(); // create records and relate socket.send_message_query("CREATE foo:a, foo:b").await.unwrap(); socket .send_message_relate("foo:a".into(), "bar".into(), "foo:b".into(), Some(json!({"val": 42}))) .await .unwrap(); // test let mut res = socket.send_message_query("RETURN foo:a->bar.val").await.unwrap(); let expected = json!(42); assert_eq!(res.remove(0)["result"], expected); let mut res = socket.send_message_query("RETURN foo:a->bar->foo").await.unwrap(); let expected = json!(["foo:b"]); assert_eq!(res.remove(0)["result"], expected); // Test passed server.finish().unwrap(); } #[test(tokio::test)] async fn temporary_directory() { // Setup database server let temp_dir = TempDir::new().unwrap(); let (addr, mut server) = common::start_server_with_temporary_directory(temp_dir.to_string_lossy().as_ref()) .await .unwrap(); // Connect to WebSocket let mut socket = Socket::connect(&addr, SERVER, FORMAT).await.unwrap(); // Authenticate the connection socket.send_message_signin(USER, PASS, None, None, None).await.unwrap(); // Specify a namespace and database socket.send_message_use(Some(NS), Some(DB)).await.unwrap(); // create records socket.send_message_query("CREATE test:a, test:b").await.unwrap(); // These selects use the memory collector let mut res = socket.send_message_query("SELECT * FROM test ORDER BY id DESC EXPLAIN").await.unwrap(); let expected = json!([{"detail": { "table": "test" }, "operation": "Iterate Table" }, { "detail": { "type": "Memory" }, "operation": "Collector" }]); assert_eq!(res.remove(0)["result"], expected); // And return the correct result let mut res = socket.send_message_query("SELECT * FROM test ORDER BY id DESC").await.unwrap(); let expected = json!([{"id": "test:b" }, { "id": "test:a" }]); assert_eq!(res.remove(0)["result"], expected); // This one should the file collector let mut res = socket .send_message_query("SELECT * FROM test ORDER BY id DESC TEMPFILES EXPLAIN") .await .unwrap(); let expected = json!([{"detail": { "table": "test" }, "operation": "Iterate Table" }, { "detail": { "type": "TempFiles" }, "operation": "Collector" }]); assert_eq!(res.remove(0)["result"], expected); // And return the correct result let mut res = socket.send_message_query("SELECT * FROM test ORDER BY id DESC TEMPFILES").await.unwrap(); let expected = json!([{"id": "test:b" }, { "id": "test:a" }]); assert_eq!(res.remove(0)["result"], expected); // Test passed server.finish().unwrap(); // Cleanup temp_dir.close().unwrap(); }