use futures::TryStreamExt; use sqlx::mssql::{Mssql, MssqlPoolOptions}; use sqlx::{Column, Connection, Executor, MssqlConnection, Row, Statement, TypeInfo}; use sqlx_core::mssql::MssqlRow; use sqlx_test::new; use std::sync::atomic::{AtomicI32, Ordering}; use std::time::Duration; #[sqlx_macros::test] async fn it_connects() -> anyhow::Result<()> { let mut conn = new::().await?; conn.ping().await?; conn.close().await?; Ok(()) } #[sqlx_macros::test] async fn it_can_select_expression() -> anyhow::Result<()> { let mut conn = new::().await?; let row: MssqlRow = conn.fetch_one("SELECT 4").await?; let v: i32 = row.try_get(0)?; assert_eq!(v, 4); Ok(()) } #[sqlx_macros::test] async fn it_can_select_expression_by_name() -> anyhow::Result<()> { let mut conn = new::().await?; let row: MssqlRow = conn.fetch_one("SELECT 4 as _3").await?; let v: i32 = row.try_get("_3")?; assert_eq!(v, 4); Ok(()) } #[sqlx_macros::test] async fn it_can_fail_to_connect() -> anyhow::Result<()> { let mut url = dotenvy::var("DATABASE_URL")?; url = url.replace("Password", "NotPassword"); let res = MssqlConnection::connect(&url).await; let err = res.unwrap_err(); let err = err.into_database_error().unwrap(); assert_eq!(err.message(), "Login failed for user \'sa\'."); Ok(()) } #[sqlx_macros::test] async fn it_can_inspect_errors() -> anyhow::Result<()> { let mut conn = new::().await?; let res: Result<_, sqlx::Error> = sqlx::query("select f").execute(&mut conn).await; let err = res.unwrap_err(); // can also do [as_database_error] or use `match ..` let err = err.into_database_error().unwrap(); assert_eq!(err.message(), "Invalid column name 'f'."); Ok(()) } #[sqlx_macros::test] async fn it_maths() -> anyhow::Result<()> { let mut conn = new::().await?; let value = sqlx::query("SELECT 1 + @p1") .bind(5_i32) .try_map(|row: MssqlRow| row.try_get::(0)) .fetch_one(&mut conn) .await?; assert_eq!(6_i32, value); Ok(()) } #[sqlx_macros::test] async fn it_executes() -> anyhow::Result<()> { let mut conn = new::().await?; let _ = conn .execute( r#" CREATE TABLE #users (id INTEGER PRIMARY KEY); "#, ) .await?; for index in 1..=10_i32 { let done = sqlx::query("INSERT INTO #users (id) VALUES (@p1)") .bind(index * 2) .execute(&mut conn) .await?; assert_eq!(done.rows_affected(), 1); } let sum: i32 = sqlx::query("SELECT id FROM #users") .try_map(|row: MssqlRow| row.try_get::(0)) .fetch(&mut conn) .try_fold(0_i32, |acc, x| async move { Ok(acc + x) }) .await?; assert_eq!(sum, 110); Ok(()) } #[sqlx_macros::test] async fn it_can_return_1000_rows() -> anyhow::Result<()> { let mut conn = new::().await?; let _ = conn .execute( r#" CREATE TABLE #users (id INTEGER PRIMARY KEY); "#, ) .await?; for index in 1..=1000_i32 { let done = sqlx::query("INSERT INTO #users (id) VALUES (@p1)") .bind(index * 2) .execute(&mut conn) .await?; assert_eq!(done.rows_affected(), 1); } let sum: i32 = sqlx::query("SELECT id FROM #users") .try_map(|row: MssqlRow| row.try_get::(0)) .fetch(&mut conn) .try_fold(0_i32, |acc, x| async move { Ok(acc + x) }) .await?; assert_eq!(sum, 1001000); Ok(()) } #[sqlx_macros::test] async fn it_selects_null() -> anyhow::Result<()> { let mut conn = new::().await?; let (_, val): (i32, Option) = sqlx::query_as("SELECT 5, NULL") .fetch_one(&mut conn) .await?; assert!(val.is_none()); let val: Option = conn.fetch_one("SELECT 10, NULL").await?.try_get(1)?; assert!(val.is_none()); Ok(()) } #[sqlx_macros::test] async fn it_binds_empty_string_and_null() -> anyhow::Result<()> { let mut conn = new::().await?; let (val, val2): (String, Option) = sqlx::query_as("SELECT @p1, @p2") .bind("") .bind(None::) .fetch_one(&mut conn) .await?; assert!(val.is_empty()); assert!(val2.is_none()); Ok(()) } #[sqlx_macros::test] async fn it_can_work_with_transactions() -> anyhow::Result<()> { let mut conn = new::().await?; conn.execute("IF OBJECT_ID('_sqlx_users_1922', 'U') IS NULL CREATE TABLE _sqlx_users_1922 (id INTEGER PRIMARY KEY)") .await?; conn.execute("DELETE FROM _sqlx_users_1922").await?; // begin .. rollback let mut tx = conn.begin().await?; sqlx::query("INSERT INTO _sqlx_users_1922 (id) VALUES ($1)") .bind(10_i32) .execute(&mut tx) .await?; tx.rollback().await?; let (count,): (i32,) = sqlx::query_as("SELECT COUNT(*) FROM _sqlx_users_1922") .fetch_one(&mut conn) .await?; assert_eq!(count, 0); // begin .. commit let mut tx = conn.begin().await?; sqlx::query("INSERT INTO _sqlx_users_1922 (id) VALUES (@p1)") .bind(10_i32) .execute(&mut tx) .await?; tx.commit().await?; let (count,): (i32,) = sqlx::query_as("SELECT COUNT(*) FROM _sqlx_users_1922") .fetch_one(&mut conn) .await?; assert_eq!(count, 1); // begin .. (drop) { let mut tx = conn.begin().await?; sqlx::query("INSERT INTO _sqlx_users_1922 (id) VALUES (@p1)") .bind(20_i32) .execute(&mut tx) .await?; } conn = new::().await?; let (count,): (i32,) = sqlx::query_as("SELECT COUNT(*) FROM _sqlx_users_1922") .fetch_one(&mut conn) .await?; assert_eq!(count, 1); Ok(()) } #[sqlx_macros::test] async fn it_can_work_with_nested_transactions() -> anyhow::Result<()> { let mut conn = new::().await?; conn.execute("IF OBJECT_ID('_sqlx_users_2523', 'U') IS NULL CREATE TABLE _sqlx_users_2523 (id INTEGER PRIMARY KEY)") .await?; conn.execute("DELETE FROM _sqlx_users_2523").await?; // begin let mut tx = conn.begin().await?; // insert a user sqlx::query("INSERT INTO _sqlx_users_2523 (id) VALUES (@p1)") .bind(50_i32) .execute(&mut tx) .await?; // begin once more let mut tx2 = tx.begin().await?; // insert another user sqlx::query("INSERT INTO _sqlx_users_2523 (id) VALUES (@p1)") .bind(10_i32) .execute(&mut tx2) .await?; // never mind, rollback tx2.rollback().await?; // did we really? let (count,): (i32,) = sqlx::query_as("SELECT COUNT(*) FROM _sqlx_users_2523") .fetch_one(&mut tx) .await?; assert_eq!(count, 1); // actually, commit tx.commit().await?; // did we really? let (count,): (i32,) = sqlx::query_as("SELECT COUNT(*) FROM _sqlx_users_2523") .fetch_one(&mut conn) .await?; assert_eq!(count, 1); Ok(()) } #[sqlx_macros::test] async fn it_can_prepare_then_execute() -> anyhow::Result<()> { let mut conn = new::().await?; let mut tx = conn.begin().await?; let tweet_id: i64 = sqlx::query_scalar( "INSERT INTO tweet ( id, text ) OUTPUT INSERTED.id VALUES ( 50, 'Hello, World' )", ) .fetch_one(&mut tx) .await?; let statement = tx.prepare("SELECT * FROM tweet WHERE id = @p1").await?; assert_eq!(statement.column(0).name(), "id"); assert_eq!(statement.column(1).name(), "text"); assert_eq!(statement.column(2).name(), "is_sent"); assert_eq!(statement.column(3).name(), "owner_id"); assert_eq!(statement.column(0).type_info().name(), "BIGINT"); assert_eq!(statement.column(1).type_info().name(), "NVARCHAR"); assert_eq!(statement.column(2).type_info().name(), "TINYINT"); assert_eq!(statement.column(3).type_info().name(), "BIGINT"); let row = statement.query().bind(tweet_id).fetch_one(&mut tx).await?; let tweet_text: String = row.try_get("text")?; assert_eq!(tweet_text, "Hello, World"); Ok(()) } // MSSQL-specific copy of the test case in `tests/any/pool.rs` // because MSSQL has its own bespoke syntax for temporary tables. #[sqlx_macros::test] async fn test_pool_callbacks() -> anyhow::Result<()> { #[derive(sqlx::FromRow, Debug, PartialEq, Eq)] struct ConnStats { id: i32, before_acquire_calls: i32, after_release_calls: i32, } sqlx_test::setup_if_needed(); let current_id = AtomicI32::new(0); let pool = MssqlPoolOptions::new() .max_connections(1) .acquire_timeout(Duration::from_secs(5)) .after_connect(move |conn, meta| { assert_eq!(meta.age, Duration::ZERO); assert_eq!(meta.idle_for, Duration::ZERO); let id = current_id.fetch_add(1, Ordering::AcqRel); Box::pin(async move { let statement = format!( // language=MSSQL r#" CREATE TABLE #conn_stats( id int primary key, before_acquire_calls int default 0, after_release_calls int default 0 ); INSERT INTO #conn_stats(id) VALUES ({}); "#, // Until we have generalized bind parameters id ); conn.execute(&statement[..]).await?; Ok(()) }) }) .before_acquire(|conn, meta| { // `age` and `idle_for` should both be nonzero assert_ne!(meta.age, Duration::ZERO); assert_ne!(meta.idle_for, Duration::ZERO); Box::pin(async move { // MSSQL doesn't support UPDATE ... RETURNING either sqlx::query( r#" UPDATE #conn_stats SET before_acquire_calls = before_acquire_calls + 1 "#, ) .execute(&mut *conn) .await?; let stats: ConnStats = sqlx::query_as("SELECT * FROM #conn_stats") .fetch_one(conn) .await?; // For even IDs, cap by the number of before_acquire calls. // Ignore the check for odd IDs. Ok((stats.id & 1) == 1 || stats.before_acquire_calls < 3) }) }) .after_release(|conn, meta| { // `age` should be nonzero but `idle_for` should be zero. assert_ne!(meta.age, Duration::ZERO); assert_eq!(meta.idle_for, Duration::ZERO); Box::pin(async move { sqlx::query( r#" UPDATE #conn_stats SET after_release_calls = after_release_calls + 1 "#, ) .execute(&mut *conn) .await?; let stats: ConnStats = sqlx::query_as("SELECT * FROM #conn_stats") .fetch_one(conn) .await?; // For odd IDs, cap by the number of before_release calls. // Ignore the check for even IDs. Ok((stats.id & 1) == 0 || stats.after_release_calls < 4) }) }) // Don't establish a connection yet. .connect_lazy(&std::env::var("DATABASE_URL")?)?; // Expected pattern of (id, before_acquire_calls, after_release_calls) let pattern = [ // The connection pool starts empty. (0, 0, 0), (0, 1, 1), (0, 2, 2), (1, 0, 0), (1, 1, 1), (1, 2, 2), // We should expect one more `acquire` because the ID is odd (1, 3, 3), (2, 0, 0), (2, 1, 1), (2, 2, 2), (3, 0, 0), ]; for (id, before_acquire_calls, after_release_calls) in pattern { let conn_stats: ConnStats = sqlx::query_as("SELECT * FROM #conn_stats") .fetch_one(&pool) .await?; assert_eq!( conn_stats, ConnStats { id, before_acquire_calls, after_release_calls } ); } pool.close().await; Ok(()) }