sqlx/tests/postgres/postgres.rs

use futures::TryStreamExt;
use sqlx::postgres::PgRow;
use sqlx::postgres::{PgDatabaseError, PgErrorPosition, PgSeverity};
use sqlx::CachingConnection;
use sqlx::{postgres::Postgres, Connection, Executor, PgPool, Row};
use sqlx_test::new;
use std::time::Duration;

#[sqlx_macros::test]
async fn it_connects() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    let value = sqlx::query("select 1 + 1")
        .try_map(|row: PgRow| row.try_get::<i32, _>(0))
        .fetch_one(&mut conn)
        .await?;

    assert_eq!(2i32, value);

    Ok(())
}

#[sqlx_macros::test]
async fn it_pings() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    conn.ping().await?;

    Ok(())
}

#[sqlx_macros::test]
async fn it_maths() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    let value = sqlx::query("select 1 + $1::int")
        .bind(5_i32)
        .try_map(|row: PgRow| row.try_get::<i32, _>(0))
        .fetch_one(&mut conn)
        .await?;

    assert_eq!(6i32, value);

    Ok(())
}

#[sqlx_macros::test]
async fn it_can_inspect_errors() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    let res: Result<u64, 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(), "column \"f\" does not exist");
    assert_eq!(err.code().as_deref(), Some("42703"));

    // can also do [downcast_ref]
    let err: Box<PgDatabaseError> = err.downcast();

    assert_eq!(err.severity(), PgSeverity::Error);
    assert_eq!(err.message(), "column \"f\" does not exist");
    assert_eq!(err.code(), "42703");
    assert_eq!(err.position(), Some(PgErrorPosition::Original(8)));
    assert_eq!(err.routine(), Some("errorMissingColumn"));

    Ok(())
}

#[sqlx_macros::test]
async fn it_executes() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    let _ = conn
        .execute(
            r#"
CREATE TEMPORARY TABLE users (id INTEGER PRIMARY KEY);
            "#,
        )
        .await?;

    for index in 1..=10_i32 {
        let cnt = sqlx::query("INSERT INTO users (id) VALUES ($1)")
            .bind(index)
            .execute(&mut conn)
            .await?;

        assert_eq!(cnt, 1);
    }

    let sum: i32 = sqlx::query("SELECT id FROM users")
        .try_map(|row: PgRow| row.try_get::<i32, _>(0))
        .fetch(&mut conn)
        .try_fold(0_i32, |acc, x| async move { Ok(acc + x) })
        .await?;

    assert_eq!(sum, 55);

    Ok(())
}

#[sqlx_macros::test]
async fn it_executes_with_pool() -> anyhow::Result<()> {
    let pool = sqlx_test::pool::<Postgres>().await?;

    let rows = pool.fetch_all("SELECT 1; SElECT 2").await?;

    assert_eq!(rows.len(), 2);

    Ok(())
}

// https://github.com/launchbadge/sqlx/issues/104
#[sqlx_macros::test]
async fn it_can_return_interleaved_nulls_issue_104() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    let tuple = sqlx::query("SELECT NULL, 10::INT, NULL, 20::INT, NULL, 40::INT, NULL, 80::INT")
        .try_map(|row: PgRow| {
            Ok((
                row.get::<Option<i32>, _>(0),
                row.get::<Option<i32>, _>(1),
                row.get::<Option<i32>, _>(2),
                row.get::<Option<i32>, _>(3),
                row.get::<Option<i32>, _>(4),
                row.get::<Option<i32>, _>(5),
                row.get::<Option<i32>, _>(6),
                row.get::<Option<i32>, _>(7),
            ))
        })
        .fetch_one(&mut conn)
        .await?;

    assert_eq!(tuple.0, None);
    assert_eq!(tuple.1, Some(10));
    assert_eq!(tuple.2, None);
    assert_eq!(tuple.3, Some(20));
    assert_eq!(tuple.4, None);
    assert_eq!(tuple.5, Some(40));
    assert_eq!(tuple.6, None);
    assert_eq!(tuple.7, Some(80));

    Ok(())
}

#[sqlx_macros::test]
async fn it_can_fail_and_recover() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    for i in 0..10 {
        // make a query that will fail
        let res = conn
            .execute("INSERT INTO not_found (column) VALUES (10)")
            .await;
        assert!(res.is_err());

        // now try and use the connection
        let val: i32 = conn
            .fetch_one(&*format!("SELECT {}::int4", i))
            .await?
            .get(0);
        assert_eq!(val, i);
    }

    Ok(())
}

#[sqlx_macros::test]
async fn it_can_fail_and_recover_with_pool() -> anyhow::Result<()> {
    let pool = sqlx_test::pool::<Postgres>().await?;

    for i in 0..10 {
        // make a query that will fail
        let res = pool
            .execute("INSERT INTO not_found (column) VALUES (10)")
            .await;
        assert!(res.is_err());

        // now try and use the connection
        let val: i32 = pool
            .fetch_one(&*format!("SELECT {}::int4", i))
            .await?
            .get(0);
        assert_eq!(val, i);
    }

    Ok(())
}

#[sqlx_macros::test]
async fn it_can_query_scalar() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    let scalar: i32 = sqlx::query_scalar("SELECT 42").fetch_one(&mut conn).await?;
    assert_eq!(scalar, 42);

    let scalar: Option<i32> = sqlx::query_scalar("SELECT 42").fetch_one(&mut conn).await?;
    assert_eq!(scalar, Some(42));

    let scalar: Option<i32> = sqlx::query_scalar("SELECT NULL")
        .fetch_one(&mut conn)
        .await?;
    assert_eq!(scalar, None);

    let scalar: Option<i64> = sqlx::query_scalar("SELECT 42::bigint")
        .fetch_optional(&mut conn)
        .await?;
    assert_eq!(scalar, Some(42));

    let scalar: Option<i16> = sqlx::query_scalar("").fetch_optional(&mut conn).await?;
    assert_eq!(scalar, None);

    Ok(())
}

#[sqlx_macros::test]
/// This is seperate from `it_can_query_scalar` because while implementing it I ran into a
/// bug which that prevented `Vec<i32>` from compiling but allowed Vec<Option<i32>>.
async fn it_can_query_all_scalar() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    let scalar: Vec<i32> = sqlx::query_scalar("SELECT $1")
        .bind(42)
        .fetch_all(&mut conn)
        .await?;
    assert_eq!(scalar, vec![42]);

    let scalar: Vec<Option<i32>> = sqlx::query_scalar("SELECT $1 UNION ALL SELECT NULL")
        .bind(42)
        .fetch_all(&mut conn)
        .await?;
    assert_eq!(scalar, vec![Some(42), None]);

    Ok(())
}

#[sqlx_macros::test]
async fn it_can_work_with_transactions() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    conn.execute("CREATE TABLE IF NOT EXISTS _sqlx_users_1922 (id INTEGER PRIMARY KEY)")
        .await?;

    conn.execute("TRUNCATE _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,): (i64,) = 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 ($1)")
        .bind(10_i32)
        .execute(&mut tx)
        .await?;

    tx.commit().await?;

    let (count,): (i64,) = 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 ($1)")
            .bind(20_i32)
            .execute(&mut tx)
            .await?;
    }

    conn = new::<Postgres>().await?;

    let (count,): (i64,) = 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::<Postgres>().await?;

    conn.execute("CREATE TABLE IF NOT EXISTS _sqlx_users_2523 (id INTEGER PRIMARY KEY)")
        .await?;

    conn.execute("TRUNCATE _sqlx_users_2523").await?;

    // begin
    let mut tx = conn.begin().await?;

    // insert a user
    sqlx::query("INSERT INTO _sqlx_users_2523 (id) VALUES ($1)")
        .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 ($1)")
        .bind(10_i32)
        .execute(&mut tx2)
        .await?;

    // never mind, rollback
    tx2.rollback().await?;

    // did we really?
    let (count,): (i64,) = 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,): (i64,) = sqlx::query_as("SELECT COUNT(*) FROM _sqlx_users_2523")
        .fetch_one(&mut conn)
        .await?;

    assert_eq!(count, 1);

    Ok(())
}

// run with `cargo test --features postgres -- --ignored --nocapture pool_smoke_test`
#[ignore]
#[sqlx_macros::test]
async fn pool_smoke_test() -> anyhow::Result<()> {
    #[cfg(any(feature = "runtime-tokio", feature = "runtime-actix"))]
    use tokio::{task::spawn, time::delay_for as sleep, time::timeout};

    #[cfg(feature = "runtime-async-std")]
    use async_std::{future::timeout, task::sleep, task::spawn};

    eprintln!("starting pool");

    let pool = PgPool::builder()
        .connect_timeout(Duration::from_secs(30))
        .min_size(5)
        .max_size(10)
        .build(&dotenv::var("DATABASE_URL")?)
        .await?;

    // spin up more tasks than connections available, and ensure we don't deadlock
    for i in 0..20 {
        let pool = pool.clone();
        spawn(async move {
            loop {
                if let Err(e) = sqlx::query("select 1 + 1").execute(&pool).await {
                    eprintln!("pool task {} dying due to {}", i, e);
                    break;
                }
            }
        });
    }

    for _ in 0..5 {
        let pool = pool.clone();
        spawn(async move {
            while !pool.is_closed() {
                // drop acquire() futures in a hot loop
                // https://github.com/launchbadge/sqlx/issues/83
                drop(pool.acquire());
            }
        });
    }

    eprintln!("sleeping for 30 seconds");

    sleep(Duration::from_secs(30)).await;

    assert_eq!(pool.size(), 10);

    eprintln!("closing pool");

    timeout(Duration::from_secs(30), pool.close()).await?;

    eprintln!("pool closed successfully");

    Ok(())
}

#[sqlx_macros::test]
async fn test_invalid_query() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    conn.execute("definitely not a correct query")
        .await
        .unwrap_err();

    let mut s = conn.fetch("select 1");
    let row = s.try_next().await?.unwrap();

    assert_eq!(row.get::<i32, _>(0), 1i32);

    Ok(())
}

/// Tests the edge case of executing a completely empty query string.
///
/// This gets flagged as an `EmptyQueryResponse` in Postgres. We
/// catch this and just return no rows.
#[sqlx_macros::test]
async fn test_empty_query() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;
    let affected = conn.execute("").await?;

    assert_eq!(affected, 0);

    Ok(())
}

/// Test a simple select expression. This should return the row.
#[sqlx_macros::test]
async fn test_select_expression() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    let mut s = conn.fetch("SELECT 5");
    let row = s.try_next().await?.unwrap();

    assert!(5i32 == row.try_get::<i32, _>(0)?);

    Ok(())
}

/// Test that we can interleave reads and writes to the database
/// in one simple query. Using the `Cursor` API we should be
/// able to fetch from both queries in sequence.
#[sqlx_macros::test]
async fn test_multi_read_write() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    let mut s = conn.fetch(
        "
CREATE TABLE IF NOT EXISTS _sqlx_test_postgres_5112 (
    id BIGSERIAL PRIMARY KEY,
    text TEXT NOT NULL
);

SELECT 'Hello World' as _1;

INSERT INTO _sqlx_test_postgres_5112 (text) VALUES ('this is a test');

SELECT id, text FROM _sqlx_test_postgres_5112;
    ",
    );

    let row = s.try_next().await?.unwrap();

    assert!("Hello World" == row.try_get::<&str, _>("_1")?);

    let row = s.try_next().await?.unwrap();

    let id: i64 = row.try_get("id")?;
    let text: &str = row.try_get("text")?;

    assert_eq!(1_i64, id);
    assert_eq!("this is a test", text);

    Ok(())
}

#[sqlx_macros::test]
async fn it_caches_statements() -> anyhow::Result<()> {
    let mut conn = new::<Postgres>().await?;

    for i in 0..2 {
        let row = sqlx::query("SELECT $1 AS val")
            .bind(i)
            .fetch_one(&mut conn)
            .await?;

        let val: u32 = row.get("val");

        assert_eq!(i, val);
    }

    assert_eq!(1, conn.cached_statements_count());
    conn.clear_cached_statements().await?;
    assert_eq!(0, conn.cached_statements_count());

    Ok(())
}