use crate::connect; use futures::{pin_mut, TryStreamExt}; use tokio_postgres::binary_copy::{BinaryCopyInWriter, BinaryCopyOutStream}; use tokio_postgres::types::Type; #[tokio::test] async fn write_basic() { let client = connect("user=postgres").await; client .batch_execute("CREATE TEMPORARY TABLE foo (id INT, bar TEXT)") .await .unwrap(); let sink = client .copy_in("COPY foo (id, bar) FROM STDIN BINARY") .await .unwrap(); let writer = BinaryCopyInWriter::new(sink, &[Type::INT4, Type::TEXT]); pin_mut!(writer); writer.as_mut().write(&[&1i32, &"foobar"]).await.unwrap(); writer .as_mut() .write(&[&2i32, &None::<&str>]) .await .unwrap(); writer.finish().await.unwrap(); let rows = client .query("SELECT id, bar FROM foo ORDER BY id", &[]) .await .unwrap(); assert_eq!(rows.len(), 2); assert_eq!(rows[0].get::<_, i32>(0), 1); assert_eq!(rows[0].get::<_, Option<&str>>(1), Some("foobar")); assert_eq!(rows[1].get::<_, i32>(0), 2); assert_eq!(rows[1].get::<_, Option<&str>>(1), None); } #[tokio::test] async fn write_many_rows() { let client = connect("user=postgres").await; client .batch_execute("CREATE TEMPORARY TABLE foo (id INT, bar TEXT)") .await .unwrap(); let sink = client .copy_in("COPY foo (id, bar) FROM STDIN BINARY") .await .unwrap(); let writer = BinaryCopyInWriter::new(sink, &[Type::INT4, Type::TEXT]); pin_mut!(writer); for i in 0..10_000i32 { writer .as_mut() .write(&[&i, &format!("the value for {}", i)]) .await .unwrap(); } writer.finish().await.unwrap(); let rows = client .query("SELECT id, bar FROM foo ORDER BY id", &[]) .await .unwrap(); for (i, row) in rows.iter().enumerate() { assert_eq!(row.get::<_, i32>(0), i as i32); assert_eq!(row.get::<_, &str>(1), format!("the value for {}", i)); } } #[tokio::test] async fn write_big_rows() { let client = connect("user=postgres").await; client .batch_execute("CREATE TEMPORARY TABLE foo (id INT, bar BYTEA)") .await .unwrap(); let sink = client .copy_in("COPY foo (id, bar) FROM STDIN BINARY") .await .unwrap(); let writer = BinaryCopyInWriter::new(sink, &[Type::INT4, Type::BYTEA]); pin_mut!(writer); for i in 0..2i32 { writer .as_mut() .write(&[&i, &vec![i as u8; 128 * 1024]]) .await .unwrap(); } writer.finish().await.unwrap(); let rows = client .query("SELECT id, bar FROM foo ORDER BY id", &[]) .await .unwrap(); for (i, row) in rows.iter().enumerate() { assert_eq!(row.get::<_, i32>(0), i as i32); assert_eq!(row.get::<_, &[u8]>(1), &*vec![i as u8; 128 * 1024]); } } #[tokio::test] async fn read_basic() { let client = connect("user=postgres").await; client .batch_execute( " CREATE TEMPORARY TABLE foo (id INT, bar TEXT); INSERT INTO foo (id, bar) VALUES (1, 'foobar'), (2, NULL); ", ) .await .unwrap(); let stream = client .copy_out("COPY foo (id, bar) TO STDIN BINARY") .await .unwrap(); let rows = BinaryCopyOutStream::new(stream, &[Type::INT4, Type::TEXT]) .try_collect::>() .await .unwrap(); assert_eq!(rows.len(), 2); assert_eq!(rows[0].get::(0), 1); assert_eq!(rows[0].get::>(1), Some("foobar")); assert_eq!(rows[1].get::(0), 2); assert_eq!(rows[1].get::>(1), None); } #[tokio::test] async fn read_many_rows() { let client = connect("user=postgres").await; client .batch_execute( " CREATE TEMPORARY TABLE foo (id INT, bar TEXT); INSERT INTO foo (id, bar) SELECT i, 'the value for ' || i FROM generate_series(0, 9999) i;" ) .await .unwrap(); let stream = client .copy_out("COPY foo (id, bar) TO STDIN BINARY") .await .unwrap(); let rows = BinaryCopyOutStream::new(stream, &[Type::INT4, Type::TEXT]) .try_collect::>() .await .unwrap(); assert_eq!(rows.len(), 10_000); for (i, row) in rows.iter().enumerate() { assert_eq!(row.get::(0), i as i32); assert_eq!(row.get::<&str>(1), format!("the value for {}", i)); } } #[tokio::test] async fn read_big_rows() { let client = connect("user=postgres").await; client .batch_execute("CREATE TEMPORARY TABLE foo (id INT, bar BYTEA)") .await .unwrap(); for i in 0..2i32 { client .execute( "INSERT INTO foo (id, bar) VALUES ($1, $2)", &[&i, &vec![i as u8; 128 * 1024]], ) .await .unwrap(); } let stream = client .copy_out("COPY foo (id, bar) TO STDIN BINARY") .await .unwrap(); let rows = BinaryCopyOutStream::new(stream, &[Type::INT4, Type::BYTEA]) .try_collect::>() .await .unwrap(); assert_eq!(rows.len(), 2); for (i, row) in rows.iter().enumerate() { assert_eq!(row.get::(0), i as i32); assert_eq!(row.get::<&[u8]>(1), &vec![i as u8; 128 * 1024][..]); } }