use redis; use futures; use futures::{future, prelude::*}; use crate::support::*; use redis::{aio::MultiplexedConnection, RedisResult}; mod support; #[test] fn test_args() { let ctx = TestContext::new(); let connect = ctx.async_connection_async_std(); block_on_all_using_async_std(connect.and_then(|mut con| async move { redis::cmd("SET") .arg("key1") .arg(b"foo") .query_async(&mut con) .await?; redis::cmd("SET") .arg(&["key2", "bar"]) .query_async(&mut con) .await?; let result = redis::cmd("MGET") .arg(&["key1", "key2"]) .query_async(&mut con) .await; assert_eq!(result, Ok(("foo".to_string(), b"bar".to_vec()))); result })) .unwrap(); } #[test] fn test_args_async_std() { let ctx = TestContext::new(); let connect = ctx.async_connection_async_std(); block_on_all_using_async_std(connect.and_then(|mut con| async move { redis::cmd("SET") .arg("key1") .arg(b"foo") .query_async(&mut con) .await?; redis::cmd("SET") .arg(&["key2", "bar"]) .query_async(&mut con) .await?; let result = redis::cmd("MGET") .arg(&["key1", "key2"]) .query_async(&mut con) .await; assert_eq!(result, Ok(("foo".to_string(), b"bar".to_vec()))); result })) .unwrap(); } #[test] fn dont_panic_on_closed_multiplexed_connection() { let ctx = TestContext::new(); let connect = ctx.multiplexed_async_connection_async_std(); drop(ctx); block_on_all_using_async_std(async move { connect .and_then(|con| async move { let cmd = move || { let mut con = con.clone(); async move { redis::cmd("SET") .arg("key1") .arg(b"foo") .query_async(&mut con) .await } }; let result: RedisResult<()> = cmd().await; assert_eq!( result.as_ref().unwrap_err().kind(), redis::ErrorKind::IoError, "{}", result.as_ref().unwrap_err() ); cmd().await }) .map(|result| { assert_eq!( result.as_ref().unwrap_err().kind(), redis::ErrorKind::IoError, "{}", result.as_ref().unwrap_err() ); }) .await }); } #[test] fn test_pipeline_transaction() { let ctx = TestContext::new(); block_on_all_using_async_std(async move { let mut con = ctx.async_connection_async_std().await?; let mut pipe = redis::pipe(); pipe.atomic() .cmd("SET") .arg("key_1") .arg(42) .ignore() .cmd("SET") .arg("key_2") .arg(43) .ignore() .cmd("MGET") .arg(&["key_1", "key_2"]); pipe.query_async(&mut con) .map_ok(|((k1, k2),): ((i32, i32),)| { assert_eq!(k1, 42); assert_eq!(k2, 43); }) .await }) .unwrap(); } fn test_cmd(con: &MultiplexedConnection, i: i32) -> impl Future> + Send { let mut con = con.clone(); async move { let key = format!("key{}", i); let key_2 = key.clone(); let key2 = format!("key{}_2", i); let key2_2 = key2.clone(); let foo_val = format!("foo{}", i); redis::cmd("SET") .arg(&key[..]) .arg(foo_val.as_bytes()) .query_async(&mut con) .await?; redis::cmd("SET") .arg(&[&key2, "bar"]) .query_async(&mut con) .await?; redis::cmd("MGET") .arg(&[&key_2, &key2_2]) .query_async(&mut con) .map(|result| { assert_eq!(Ok((foo_val, b"bar".to_vec())), result); Ok(()) }) .await } } fn test_error(con: &MultiplexedConnection) -> impl Future> { let mut con = con.clone(); async move { redis::cmd("SET") .query_async(&mut con) .map(|result| match result { Ok(()) => panic!("Expected redis to return an error"), Err(_) => Ok(()), }) .await } } #[test] fn test_args_multiplexed_connection() { let ctx = TestContext::new(); block_on_all_using_async_std(async move { ctx.multiplexed_async_connection_async_std() .and_then(|con| { let cmds = (0..100).map(move |i| test_cmd(&con, i)); future::try_join_all(cmds).map_ok(|results| { assert_eq!(results.len(), 100); }) }) .map_err(|err| panic!("{}", err)) .await }) .unwrap(); } #[test] fn test_args_with_errors_multiplexed_connection() { let ctx = TestContext::new(); block_on_all_using_async_std(async move { ctx.multiplexed_async_connection_async_std() .and_then(|con| { let cmds = (0..100).map(move |i| { let con = con.clone(); async move { if i % 2 == 0 { test_cmd(&con, i).await } else { test_error(&con).await } } }); future::try_join_all(cmds).map_ok(|results| { assert_eq!(results.len(), 100); }) }) .map_err(|err| panic!("{}", err)) .await }) .unwrap(); } #[test] fn test_transaction_multiplexed_connection() { let ctx = TestContext::new(); block_on_all_using_async_std(async move { ctx.multiplexed_async_connection_async_std() .and_then(|con| { let cmds = (0..100).map(move |i| { let mut con = con.clone(); async move { let foo_val = i; let bar_val = format!("bar{}", i); let mut pipe = redis::pipe(); pipe.atomic() .cmd("SET") .arg("key") .arg(foo_val) .ignore() .cmd("SET") .arg(&["key2", &bar_val[..]]) .ignore() .cmd("MGET") .arg(&["key", "key2"]); pipe.query_async(&mut con) .map(move |result| { assert_eq!(Ok(((foo_val, bar_val.into_bytes()),)), result); result }) .await } }); future::try_join_all(cmds) }) .map_ok(|results| { assert_eq!(results.len(), 100); }) .map_err(|err| panic!("{}", err)) .await }) .unwrap(); } #[test] #[cfg(feature = "script")] fn test_script() { use redis::RedisError; // Note this test runs both scripts twice to test when they have already been loaded // into Redis and when they need to be loaded in let script1 = redis::Script::new("return redis.call('SET', KEYS[1], ARGV[1])"); let script2 = redis::Script::new("return redis.call('GET', KEYS[1])"); let ctx = TestContext::new(); block_on_all_using_async_std(async move { let mut con = ctx.multiplexed_async_connection_async_std().await?; script1 .key("key1") .arg("foo") .invoke_async(&mut con) .await?; let val: String = script2.key("key1").invoke_async(&mut con).await?; assert_eq!(val, "foo"); script1 .key("key1") .arg("bar") .invoke_async(&mut con) .await?; let val: String = script2.key("key1").invoke_async(&mut con).await?; assert_eq!(val, "bar"); Ok(()) }) .map_err(|err: RedisError| err) .unwrap(); } #[test] #[cfg(feature = "script")] fn test_script_returning_complex_type() { let ctx = TestContext::new(); block_on_all_using_async_std(async { let mut con = ctx.multiplexed_async_connection_async_std().await?; redis::Script::new("return {1, ARGV[1], true}") .arg("hello") .invoke_async(&mut con) .map_ok(|(i, s, b): (i32, String, bool)| { assert_eq!(i, 1); assert_eq!(s, "hello"); assert_eq!(b, true); }) .await }) .unwrap(); }