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#![cfg_attr(doc_cfg, feature(doc_cfg, doc_auto_cfg))]
//! Diesel-async provides async variants of diesel related query functionality
//!
//! diesel-async is an extension to diesel itself. It is designed to be used together
//! with the main diesel crate. It only provides async variants of core diesel traits,
//! that perform actual io-work.
//! This includes async counterparts the following traits:
//! * [`diesel::prelude::RunQueryDsl`](https://docs.diesel.rs/2.0.x/diesel/prelude/trait.RunQueryDsl.html)
//! -> [`diesel_async::RunQueryDsl`](crate::RunQueryDsl)
//! * [`diesel::connection::Connection`](https://docs.diesel.rs/2.0.x/diesel/connection/trait.Connection.html)
//! -> [`diesel_async::AsyncConnection`](crate::AsyncConnection)
//! * [`diesel::query_dsl::UpdateAndFetchResults`](https://docs.diesel.rs/2.0.x/diesel/query_dsl/trait.UpdateAndFetchResults.html)
//! -> [`diesel_async::UpdateAndFetchResults`](crate::UpdateAndFetchResults)
//!
//! These traits closely mirror their diesel counter parts while providing async functionality.
//!
//! In addition to these core traits 2 fully async connection implementations are provided
//! by diesel-async:
//!
//! * [`AsyncMysqlConnection`] (enabled by the `mysql` feature)
//! * [`AsyncPgConnection`] (enabled by the `postgres` feature)
//!
//! Ordinary usage of `diesel-async` assumes that you just replace the corresponding sync trait
//! method calls and connections with their async counterparts.
//!
//! ```rust
//! # include!("./doctest_setup.rs");
//! #
//! use diesel::prelude::*;
//! use diesel_async::{RunQueryDsl, AsyncConnection};
//!
//! diesel::table! {
//! users(id) {
//! id -> Integer,
//! name -> Text,
//! }
//! }
//! #
//! # #[tokio::main(flavor = "current_thread")]
//! # async fn main() {
//! # run_test().await;
//! # }
//! #
//! # async fn run_test() -> QueryResult<()> {
//!
//! use crate::users::dsl::*;
//!
//! # let mut connection = establish_connection().await;
//! # /*
//! let mut connection = AsyncPgConnection::establish(std::env::var("DATABASE_URL")?).await?;
//! # */
//! let data = users
//! // use ordinary diesel query dsl here
//! .filter(id.gt(0))
//! // execute the query via the provided
//! // async variant of `diesel_async::RunQueryDsl`
//! .load::<(i32, String)>(&mut connection)
//! .await?;
//! let expected_data = vec![
//! (1, String::from("Sean")),
//! (2, String::from("Tess")),
//! ];
//! assert_eq!(expected_data, data);
//! # Ok(())
//! # }
//! ```
#![warn(missing_docs)]
use diesel::backend::Backend;
use diesel::query_builder::{AsQuery, QueryFragment, QueryId};
use diesel::result::Error;
use diesel::row::Row;
use diesel::{ConnectionResult, QueryResult};
use futures_util::{Future, Stream};
use std::fmt::Debug;
pub use scoped_futures;
use scoped_futures::{ScopedBoxFuture, ScopedFutureExt};
#[cfg(feature = "async-connection-wrapper")]
pub mod async_connection_wrapper;
#[cfg(feature = "mysql")]
mod mysql;
#[cfg(feature = "postgres")]
pub mod pg;
#[cfg(any(
feature = "deadpool",
feature = "bb8",
feature = "mobc",
feature = "r2d2"
))]
pub mod pooled_connection;
mod run_query_dsl;
mod stmt_cache;
mod transaction_manager;
#[cfg(feature = "mysql")]
#[doc(inline)]
pub use self::mysql::AsyncMysqlConnection;
#[cfg(feature = "postgres")]
#[doc(inline)]
pub use self::pg::AsyncPgConnection;
#[doc(inline)]
pub use self::run_query_dsl::*;
#[doc(inline)]
pub use self::transaction_manager::{AnsiTransactionManager, TransactionManager};
/// Perform simple operations on a backend.
///
/// You should likely use [`AsyncConnection`] instead.
#[async_trait::async_trait]
pub trait SimpleAsyncConnection {
/// Execute multiple SQL statements within the same string.
///
/// This function is used to execute migrations,
/// which may contain more than one SQL statement.
async fn batch_execute(&mut self, query: &str) -> QueryResult<()>;
}
/// An async connection to a database
///
/// This trait represents a n async database connection. It can be used to query the database through
/// the query dsl provided by diesel, custom extensions or raw sql queries. It essentially mirrors
/// the sync diesel [`Connection`](diesel::connection::Connection) implementation
#[async_trait::async_trait]
pub trait AsyncConnection: SimpleAsyncConnection + Sized + Send {
/// The future returned by `AsyncConnection::execute`
type ExecuteFuture<'conn, 'query>: Future<Output = QueryResult<usize>> + Send
where
Self: 'conn;
/// The future returned by `AsyncConnection::load`
type LoadFuture<'conn, 'query>: Future<Output = QueryResult<Self::Stream<'conn, 'query>>> + Send
where
Self: 'conn;
/// The inner stream returned by `AsyncConnection::load`
type Stream<'conn, 'query>: Stream<Item = QueryResult<Self::Row<'conn, 'query>>> + Send
where
Self: 'conn;
/// The row type used by the stream returned by `AsyncConnection::load`
type Row<'conn, 'query>: Row<'conn, Self::Backend>
where
Self: 'conn;
/// The backend this type connects to
type Backend: Backend;
#[doc(hidden)]
type TransactionManager: TransactionManager<Self>;
/// Establishes a new connection to the database
///
/// The argument to this method and the method's behavior varies by backend.
/// See the documentation for that backend's connection class
/// for details about what it accepts and how it behaves.
async fn establish(database_url: &str) -> ConnectionResult<Self>;
/// Executes the given function inside of a database transaction
///
/// This function executes the provided closure `f` inside a database
/// transaction. If there is already an open transaction for the current
/// connection savepoints will be used instead. The connection is committed if
/// the closure returns `Ok(_)`, it will be rolled back if it returns `Err(_)`.
/// For both cases the original result value will be returned from this function.
///
/// If the transaction fails to commit due to a `SerializationFailure` or a
/// `ReadOnlyTransaction` a rollback will be attempted.
/// If the rollback fails, the error will be returned in a
/// [`Error::RollbackErrorOnCommit`](diesel::result::Error::RollbackErrorOnCommit),
/// from which you will be able to extract both the original commit error and
/// the rollback error.
/// In addition, the connection will be considered broken
/// as it contains a uncommitted unabortable open transaction. Any further
/// interaction with the transaction system will result in an returned error
/// in this case.
///
/// If the closure returns an `Err(_)` and the rollback fails the function
/// will return that rollback error directly, and the transaction manager will
/// be marked as broken as it contains a uncommitted unabortable open transaction.
///
/// If a nested transaction fails to release the corresponding savepoint
/// the error will be returned directly.
///
/// **WARNING:** Canceling the returned future does currently **not**
/// close an already open transaction. You may end up with a connection
/// containing a dangling transaction.
///
/// # Example
///
/// ```rust
/// # include!("doctest_setup.rs");
/// use diesel::result::Error;
/// use scoped_futures::ScopedFutureExt;
/// use diesel_async::{RunQueryDsl, AsyncConnection};
///
/// # #[tokio::main(flavor = "current_thread")]
/// # async fn main() {
/// # run_test().await.unwrap();
/// # }
/// #
/// # async fn run_test() -> QueryResult<()> {
/// # use schema::users::dsl::*;
/// # let conn = &mut establish_connection().await;
/// conn.transaction::<_, Error, _>(|conn| async move {
/// diesel::insert_into(users)
/// .values(name.eq("Ruby"))
/// .execute(conn)
/// .await?;
///
/// let all_names = users.select(name).load::<String>(conn).await?;
/// assert_eq!(vec!["Sean", "Tess", "Ruby"], all_names);
///
/// Ok(())
/// }.scope_boxed()).await?;
///
/// conn.transaction::<(), _, _>(|conn| async move {
/// diesel::insert_into(users)
/// .values(name.eq("Pascal"))
/// .execute(conn)
/// .await?;
///
/// let all_names = users.select(name).load::<String>(conn).await?;
/// assert_eq!(vec!["Sean", "Tess", "Ruby", "Pascal"], all_names);
///
/// // If we want to roll back the transaction, but don't have an
/// // actual error to return, we can return `RollbackTransaction`.
/// Err(Error::RollbackTransaction)
/// }.scope_boxed()).await;
///
/// let all_names = users.select(name).load::<String>(conn).await?;
/// assert_eq!(vec!["Sean", "Tess", "Ruby"], all_names);
/// # Ok(())
/// # }
/// ```
async fn transaction<'a, R, E, F>(&mut self, callback: F) -> Result<R, E>
where
F: for<'r> FnOnce(&'r mut Self) -> ScopedBoxFuture<'a, 'r, Result<R, E>> + Send + 'a,
E: From<diesel::result::Error> + Send + 'a,
R: Send + 'a,
{
Self::TransactionManager::transaction(self, callback).await
}
/// Creates a transaction that will never be committed. This is useful for
/// tests. Panics if called while inside of a transaction or
/// if called with a connection containing a broken transaction
async fn begin_test_transaction(&mut self) -> QueryResult<()> {
use diesel::connection::TransactionManagerStatus;
match Self::TransactionManager::transaction_manager_status_mut(self) {
TransactionManagerStatus::Valid(valid_status) => {
assert_eq!(None, valid_status.transaction_depth())
}
TransactionManagerStatus::InError => panic!("Transaction manager in error"),
};
Self::TransactionManager::begin_transaction(self).await?;
// set the test transaction flag
// to prevent that this connection gets dropped in connection pools
// Tests commonly set the poolsize to 1 and use `begin_test_transaction`
// to prevent modifications to the schema
Self::TransactionManager::transaction_manager_status_mut(self).set_test_transaction_flag();
Ok(())
}
/// Executes the given function inside a transaction, but does not commit
/// it. Panics if the given function returns an error.
///
/// # Example
///
/// ```rust
/// # include!("doctest_setup.rs");
/// use diesel::result::Error;
/// use scoped_futures::ScopedFutureExt;
/// use diesel_async::{RunQueryDsl, AsyncConnection};
///
/// # #[tokio::main(flavor = "current_thread")]
/// # async fn main() {
/// # run_test().await.unwrap();
/// # }
/// #
/// # async fn run_test() -> QueryResult<()> {
/// # use schema::users::dsl::*;
/// # let conn = &mut establish_connection().await;
/// conn.test_transaction::<_, Error, _>(|conn| async move {
/// diesel::insert_into(users)
/// .values(name.eq("Ruby"))
/// .execute(conn)
/// .await?;
///
/// let all_names = users.select(name).load::<String>(conn).await?;
/// assert_eq!(vec!["Sean", "Tess", "Ruby"], all_names);
///
/// Ok(())
/// }.scope_boxed()).await;
///
/// // Even though we returned `Ok`, the transaction wasn't committed.
/// let all_names = users.select(name).load::<String>(conn).await?;
/// assert_eq!(vec!["Sean", "Tess"], all_names);
/// # Ok(())
/// # }
/// ```
async fn test_transaction<'a, R, E, F>(&'a mut self, f: F) -> R
where
F: for<'r> FnOnce(&'r mut Self) -> ScopedBoxFuture<'a, 'r, Result<R, E>> + Send + 'a,
E: Debug + Send + 'a,
R: Send + 'a,
Self: 'a,
{
use futures_util::TryFutureExt;
let mut user_result = None;
let _ = self
.transaction::<R, _, _>(|c| {
f(c).map_err(|_| Error::RollbackTransaction)
.and_then(|r| {
user_result = Some(r);
futures_util::future::ready(Err(Error::RollbackTransaction))
})
.scope_boxed()
})
.await;
user_result.expect("Transaction did not succeed")
}
#[doc(hidden)]
fn load<'conn, 'query, T>(&'conn mut self, source: T) -> Self::LoadFuture<'conn, 'query>
where
T: AsQuery + 'query,
T::Query: QueryFragment<Self::Backend> + QueryId + 'query;
#[doc(hidden)]
fn execute_returning_count<'conn, 'query, T>(
&'conn mut self,
source: T,
) -> Self::ExecuteFuture<'conn, 'query>
where
T: QueryFragment<Self::Backend> + QueryId + 'query;
#[doc(hidden)]
fn transaction_state(
&mut self,
) -> &mut <Self::TransactionManager as TransactionManager<Self>>::TransactionStateData;
}