[][src]Crate deadpool

Deadpool Latest Version Build Status

Deadpool is a dead simple async pool for connections and objects of any type.

This crate provides two implementations:

  • Managed pool (deadpool::managed::Pool)

    • Creates and recycles objects as needed
    • Useful for database connection pools
    • Enabled via the managed feature in your Cargo.toml
  • Unmanaged pool (deadpool::unmanaged::Pool)

    • All objects either need to to be created by the user and added to the pool manually. It is also possible to create a pool from an existing collection of objects.
    • Enabled via the unmanaged feature in your Cargo.toml


FeatureDescriptionExtra dependenciesDefault
managedEnable managed pool implementationasync-traityes
unmanagedEnable unmanaged pool implementation-yes
configEnable support for config crateconfig, serde/deriveyes

Managed pool (aka. connection pool)

This is the obvious choice for connection pools of any kind. Deadpool already comes with a couple of database connection pools which work out of the box.


use async_trait::async_trait;

enum Error { Fail }

struct Computer {}
struct Manager {}
type Pool = deadpool::managed::Pool<Computer, Error>;

impl Computer {
    async fn get_answer(&self) -> i32 {

impl deadpool::managed::Manager<Computer, Error> for Manager {
    async fn create(&self) -> Result<Computer, Error> {
        Ok(Computer {})
    async fn recycle(&self, conn: &mut Computer) -> deadpool::managed::RecycleResult<Error> {

async fn main() {
    let mgr = Manager {};
    let pool = Pool::new(mgr, 16);
    let mut conn = pool.get().await.unwrap();
    let answer = conn.get_answer().await;
    assert_eq!(answer, 42);

Database connection pools

Deadpool supports various database backends by implementing the deadpool::managed::Manager trait. The following backends are currently supported:

BackendCrateLatest Version
tokio-postgresdeadpool-postgresLatest Version
lapin (AMQP)deadpool-lapinLatest Version
redisdeadpool-redisLatest Version
async-memcacheddeadpool-memcachedLatest Version

Reasons for yet another connection pool

Deadpool is by no means the only pool implementation available. It does things a little different and that is the main reason for it to exist:

  • Deadpool is compatible with any executor. Objects are returned to the pool using the Drop trait. The health of those objects is checked upon next retrieval and not when they are returned. Deadpool never performs any actions in the background. This is the reason why deadpool does not need to spawn futures and does not rely on a background thread or task of any type.

  • Identical startup and runtime behaviour. When writing long running application there usually should be no difference between startup and runtime if a database connection is temporarily not available. Nobody would expect an application to crash if the database becomes unavailable at runtime. So it should not crash on startup either. Creating the pool never fails and errors are only ever returned when calling Pool::get().

    If you really want your application to crash on startup if objects can not be created on startup simply call pool.get().await.expect("DB connection failed") right after creating the pool.

  • Deadpool is fast. The code which returns connections to the pool contains no blocking code and retrival uses only one locking primitive.

  • Deadpool is simple. Dead simple. There is very little API surface. The actual code is barely 100 lines of code and lives in the two functions Pool::get and Object::drop.

Differences to other connection pool implementations

  • r2d2 provides a lot more configuration options but only provides a synchroneous interface.

  • bb8 provides an async/.await based interface and provides the same configuration options as r2d2. It depends on the tokio executor though and the code is more complex.

  • mobc provides an async/.await based interface and provides a lot more configuration options. It requires an executor though and the code is a lot more complex.

Unmanaged pool

An unmanaged pool is useful when you can't write a manager for the objects you want to pool or simply don't want to. This pool implementation is slightly faster than the managed pool because it does not use a Manager trait to create and recycle objects but leaves it up to the user.

Unmanaged pool example

use deadpool::unmanaged::Pool;

struct Computer {}

impl Computer {
    async fn get_answer(&self) -> i32 {

async fn main() {
    let pool = Pool::from(vec![
        Computer {},
        Computer {},
    let s = pool.get().await;
    assert_eq!(s.get_answer().await, 42);


Licensed under either of

at your option.



This module contains the managed version of the pool. Managed meaning that it requires a Manager trait which is responsible for creating and recycling objects as they are needed.


This module contains the unmanaged version of the pool. Unmanaged meaning that no manager is used to create and recycle objects. Objects either need to be created upfront or by adding them using the add or try_add methods.



The current pool status.