Expand description

An asynchronous, pipelined, PostgreSQL client.

Example

use tokio_postgres::{NoTls, Error};

#[tokio::main] // By default, tokio_postgres uses the tokio crate as its runtime.
async fn main() -> Result<(), Error> {
    // Connect to the database.
    let (client, connection) =
        tokio_postgres::connect("host=localhost user=postgres", NoTls).await?;

    // The connection object performs the actual communication with the database,
    // so spawn it off to run on its own.
    tokio::spawn(async move {
        if let Err(e) = connection.await {
            eprintln!("connection error: {}", e);
        }
    });

    // Now we can execute a simple statement that just returns its parameter.
    let rows = client
        .query("SELECT $1::TEXT", &[&"hello world"])
        .await?;

    // And then check that we got back the same string we sent over.
    let value: &str = rows[0].get(0);
    assert_eq!(value, "hello world");

    Ok(())
}

Behavior

Calling a method like Client::query on its own does nothing. The associated request is not sent to the database until the future returned by the method is first polled. Requests are executed in the order that they are first polled, not in the order that their futures are created.

Pipelining

The client supports pipelined requests. Pipelining can improve performance in use cases in which multiple, independent queries need to be executed. In a traditional workflow, each query is sent to the server after the previous query completes. In contrast, pipelining allows the client to send all of the queries to the server up front, minimizing time spent by one side waiting for the other to finish sending data:

            Sequential                              Pipelined
| Client         | Server          |    | Client         | Server          |
|----------------|-----------------|    |----------------|-----------------|
| send query 1   |                 |    | send query 1   |                 |
|                | process query 1 |    | send query 2   | process query 1 |
| receive rows 1 |                 |    | send query 3   | process query 2 |
| send query 2   |                 |    | receive rows 1 | process query 3 |
|                | process query 2 |    | receive rows 2 |                 |
| receive rows 2 |                 |    | receive rows 3 |                 |
| send query 3   |                 |
|                | process query 3 |
| receive rows 3 |                 |

In both cases, the PostgreSQL server is executing the queries sequentially - pipelining just allows both sides of the connection to work concurrently when possible.

Pipelining happens automatically when futures are polled concurrently (for example, by using the futures join combinator):

use futures::future;
use std::future::Future;
use tokio_postgres::{Client, Error, Statement};

async fn pipelined_prepare(
    client: &Client,
) -> Result<(Statement, Statement), Error>
{
    future::try_join(
        client.prepare("SELECT * FROM foo"),
        client.prepare("INSERT INTO bar (id, name) VALUES ($1, $2)")
    ).await
}

Runtime

The client works with arbitrary AsyncRead + AsyncWrite streams. Convenience APIs are provided to handle the connection process, but these are gated by the runtime Cargo feature, which is enabled by default. If disabled, all dependence on the tokio runtime is removed.

SSL/TLS support

TLS support is implemented via external libraries. Client::connect and Config::connect take a TLS implementation as an argument. The NoTls type in this crate can be used when TLS is not required. Otherwise, the postgres-openssl and postgres-native-tls crates provide implementations backed by the openssl and native-tls crates, respectively.

Features

The following features can be enabled from Cargo.toml:

FeatureDescriptionExtra dependenciesDefault
runtimeEnable convenience API for the connection process based on the tokio crate.tokio 1.0 with the features net and timeyes
with-bit-vec-0_6Enable support for the bit-vec crate.bit-vec 0.6no
with-chrono-0_4Enable support for the chrono crate.chrono 0.4no
with-eui48-0_4Enable support for the 0.4 version of the eui48 crate.eui48 0.4no
with-eui48-1Enable support for the 1.0 version of the eui48 crate.eui48 1.0no
with-geo-types-0_6Enable support for the 0.6 version of the geo-types crate.geo-types 0.6no
with-geo-types-0_7Enable support for the 0.7 version of the geo-types crate.geo-types 0.7no
with-serde_json-1Enable support for the serde_json crate.serde_json 1.0no
with-uuid-0_8Enable support for the uuid crate.uuid 0.8no
with-uuid-1Enable support for the uuid crate.uuid 1.0no
with-time-0_2Enable support for the 0.2 version of the time crate.time 0.2no
with-time-0_3Enable support for the 0.3 version of the time crate.time 0.3no

Re-exports

pub use crate::config::Config;
pub use crate::error::Error;
pub use crate::row::Row;
pub use crate::row::SimpleQueryRow;
pub use crate::tls::NoTls;

Modules

Utilities for working with the PostgreSQL binary copy format.

Connection configuration.

Errors.

Rows.

TLS support.

Types.

Structs

The capability to request cancellation of in-progress queries on a connection.

An asynchronous PostgreSQL client.

Information about a column of a query.

A connection to a PostgreSQL database.

A sink for COPY ... FROM STDIN query data.

A stream of COPY ... TO STDOUT query data.

An asynchronous notification.

A portal.

A stream of table rows.

A stream of simple query results.

The standard stream type used by the crate.

A prepared statement.

A representation of a PostgreSQL database transaction.

A builder for database transactions.

Enums

An asynchronous message from the server.

The isolation level of a database transaction.

Message returned by the SimpleQuery stream.

Traits

A trait allowing abstraction over connections and transactions.

A trait abstracting over prepared and unprepared statements.

Functions

A convenience function which parses a connection string and connects to the database.