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457 lines
17 KiB
Markdown
457 lines
17 KiB
Markdown
<h1 align="center">SQLx</h1>
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<div align="center">
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<strong>
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🧰 The Rust SQL Toolkit
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</strong>
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</div>
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<br />
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<div align="center">
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<!-- Github Actions -->
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<a href="https://github.com/launchbadge/sqlx/actions/workflows/sqlx.yml?query=branch%3Amain">
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<img src="https://img.shields.io/github/actions/workflow/status/launchbadge/sqlx/sqlx.yml?branch=main&style=flat-square" alt="actions status" /></a>
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<!-- Version -->
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<a href="https://crates.io/crates/sqlx">
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<img src="https://img.shields.io/crates/v/sqlx.svg?style=flat-square"
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alt="Crates.io version" /></a>
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<!-- Discord -->
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<a href="https://discord.gg/uuruzJ7">
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<img src="https://img.shields.io/discord/665528275556106240?style=flat-square" alt="chat" /></a>
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<!-- Docs -->
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<a href="https://docs.rs/sqlx">
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<img src="https://img.shields.io/badge/docs-latest-blue.svg?style=flat-square" alt="docs.rs docs" /></a>
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<!-- Downloads -->
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<a href="https://crates.io/crates/sqlx">
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<img src="https://img.shields.io/crates/d/sqlx.svg?style=flat-square" alt="Download" />
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</a>
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</div>
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<div align="center">
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<h4>
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<a href="#install">
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Install
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</a>
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<span> | </span>
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<a href="#usage">
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Usage
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</a>
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<span> | </span>
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<a href="https://docs.rs/sqlx">
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Docs
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</a>
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</h4>
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</div>
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<br />
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<div align="center">
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<small>Built with ❤️ by <a href="https://launchbadge.com">The LaunchBadge team</a></small>
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</div>
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<br />
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<div align="center">
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<h5>Have a question? Be sure to <a href="FAQ.md">check the FAQ first!</a></h5>
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</div>
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<br />
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SQLx is an async, pure Rust<sub>†</sub> SQL crate featuring compile-time checked queries without a DSL.
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- **Truly Asynchronous**. Built from the ground-up using async/await for maximum concurrency.
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- **Compile-time checked queries** (if you want). See [SQLx is not an ORM](#sqlx-is-not-an-orm).
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- **Database Agnostic**. Support for [PostgreSQL], [MySQL], [MariaDB], [SQLite].
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- [MSSQL] was supported prior to version 0.7, but has been removed pending a full rewrite of the driver as part of our [SQLx Pro initiative].
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- **Pure Rust**. The Postgres and MySQL/MariaDB drivers are written in pure Rust using **zero** unsafe<sub>††</sub> code.
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- **Runtime Agnostic**. Works on different runtimes ([`async-std`] / [`tokio`] / [`actix`]) and TLS backends ([`native-tls`], [`rustls`]).
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<small><small>
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† The SQLite driver uses the libsqlite3 C library as SQLite is an embedded database (the only way
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we could be pure Rust for SQLite is by porting _all_ of SQLite to Rust).
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†† SQLx uses `#![forbid(unsafe_code)]` unless the `sqlite` feature is enabled.
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The SQLite driver directly invokes the SQLite3 API via `libsqlite3-sys`, which requires `unsafe`.
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</small></small>
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[postgresql]: http://postgresql.org/
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[sqlite]: https://sqlite.org/
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[mysql]: https://www.mysql.com/
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[mariadb]: https://www.mariadb.org/
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[mssql]: https://www.microsoft.com/en-us/sql-server
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[SQLx Pro initiative]: https://github.com/launchbadge/sqlx/discussions/1616
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---
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- Cross-platform. Being native Rust, SQLx will compile anywhere Rust is supported.
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- Built-in connection pooling with `sqlx::Pool`.
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- Row streaming. Data is read asynchronously from the database and decoded on demand.
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- Automatic statement preparation and caching. When using the high-level query API (`sqlx::query`), statements are
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prepared and cached per connection.
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- Simple (unprepared) query execution including fetching results into the same `Row` types used by
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the high-level API. Supports batch execution and returns results from all statements.
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- Transport Layer Security (TLS) where supported ([MySQL], [MariaDB] and [PostgreSQL]).
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- Asynchronous notifications using `LISTEN` and `NOTIFY` for [PostgreSQL].
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- Nested transactions with support for save points.
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- `Any` database driver for changing the database driver at runtime. An `AnyPool` connects to the driver indicated by the URL scheme.
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## Install
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SQLx is compatible with the [`async-std`], [`tokio`], and [`actix`] runtimes; and, the [`native-tls`] and [`rustls`] TLS backends. When adding the dependency, you must choose a runtime feature that is `runtime` + `tls`.
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[`async-std`]: https://github.com/async-rs/async-std
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[`tokio`]: https://github.com/tokio-rs/tokio
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[`actix`]: https://github.com/actix/actix-net
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[`native-tls`]: https://crates.io/crates/native-tls
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[`rustls`]: https://crates.io/crates/rustls
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```toml
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# Cargo.toml
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[dependencies]
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# PICK ONE OF THE FOLLOWING:
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# tokio (no TLS)
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sqlx = { version = "0.7", features = [ "runtime-tokio" ] }
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# tokio + native-tls
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sqlx = { version = "0.7", features = [ "runtime-tokio", "tls-native-tls" ] }
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# tokio + rustls with ring
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sqlx = { version = "0.7", features = [ "runtime-tokio", "tls-rustls-ring" ] }
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# tokio + rustls with aws-lc-rs
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sqlx = { version = "0.7", features = [ "runtime-tokio", "tls-rustls-aws-lc-rs" ] }
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# async-std (no TLS)
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sqlx = { version = "0.7", features = [ "runtime-async-std" ] }
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# async-std + native-tls
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sqlx = { version = "0.7", features = [ "runtime-async-std", "tls-native-tls" ] }
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# async-std + rustls with ring
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sqlx = { version = "0.7", features = [ "runtime-async-std", "tls-rustls-ring" ] }
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# async-std + rustls with aws-lc-rs
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sqlx = { version = "0.7", features = [ "runtime-async-std", "tls-rustls-aws-lc-rs" ] }
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```
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#### Cargo Feature Flags
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For backward-compatibility reasons, the runtime and TLS features can either be chosen together as a single feature,
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or separately.
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For forward compatibility, you should use the separate runtime and TLS features as the combination features may
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be removed in the future.
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- `runtime-async-std`: Use the `async-std` runtime without enabling a TLS backend.
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- `runtime-async-std-native-tls`: Use the `async-std` runtime and `native-tls` TLS backend (SOFT-DEPRECATED).
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- `runtime-async-std-rustls`: Use the `async-std` runtime and `rustls` TLS backend (SOFT-DEPRECATED).
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- `runtime-tokio`: Use the `tokio` runtime without enabling a TLS backend.
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- `runtime-tokio-native-tls`: Use the `tokio` runtime and `native-tls` TLS backend (SOFT-DEPRECATED).
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- `runtime-tokio-rustls`: Use the `tokio` runtime and `rustls` TLS backend (SOFT-DEPRECATED).
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- Actix-web is fully compatible with Tokio and so a separate runtime feature is no longer needed.
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- `tls-native-tls`: Use the `native-tls` TLS backend (OpenSSL on *nix, SChannel on Windows, Secure Transport on macOS).
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- `tls-rustls`: Use the `rustls` TLS backend (cross-platform backend, only supports TLS 1.2 and 1.3).
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- `postgres`: Add support for the Postgres database server.
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- `mysql`: Add support for the MySQL/MariaDB database server.
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- `mssql`: Add support for the MSSQL database server.
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- `sqlite`: Add support for the self-contained [SQLite](https://sqlite.org/) database engine.
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- `any`: Add support for the `Any` database driver, which can proxy to a database driver at runtime.
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- `derive`: Add support for the derive family macros, those are `FromRow`, `Type`, `Encode`, `Decode`.
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- `macros`: Add support for the `query*!` macros, which allows compile-time checked queries.
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- `migrate`: Add support for the migration management and `migrate!` macro, which allow compile-time embedded migrations.
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- `uuid`: Add support for UUID (in Postgres).
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- `chrono`: Add support for date and time types from `chrono`.
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- `time`: Add support for date and time types from `time` crate (alternative to `chrono`, which is preferred by `query!` macro, if both enabled)
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- `bstr`: Add support for `bstr::BString`.
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- `bigdecimal`: Add support for `NUMERIC` using the `bigdecimal` crate.
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- `rust_decimal`: Add support for `NUMERIC` using the `rust_decimal` crate.
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- `ipnetwork`: Add support for `INET` and `CIDR` (in postgres) using the `ipnetwork` crate.
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- `json`: Add support for `JSON` and `JSONB` (in postgres) using the `serde_json` crate.
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- Offline mode is now always enabled. See [sqlx-cli/README.md][readme-offline].
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[readme-offline]: sqlx-cli/README.md#enable-building-in-offline-mode-with-query
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## SQLx is not an ORM!
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SQLx supports **compile-time checked queries**. It does not, however, do this by providing a Rust
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API or DSL (domain-specific language) for building queries. Instead, it provides macros that take
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regular SQL as input and ensure that it is valid for your database. The way this works is that
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SQLx connects to your development DB at compile time to have the database itself verify (and return
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some info on) your SQL queries. This has some potentially surprising implications:
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- Since SQLx never has to parse the SQL string itself, any syntax that the development DB accepts
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can be used (including things added by database extensions)
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- Due to the different amount of information databases let you retrieve about queries, the extent of
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SQL verification you get from the query macros depends on the database
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**If you are looking for an (asynchronous) ORM,** you can check out [`ormx`] or [`SeaORM`], which is built on top
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of SQLx.
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[`ormx`]: https://crates.io/crates/ormx
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[`SeaORM`]: https://github.com/SeaQL/sea-orm
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## Usage
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See the `examples/` folder for more in-depth usage.
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### Quickstart
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```rust
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use sqlx::postgres::PgPoolOptions;
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// use sqlx::mysql::MySqlPoolOptions;
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// etc.
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#[async_std::main] // Requires the `attributes` feature of `async-std`
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// or #[tokio::main]
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// or #[actix_web::main]
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async fn main() -> Result<(), sqlx::Error> {
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// Create a connection pool
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// for MySQL/MariaDB, use MySqlPoolOptions::new()
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// for SQLite, use SqlitePoolOptions::new()
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// etc.
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let pool = PgPoolOptions::new()
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.max_connections(5)
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.connect("postgres://postgres:password@localhost/test").await?;
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// Make a simple query to return the given parameter (use a question mark `?` instead of `$1` for MySQL/MariaDB)
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let row: (i64,) = sqlx::query_as("SELECT $1")
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.bind(150_i64)
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.fetch_one(&pool).await?;
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assert_eq!(row.0, 150);
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Ok(())
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}
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```
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### Connecting
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A single connection can be established using any of the database connection types and calling `connect()`.
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```rust
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use sqlx::Connection;
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let conn = SqliteConnection::connect("sqlite::memory:").await?;
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```
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Generally, you will want to instead create a connection pool (`sqlx::Pool`) for the application to
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regulate how many server-side connections it's using.
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```rust
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let pool = MySqlPool::connect("mysql://user:pass@host/database").await?;
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```
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### Querying
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In SQL, queries can be separated into prepared (parameterized) or unprepared (simple). Prepared queries have their
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query plan _cached_, use a binary mode of communication (lower bandwidth and faster decoding), and utilize parameters
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to avoid SQL injection. Unprepared queries are simple and intended only for use where a prepared statement
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will not work, such as various database commands (e.g., `PRAGMA` or `SET` or `BEGIN`).
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SQLx supports all operations with both types of queries. In SQLx, a `&str` is treated as an unprepared query,
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and a `Query` or `QueryAs` struct is treated as a prepared query.
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```rust
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// low-level, Executor trait
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conn.execute("BEGIN").await?; // unprepared, simple query
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conn.execute(sqlx::query("DELETE FROM table")).await?; // prepared, cached query
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```
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We should prefer to use the high-level `query` interface whenever possible. To make this easier, there are finalizers
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on the type to avoid the need to wrap with an executor.
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```rust
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sqlx::query("DELETE FROM table").execute(&mut conn).await?;
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sqlx::query("DELETE FROM table").execute(&pool).await?;
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```
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The `execute` query finalizer returns the number of affected rows, if any, and drops all received results.
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In addition, there are `fetch`, `fetch_one`, `fetch_optional`, and `fetch_all` to receive results.
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The `Query` type returned from `sqlx::query` will return `Row<'conn>` from the database. Column values can be accessed
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by ordinal or by name with `row.get()`. As the `Row` retains an immutable borrow on the connection, only one
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`Row` may exist at a time.
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The `fetch` query finalizer returns a stream-like type that iterates through the rows in the result sets.
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```rust
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// provides `try_next`
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use futures::TryStreamExt;
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let mut rows = sqlx::query("SELECT * FROM users WHERE email = ?")
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.bind(email)
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.fetch(&mut conn);
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while let Some(row) = rows.try_next().await? {
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// map the row into a user-defined domain type
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let email: &str = row.try_get("email")?;
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}
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```
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To assist with mapping the row into a domain type, one of two idioms may be used:
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```rust
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let mut stream = sqlx::query("SELECT * FROM users")
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.map(|row: PgRow| {
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// map the row into a user-defined domain type
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})
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.fetch(&mut conn);
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```
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```rust
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#[derive(sqlx::FromRow)]
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struct User { name: String, id: i64 }
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let mut stream = sqlx::query_as::<_, User>("SELECT * FROM users WHERE email = ? OR name = ?")
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.bind(user_email)
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.bind(user_name)
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.fetch(&mut conn);
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```
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Instead of a stream of results, we can use `fetch_one` or `fetch_optional` to request one required or optional result
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from the database.
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### Compile-time verification
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We can use the macro, `sqlx::query!` to achieve compile-time syntactic and semantic verification of the SQL, with
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an output to an anonymous record type where each SQL column is a Rust field (using raw identifiers where needed).
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```rust
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let countries = sqlx::query!(
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"
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SELECT country, COUNT(*) as count
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FROM users
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GROUP BY country
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WHERE organization = ?
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",
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organization
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)
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.fetch_all(&pool) // -> Vec<{ country: String, count: i64 }>
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.await?;
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// countries[0].country
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// countries[0].count
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```
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Differences from `query()`:
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- The input (or bind) parameters must be given all at once (and they are compile-time validated to be
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the right number and the right type).
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- The output type is an anonymous record. In the above example the type would be similar to:
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```rust
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{ country: String, count: i64 }
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```
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- The `DATABASE_URL` environment variable must be set at build time to a database which it can prepare
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queries against; the database does not have to contain any data but must be the same
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kind (MySQL, Postgres, etc.) and have the same schema as the database you will be connecting to at runtime.
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For convenience, you can use [a `.env` file][dotenv]<sup>1</sup> to set DATABASE_URL so that you don't have to pass it every time:
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```
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DATABASE_URL=mysql://localhost/my_database
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```
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[dotenv]: https://github.com/dotenv-rs/dotenv#examples
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The biggest downside to `query!()` is that the output type cannot be named (due to Rust not
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officially supporting anonymous records). To address that, there is a `query_as!()` macro that is
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mostly identical except that you can name the output type.
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```rust
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// no traits are needed
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struct Country { country: String, count: i64 }
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let countries = sqlx::query_as!(Country,
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"
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SELECT country, COUNT(*) as count
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FROM users
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GROUP BY country
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WHERE organization = ?
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",
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organization
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)
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.fetch_all(&pool) // -> Vec<Country>
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.await?;
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// countries[0].country
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// countries[0].count
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```
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To avoid the need of having a development database around to compile the project even when no
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modifications (to the database-accessing parts of the code) are done, you can enable "offline mode"
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to cache the results of the SQL query analysis using the `sqlx` command-line tool. See
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[sqlx-cli/README.md](./sqlx-cli/README.md#enable-building-in-offline-mode-with-query).
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Compile-time verified queries do quite a bit of work at compile time. Incremental actions like
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`cargo check` and `cargo build` can be significantly faster when using an optimized build by
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putting the following in your `Cargo.toml` (More information in the
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[Profiles section](https://doc.rust-lang.org/cargo/reference/profiles.html) of The Cargo Book)
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```toml
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[profile.dev.package.sqlx-macros]
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opt-level = 3
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```
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<sup>1</sup> The `dotenv` crate itself appears abandoned as of [December 2021](https://github.com/dotenv-rs/dotenv/issues/74)
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so we now use the `dotenvy` crate instead. The file format is the same.
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## Safety
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This crate uses `#![forbid(unsafe_code)]` to ensure everything is implemented in 100% Safe Rust.
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If the `sqlite` feature is enabled, this is downgraded to `#![deny(unsafe_code)]` with `#![allow(unsafe_code)]` on the
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`sqlx::sqlite` module. There are several places where we interact with the C SQLite API. We try to document each call for the invariants we're assuming. We absolutely welcome auditing of, and feedback on, our unsafe code usage.
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## License
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Licensed under either of
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- Apache License, Version 2.0
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([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0)
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- MIT license
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([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT)
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at your option.
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## Contribution
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Unless you explicitly state otherwise, any Contribution intentionally submitted
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for inclusion in the work by you, as defined in the Apache-2.0 license, shall be
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dual licensed as above, without any additional terms or conditions.
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