An experimental ORM for Rust with a focus on simplicity and on writing Rust, not SQL
Butane takes an object-oriented approach to database operations. It may be thought of as much as an object-persistence system as an ORM -- the fact that it is backed by a SQL database is mostly an implementation detail to the API consumer.
- Relational queries using Rust-like syntax (via
proc-macros) - Automatic migrations without writing SQL (although the generated SQL may be hand-tuned if necessary)
- Ability to embed migrations in Rust code (so that a library may easily bundle its migrations)
- SQLite and PostgreSQL backends
- Write entirely or nearly entirely the same code regardless of database backend
Models, declared with struct attributes define the database schema. For example the Post model for a blog might look like this:
#[model]
#[derive(Default)]
struct Post {
id: AutoPk<i32>,
title: String,
body: String,
published: bool,
likes: i32,
tags: Many<Tag>,
blog: ForeignKey<Blog>,
byline: Option<String>,
}An object is an instance of a model. An object is created like a normal struct instance, but must be saved in order to be persisted.
let mut post = Post::new(blog, title, body);
post.save(conn)?;Changes to the instance are only applied to the database when saved:
post.published = true;
post.save(conn)?;Queries are performed ergonomically with the query! macro.
let posts = query!(Post, published == true).limit(5).load(&conn)?;For a detailed tutorial, see the Getting Started Guide.
Butane exposes several features to Cargo. By default, no backends are
enabled: you will want to enable sqlite and/or pg:
default: Turns ondatetime,jsonanduuid.debug: Used in developing Butane, not expected to be enabled by consumers.datetime: Support for timestamps (usingchronocrate).fake: Support for thefakecrate's generation of fake data.json: Support for storing structs as JSON, including using postgres'JSONBfield type.log: Log certain warnings to thelogcrate facade (target "butane").pg: Support for PostgreSQL usingpostgrescrate.r2d2: Connection pooling usingr2d2support (Seebutane::db::ConnectionManager).sqlite: Support for SQLite usingrusqlitecrate.sqlite-bundled: Bundles sqlite instead of using the system version.tls: Support for TLS when using PostgreSQL, usingpostgres-native-tlscrate.uuid: Support for UUIDs (using theuuidcrate).
- Butane, and its migration system especially, expects to own the database. It can be used with an existing database accessed also by other consumers, but it is not a design goal and there is no facility to infer butane models from an existing database schema.
- API ergonomics are prioritized above performance. This does not mean Butane is slow, but that when given a choice between a simple, straightforward API and eking out the smallest possible overhead, the API will win.
This is a major release which adds Async support. Effort has been made to keep the sync experience as unchanged as possible. Async versions of many types have been added, but the sync ones generally retain their previous names.
In order to allow sync and async code to look as similar as possible for types and traits which do not otherwise need separate sync and async variants, several "Ops" traits have been introduced which contain methods split off from prior types and traits.
For example, if obj is an instance of
DataObject,
then you may call obj.save(conn) (sync) or obj.save(conn).await
(async). The save method no longer lives on DataObject. Instead,
you must use either butane::DataObjectOpsSync or
butane::DataObjectOpsAsync. Which trait is in scope will determine
whether the save method is sync or async.
The Ops traits are:
DataObjectOpsSync/DataObjectOpsAsync(for use withDataObject)QueryOpsSync/QueryOpsSync(for use withQuery, less commonly needed directly if you use thequeryorfiltermacros)ForeignKeyOpsSync/ForeignKeyOpsAsync(for use withForeignKey)ManyOpsSync/ManyOpsAsync(for use withMany)
Replace model fields like
#[auto]
pub id: i64with
pub id: AutoPk<i64>Remove any references to ObjectState or to the (previously automatically generated) state field on models.
Butane is young. The following features are currently missing, but planned
- Foreign key constraint cascade setting
- Incremental object save
- Back-references for
ForeignKeyandMany. - Field/column rename support in migrations
- Prepared/reusable queries
- Benchmarking and performance tuning
- Support for other databases such as MySQL or SQL Server are not explicitly planned, but contributions are welcome.
Butane is inspired by Diesel and by Django's ORM. If you're looking for a mature, performant, and flexible ORM, go use Diesel. Butane doesn't aim to be better than Diesel, but makes some different decisions, including:
-
It is more object-oriented, at the cost of flexibility.
-
Automatic migrations are prioritized.
-
Rust code is the source of truth. The schema is understood from the definition of Models in Rust code, rather than inferred from the database.
-
Queries are constructed using a DSL inside a
proc-macroinvocation rather than by importing DSL methods/names to use into the current scope. For Diesel, you might writeuse diesel_demo::schema::posts::dsl::*; let posts = posts.filter(published.eq(true)) .limit(5) .load::<Post>(&conn)?
whereas for Butane, you would instead write
let posts = query!(Post, published == true).limit(5).load(&conn)?;
Which form is preferable is primarily an aesthetic judgement.
-
Differences between database backends are largely hidden.
-
Diesel is overall significantly more mature and full-featured.
For a detailed tutorial, see the getting started guide.
Butane is licensed under either of the MIT license or the Apache License, Version 2.0 at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in Butane by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.