Pronounced /ju:ˈtoʊ:i.pɑ/ or /ju:ˈtoʊˌaɪ.piˈeɪ/ whatever works better for you.
Want to have your API documented with OpenAPI? But don't want to be bothered
with manual YAML or JSON tweaking? Would like it to be so easy that it would almost
be utopic? Don't worry: utoipa is here to fill this gap. It aims to do, if not all, then
most of the heavy lifting for you, enabling you to focus on writing the actual API logic instead of
documentation. It aims to be minimal, simple and fast. It uses simple proc
macros which
you can use to annotate your code to have items documented.
The utoipa
crate provides auto-generated OpenAPI documentation for Rust REST APIs. It treats
code-first approach as a first class citizen and simplifies API documentation by providing
simple macros for generating the documentation from your code.
It also contains Rust types of the OpenAPI spec, allowing you to write the OpenAPI spec only using Rust if auto generation is not your flavor or does not fit your purpose.
Long term goal of the library is to be the place to go when OpenAPI documentation is needed in any Rust codebase.
Utoipa is framework-agnostic, and could be used together with any web framework, or even without one. While being portable and standalone, one of its key aspects is simple integration with web frameworks.
Refer to the existing examples for building the "todo" app in the following frameworks:
All examples include a Swagger-UI unless stated otherwise.
There are also examples of building multiple OpenAPI docs in one application, each separated in Swagger UI. These examples exist only for the actix and warp frameworks.
Even if there is no example for your favourite framework, utoipa
can be used with any
web framework which supports decorating functions with macros similarly to the warp and tide examples.
The name comes from the words utopic
and api
where uto
are the first three letters of utopic
and the ipa
is api reversed. Aaand... ipa
is also an awesome type of beer 🍺.
yaml
: Enables serde_yaml serialization of OpenAPI objects.actix_extras
: Enhances actix-web integration with being able to parsepath
,path
andquery
parameters from actix web path attribute macros. See docs or examples for more details.rocket_extras
: Enhances rocket framework integration with being able to parsepath
,path
andquery
parameters from rocket path attribute macros. See docs or examples for more details.axum_extras
: Enhances axum framework integration allowing users to useIntoParams
without defining theparameter_in
attribute. See docs or examples for more details.debug
: Add extra traits such as debug traits to openapi definitions and elsewhere.chrono
: Add support for chronoDateTime
,Date
,NaiveDate
,NaiveDateTime
,NaiveTime
andDuration
types. By default these types are parsed tostring
types with additionalformat
information.format: date-time
forDateTime
andNaiveDateTime
andformat: date
forDate
andNaiveDate
according RFC3339 asISO-8601
. To override defaultstring
representation users have to usevalue_type
attribute to override the type. See docs for more details.time
: Add support for timeOffsetDateTime
,PrimitiveDateTime
,Date
, andDuration
types. By default these types are parsed asstring
.OffsetDateTime
andPrimitiveDateTime
will usedate-time
format.Date
will usedate
format andDuration
will not have any format. To override defaultstring
representation users have to usevalue_type
attribute to override the type. See docs for more details.decimal
: Add support for rust_decimalDecimal
type. By default it is interpreted asString
. If you wish to change the format you need to override the type. See thevalue_type
in component derive docs.decimal_float
: Add support for rust_decimalDecimal
type. By default it is interpreted asNumber
. This feature is mutually exclusive with decimal and allow to change the default type used in your documentation forDecimal
much likeserde_with_float
feature exposed by rust_decimal.uuid
: Add support for uuid.Uuid
type will be presented asString
with formatuuid
in OpenAPI spec.ulid
: Add support for ulid.Ulid
type will be presented asString
with formatulid
in OpenAPI spec.url
: Add support for url.Url
type will be presented asString
with formaturi
in OpenAPI spec.smallvec
: Add support for smallvec.SmallVec
will be treated asVec
.openapi_extensions
: Adds traits and functions that provide extra convenience functions. See therequest_body
docs for an example.repr
: Add support for repr_serde'srepr(u*)
andrepr(i*)
attributes to unit type enums for C-like enum representation. See docs for more details.preserve_order
: Preserve order of properties when serializing the schema for a component. When enabled, the properties are listed in order of fields in the corresponding struct definition. When disabled, the properties are listed in alphabetical order.preserve_path_order
: Preserve order of OpenAPI Paths according to order they have been introduced to the#[openapi(paths(...))]
macro attribute. If disabled the paths will be ordered in alphabetical order.indexmap
: Add support for indexmap. When enabledIndexMap
will be rendered as a map similar toBTreeMap
andHashMap
.non_strict_integers
: Add support for non-standard integer formatsint8
,int16
,uint8
,uint16
,uint32
, anduint64
.rc_schema
: AddToSchema
support forArc<T>
andRc<T>
types. Note! serderc
feature flag must be enabled separately to allow serialization and deserialization ofArc<T>
andRc<T>
types. See more about serde feature flags.
Utoipa implicitly has partial support for serde
attributes. See docs for more details.
Add minimal dependency declaration to Cargo.toml
.
[dependencies]
utoipa = "4"
To enable more features such as use actix framework extras you could define the dependency as follows.
[dependencies]
utoipa = { version = "4", features = ["actix_extras"] }
Note! To use utoipa
together with Swagger UI you can use the utoipa-swagger-ui crate.
Create a struct, or it could also be an enum. Add ToSchema
derive macro to it, so it can be registered
as an OpenAPI schema.
use utoipa::ToSchema;
#[derive(ToSchema)]
struct Pet {
id: u64,
name: String,
age: Option<i32>,
}
Create a handler that would handle your business logic and add path
proc attribute macro over it.
mod pet_api {
/// Get pet by id
///
/// Get pet from database by pet id
#[utoipa::path(
get,
path = "/pets/{id}",
responses(
(status = 200, description = "Pet found successfully", body = Pet),
(status = NOT_FOUND, description = "Pet was not found")
),
params(
("id" = u64, Path, description = "Pet database id to get Pet for"),
)
)]
async fn get_pet_by_id(pet_id: u64) -> Pet {
Pet {
id: pet_id,
age: None,
name: "lightning".to_string(),
}
}
}
Utoipa has support for http StatusCode
in responses.
This attribute macro will create another struct named with __path_
prefix + handler function name.
So when you implement some_handler
function in different file and want to export this, make sure __path_some_handler
in the module can also be accessible from the root.
Tie the Schema
and the endpoint above to the OpenAPI schema with following OpenApi
derive proc macro.
use utoipa::OpenApi;
#[derive(OpenApi)]
#[openapi(paths(pet_api::get_pet_by_id), components(schemas(Pet)))]
struct ApiDoc;
println!("{}", ApiDoc::openapi().to_pretty_json().unwrap());
This would produce an API doc something similar to:
{
"openapi": "3.0.3",
"info": {
"title": "application name from Cargo.toml",
"description": "description from Cargo.toml",
"contact": {
"name": "author name from Cargo.toml",
"email": "author email from Cargo.toml"
},
"license": {
"name": "license from Cargo.toml"
},
"version": "version from Cargo.toml"
},
"paths": {
"/pets/{id}": {
"get": {
"tags": ["pet_api"],
"summary": "Get pet by id",
"description": "Get pet by id\n\nGet pet from database by pet id\n",
"operationId": "get_pet_by_id",
"parameters": [
{
"name": "id",
"in": "path",
"description": "Pet database id to get Pet for",
"required": true,
"deprecated": false,
"schema": {
"type": "integer",
"format": "int64",
"minimum": 0.0,
}
}
],
"responses": {
"200": {
"description": "Pet found successfully",
"content": {
"application/json": {
"schema": {
"$ref": "#/components/schemas/Pet"
}
}
}
},
"404": {
"description": "Pet was not found"
}
},
"deprecated": false
}
}
},
"components": {
"schemas": {
"Pet": {
"type": "object",
"required": ["id", "name"],
"properties": {
"id": {
"type": "integer",
"format": "int64",
"minimum": 0.0,
},
"name": {
"type": "string"
},
"age": {
"type": "integer",
"format": "int32",
"nullable": true,
}
}
}
}
}
}
You can modify generated OpenAPI at runtime either via generated types directly or using Modify trait.
Modify generated OpenAPI via types directly.
#[derive(OpenApi)]
#[openapi(
info(description = "My Api description"),
)]
struct ApiDoc;
let mut doc = ApiDoc::openapi();
doc.info.title = String::from("My Api");
You can even convert the generated OpenApi to OpenApiBuilder.
let builder: OpenApiBuilder = ApiDoc::openapi().into();
See Modify trait for examples on how to modify generated OpenAPI via it.
- See how to serve OpenAPI doc via Swagger UI check utoipa-swagger-ui crate for more details.
- Browse to examples for more comprehensive examples.
- Check IntoResponses and ToResponse for examples on deriving responses.
- More about OpenAPI security in security documentation.
- Dump generated API doc to file at build time. See issue 214 comment.
This is highly probably due to RustEmbed
not embedding the Swagger UI to the executable. This is natural since the RustEmbed
library does not by default embed files on debug builds. To get around this you can do one of the following.
- Build your executable in
--release
mode - or add
debug-embed
feature flag to yourCargo.toml
forutoipa-swagger-ui
. This will enable thedebug-emebed
feature flag forRustEmbed
as well. Read more about this here and here.
Find utoipa-swagger-ui
feature flags here.
There are few ways around this that are elaborated here in detail.
At the moment that is not possible due to there is no way to evaluate the actual type behind the type token that is visible to the proc macro code generation. This might be possible in future if a global alias registry can be implemented. Here is an issue related to the topic #766.
Licensed under either of Apache 2.0 or MIT license at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in this crate by you, shall be dual licensed, without any additional terms or conditions.