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#![cfg_attr(doc_cfg, feature(doc_cfg))]
//! Want to have your API documented with OpenAPI? But you don't want to see the
//! trouble with manual yaml or json tweaking? Would like it to be so easy that it would almost
//! be like utopic? Don't worry utoipa is just there to fill this gap. It aims to do if not all then
//! the most of heavy lifting for you enabling you to focus 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.
//!
//! Utoipa crate provides autogenerated 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 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 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 it's key aspects is simple integration with web frameworks.
//!
//! Currently utoipa provides simple integration with actix-web framework but is not limited to the actix-web
//! framework. All functionalities are not restricted to any specific framework.
//!
//! # Choose your flavor and document your API with ice cold IPA
//!
//! Existing [examples](https://github.com/juhaku/utoipa/tree/master/examples) for following frameworks:
//!
//! * **actix-web**
//! * **axum**
//! * **warp**
//! * **tide**
//! * **rocket**
//!
//! Even if there is no example for your favorite framework `utoipa` can be used with any
//! web framework which supports decorating functions with macros similarly to **warp** and **tide** examples.
//!
//! # What's up with the word play?
//!
//! The name comes from words `utopic` and `api` where `uto` is the first three letters of _utopic_
//! and the `ipa` is _api_ reversed. Aaand... `ipa` is also awesome type of beer.
//!
//! # Crate Features
//!
//! * **yaml** Enables **serde_yaml** serialization of OpenAPI objects.
//! * **actix_extras** Enhances [actix-web](https://github.com/actix/actix-web/) integration with being able to
//! parse `path`, `path` and `query` parameters from actix web path attribute macros. See [actix extras support][actix_path] or
//! [examples](https://github.com/juhaku/utoipa/tree/master/examples) for more details.
//! * **rocket_extras** Enhances [rocket](https://github.com/SergioBenitez/Rocket) framework integration with being
//! able to parse `path`, `path` and `query` parameters from rocket path attribute macros. See [rocket extras support][rocket_path]
//! or [examples](https://github.com/juhaku/utoipa/tree/master/examples) for more details
//! * **axum_extras** Enhances [axum](https://github.com/tokio-rs/axum) framework integration allowing users to use `IntoParams`
//! without defining the `parameter_in` attribute. See [axum extras support][axum_path]
//! or [examples](https://github.com/juhaku/utoipa/tree/master/examples) for more details.
//! * **debug** Add extra traits such as debug traits to openapi definitions and elsewhere.
//! * **chrono** Add support for [chrono](https://crates.io/crates/chrono) `DateTime`, `Date`, `NaiveDate` and `Duration`
//! types. By default these types are parsed to `string` types with additional `format` information.
//! `format: date-time` for `DateTime` and `format: date` for `Date` and `NaiveDate` according
//! [RFC3339](https://xml2rfc.ietf.org/public/rfc/html/rfc3339.html#anchor14) as `ISO-8601`. To
//! override default `string` representation users have to use `value_type` attribute to override the type.
//! See [docs](https://docs.rs/utoipa/latest/utoipa/derive.ToSchema.html) for more details.
//! * **time** Add support for [time](https://crates.io/crates/time) `OffsetDateTime`, `PrimitiveDateTime`, `Date`, and `Duration` types.
//! By default these types are parsed as `string`. `OffsetDateTime` and `PrimitiveDateTime` will use `date-time` format. `Date` will use
//! `date` format and `Duration` will not have any format. To override default `string` representation users have to use `value_type` attribute
//! to override the type. See [docs](https://docs.rs/utoipa/latest/utoipa/derive.ToSchema.html) for more details.
//! * **decimal** Add support for [rust_decimal](https://crates.io/crates/rust_decimal) `Decimal` type. **By default**
//! it is interpreted as `String`. If you wish to change the format you need to override the type.
//! See the `value_type` in [`ToSchema` derive docs][to_schema_derive].
//! * **uuid** Add support for [uuid](https://github.com/uuid-rs/uuid). `Uuid` type will be presented as `String` with
//! format `uuid` in OpenAPI spec.
//! * **smallvec** Add support for [smallvec](https://crates.io/crates/smallvec). `SmallVec` will be treated as `Vec`.
//! * **openapi_extensions** Adds convenience functions for documenting common scenarios, such as JSON request bodies and responses.
//! See the [`request_body`](https://docs.rs/utoipa/latest/utoipa/openapi/request_body/index.html) and
//! [`response`](https://docs.rs/utoipa/latest/utoipa/openapi/response/index.html) docs for examples.
//! * **repr** Add support for [repr_serde](https://github.com/dtolnay/serde-repr)'s `repr(u*)` and `repr(i*)` attributes to unit type enums for
//! C-like enum representation. See [docs](https://docs.rs/utoipa/latest/utoipa/derive.ToSchema.html) 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.
//!
//! Utoipa implicitly has partial support for `serde` attributes. See [`ToSchema` derive][serde] for more details.
//!
//! # Install
//!
//! Add minimal dependency declaration to Cargo.toml.
//! ```toml
//! [dependencies]
//! utoipa = "3"
//! ```
//!
//! To enable more features such as use actix framework extras you could define the
//! dependency as follows.
//! ```toml
//! [dependencies]
//! utoipa = { version = "3", features = ["actix_extras"] }
//! ```
//!
//! **Note!** To use `utoipa` together with Swagger UI you can use the [`utoipa-swagger-ui`][utoipa_swagger] crate.
//!
//! [utoipa_swagger]: <https://docs.rs/utoipa-swagger-ui/>
//!
//! # Examples
//!
//! Create a struct or it could be an enum also. Add `ToSchema` derive macro to it so it can be registered
//! as a component in openapi schema.
//! ```rust
//! use utoipa::ToSchema;
//! #[derive(ToSchema)]
//! struct Pet {
//! id: u64,
//! name: String,
//! age: Option<i32>,
//! }
//! ```
//!
//! Create an handler that would handle your business logic and add `path` proc attribute macro over it.
//! ```rust
//! mod pet_api {
//! # use utoipa::OpenApi;
//! # use utoipa::ToSchema;
//! #
//! # #[derive(ToSchema)]
//! # struct Pet {
//! # id: u64,
//! # name: String,
//! # age: Option<i32>,
//! # }
//! /// 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](https://crates.io/crates/http) `StatusCode` in responses.
//!
//! Tie the component and the above api to the openapi schema with following `OpenApi` derive proc macro.
//! ```rust
//! # mod pet_api {
//! # use utoipa::ToSchema;
//! #
//! # #[derive(ToSchema)]
//! # struct Pet {
//! # id: u64,
//! # name: String,
//! # age: Option<i32>,
//! # }
//! #
//! # /// 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 = 404, 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(),
//! # }
//! # }
//! # }
//! # use utoipa::ToSchema;
//! #
//! # #[derive(ToSchema)]
//! # struct Pet {
//! # id: u64,
//! # name: String,
//! # age: Option<i32>,
//! # }
//! # 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());
//! ```
//!
//! # Modify OpenAPI at runtime
//!
//! You can modify generated OpenAPI at runtime either via generated types directly or using
//! [`Modify`] trait.
//!
//! _**Modify generated OpenAPI via types directly.**_
//! ```rust
//! # use utoipa::OpenApi;
//! #[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 [`openapi::OpenApiBuilder`].**_
//! ```rust
//! # use utoipa::openapi::OpenApiBuilder;
//! # use utoipa::OpenApi;
//! #[derive(OpenApi)]
//! #[openapi(
//! info(description = "My Api description"),
//! )]
//! struct ApiDoc;
//!
//! let builder: OpenApiBuilder = ApiDoc::openapi().into();
//! ```
//!
//! See [`Modify`] trait for examples on how to modify generated OpenAPI via it.
//!
//! # Go beyond the surface
//!
//! * See how to serve OpenAPI doc via Swagger UI check [`utoipa-swagger-ui`][utoipa_swagger] crate for more details.
//! * Browse to [examples](https://github.com/juhaku/utoipa/tree/master/examples) for more comprehensive examples.
//! * Check [`derive@IntoResponses`] and [`derive@ToResponse`] for examples on deriving responses.
//! * More about OpenAPI security in [security documentation][security].
//!
//! [path]: attr.path.html
//! [rocket_path]: attr.path.html#rocket_extras-support-for-rocket
//! [actix_path]: attr.path.html#actix_extras-support-for-actix-web
//! [axum_path]: attr.path.html#axum_extras-support-for-axum
//! [serde]: derive.ToSchema.html#partial-serde-attributes-support
//!
//! [security]: openapi/security/index.html
//! [to_schema_derive]: derive.ToSchema.html
pub mod openapi;
use std::collections::{BTreeMap, HashMap};
pub use utoipa_gen::*;
/// Trait for implementing OpenAPI specification in Rust.
///
/// This trait is derivable and can be used with `#[derive]` attribute. The derived implementation
/// will use Cargo provided environment variables to implement the default information. For a details of
/// `#[derive(ToSchema)]` refer to [derive documentation][derive].
///
/// # Examples
///
/// Below is derived example of `OpenApi`.
/// ```rust
/// use utoipa::OpenApi;
/// #[derive(OpenApi)]
/// #[openapi()]
/// struct OpenApiDoc;
/// ```
///
/// This manual `OpenApi` trait implementation is approximately equal to the above derived one except the derive
/// implementation will by default use the Cargo environment variables to set defaults for *application name,
/// version, application description, license, author name & email*.
///
///```rust
/// struct OpenApiDoc;
///
/// impl utoipa::OpenApi for OpenApiDoc {
/// fn openapi() -> utoipa::openapi::OpenApi {
/// use utoipa::{ToSchema, Path};
/// utoipa::openapi::OpenApiBuilder::new()
/// .info(utoipa::openapi::InfoBuilder::new()
/// .title("application name")
/// .version("version")
/// .description(Some("application description"))
/// .license(Some(utoipa::openapi::License::new("MIT")))
/// .contact(
/// Some(utoipa::openapi::ContactBuilder::new()
/// .name(Some("author name"))
/// .email(Some("author email")).build()),
/// ).build())
/// .paths(utoipa::openapi::path::Paths::new())
/// .components(Some(utoipa::openapi::Components::new()))
/// .build()
/// }
/// }
/// ```
/// [derive]: derive.OpenApi.html
pub trait OpenApi {
fn openapi() -> openapi::OpenApi;
}
/// Trait for implementing OpenAPI Schema object.
///
/// Generated schemas can be referenced or reused in path operations.
///
/// This trait is derivable and can be used with `[#derive]` attribute. For a details of
/// `#[derive(ToSchema)]` refer to [derive documentation][derive].
///
/// [derive]: derive.ToSchema.html
///
/// # Examples
///
/// Use `#[derive]` to implement `ToSchema` trait.
/// ```rust
/// # use utoipa::ToSchema;
/// #[derive(ToSchema)]
/// #[schema(example = json!({"name": "bob the cat", "id": 1}))]
/// struct Pet {
/// id: u64,
/// name: String,
/// age: Option<i32>,
/// }
/// ```
///
/// Following manual implementation is equal to above derive one.
/// ```rust
/// # struct Pet {
/// # id: u64,
/// # name: String,
/// # age: Option<i32>,
/// # }
/// #
/// impl<'__s> utoipa::ToSchema<'__s> for Pet {
/// fn schema() -> (&'__s str, utoipa::openapi::RefOr<utoipa::openapi::schema::Schema>) {
/// (
/// "Pet",
/// utoipa::openapi::ObjectBuilder::new()
/// .property(
/// "id",
/// utoipa::openapi::ObjectBuilder::new()
/// .schema_type(utoipa::openapi::SchemaType::Integer)
/// .format(Some(utoipa::openapi::SchemaFormat::KnownFormat(
/// utoipa::openapi::KnownFormat::Int64,
/// ))),
/// )
/// .required("id")
/// .property(
/// "name",
/// utoipa::openapi::ObjectBuilder::new()
/// .schema_type(utoipa::openapi::SchemaType::String),
/// )
/// .required("name")
/// .property(
/// "age",
/// utoipa::openapi::ObjectBuilder::new()
/// .schema_type(utoipa::openapi::SchemaType::Integer)
/// .format(Some(utoipa::openapi::SchemaFormat::KnownFormat(
/// utoipa::openapi::KnownFormat::Int32,
/// ))),
/// )
/// .example(Some(serde_json::json!({
/// "name":"bob the cat","id":1
/// })))
/// .into(),
/// ) }
/// }
/// ```
pub trait ToSchema<'__s> {
/// Return a tuple of name and schema or reference to a schema that can be referenced by the
/// name or inlined directly to responses, request bodies or parameters.
fn schema() -> (&'__s str, openapi::RefOr<openapi::schema::Schema>);
/// Optional set of alias schemas for the [`ToSchema::schema`].
///
/// Typically there is no need to manually implement this method but it is instead implemented
/// by derive [`macro@ToSchema`] when `#[aliases(...)]` attribute is defined.
fn aliases() -> Vec<(&'__s str, openapi::schema::Schema)> {
Vec::new()
}
}
impl<'__s, T: ToSchema<'__s>> From<T> for openapi::RefOr<openapi::schema::Schema> {
fn from(_: T) -> Self {
T::schema().1
}
}
/// Represents _`nullable`_ type. This can be used anywhere where "nothing" needs to be evaluated.
/// This will serialize to _`null`_ in JSON and [`openapi::schema::empty`] is used to create the
/// [`openapi::schema::Schema`] for the type.
pub type TupleUnit = ();
impl<'__s> ToSchema<'__s> for TupleUnit {
fn schema() -> (&'__s str, openapi::RefOr<openapi::schema::Schema>) {
("TupleUnit", openapi::schema::empty().into())
}
}
macro_rules! impl_partial_schema {
( $ty:path ) => {
impl_partial_schema!( @impl_schema $ty );
};
( & $ty:path ) => {
impl_partial_schema!( @impl_schema &$ty );
};
( @impl_schema $( $tt:tt )* ) => {
impl PartialSchema for $($tt)* {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!( $($tt)* ).into()
}
}
};
}
macro_rules! impl_partial_schema_primitive {
( $( $tt:path ),* ) => {
$( impl_partial_schema!( $tt ); )*
};
}
// Create `utoipa` module so we can use `utoipa-gen` directly from `utoipa` crate.
// ONLY for internal use!
#[doc(hidden)]
mod utoipa {
pub use super::*;
}
/// Trait used to implement only _`Schema`_ part of the OpenAPI doc.
///
/// This trait is by default implemented for Rust [`primitive`][primitive] types and some well known types like
/// [`Vec`], [`Option`], [`HashMap`] and [`BTreeMap`]. The default implementation adds `schema()`
/// method to the implementing type allowing simple conversion of the type to the OpenAPI Schema
/// object. Moreover this allows handy way of constructing schema objects manually if ever so
/// wished.
///
/// The trait can be implemented manually easily on any type. This trait comes especially handy
/// with [`macro@schema`] macro that can be used to generate schema for arbitrary types.
/// ```rust
/// # use utoipa::PartialSchema;
/// # use utoipa::openapi::schema::{SchemaType, KnownFormat, SchemaFormat, ObjectBuilder, Schema};
/// # use utoipa::openapi::RefOr;
/// #
/// struct MyType;
///
/// impl PartialSchema for MyType {
/// fn schema() -> RefOr<Schema> {
/// // ... impl schema generation here
/// RefOr::T(Schema::Object(ObjectBuilder::new().build()))
/// }
/// }
/// ```
///
/// # Examples
///
/// _**Create number schema from u64.**_
/// ```rust
/// # use utoipa::PartialSchema;
/// # use utoipa::openapi::schema::{SchemaType, KnownFormat, SchemaFormat, ObjectBuilder, Schema};
/// # use utoipa::openapi::RefOr;
/// #
/// let number: RefOr<Schema> = u64::schema().into();
///
/// // would be equal to manual implementation
/// let number2 = RefOr::T(
/// Schema::Object(
/// ObjectBuilder::new()
/// .schema_type(SchemaType::Integer)
/// .format(Some(SchemaFormat::KnownFormat(KnownFormat::Int64)))
/// .minimum(Some(0.0))
/// .build()
/// )
/// );
/// # assert_json_diff::assert_json_eq!(serde_json::to_value(&number).unwrap(), serde_json::to_value(&number2).unwrap());
/// ```
///
/// _**Construct a Pet object schema manually.**_
/// ```rust
/// # use utoipa::PartialSchema;
/// # use utoipa::openapi::schema::ObjectBuilder;
/// struct Pet {
/// id: i32,
/// name: String,
/// }
///
/// let pet_schema = ObjectBuilder::new()
/// .property("id", i32::schema())
/// .property("name", String::schema())
/// .required("id").required("name")
/// .build();
/// ```
///
/// [primitive]: https://doc.rust-lang.org/std/primitive/index.html
pub trait PartialSchema {
/// Return ref or schema of implementing type that can then be used to
/// construct combined schemas.
fn schema() -> openapi::RefOr<openapi::schema::Schema>;
}
#[rustfmt::skip]
impl_partial_schema_primitive!(
i8, i16, i32, i64, i128, isize, u8, u16, u32, u64, u128, usize, bool, f32, f64, String, str, char,
Option<i8>, Option<i16>, Option<i32>, Option<i64>, Option<i128>, Option<isize>, Option<u8>, Option<u16>,
Option<u32>, Option<u64>, Option<u128>, Option<usize>, Option<bool>, Option<f32>, Option<f64>,
Option<String>, Option<&str>, Option<char>
);
impl_partial_schema!(&str);
impl<'__s, T: ToSchema<'__s>> PartialSchema for Vec<T> {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!(#[inline] Vec<T>).into()
}
}
impl<'__s, T: ToSchema<'__s>> PartialSchema for Option<Vec<T>> {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!(#[inline] Option<Vec<T>>).into()
}
}
impl<'__s, T: ToSchema<'__s>> PartialSchema for [T] {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!(
#[inline]
[T]
)
.into()
}
}
impl<'__s, T: ToSchema<'__s>> PartialSchema for &[T] {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!(
#[inline]
&[T]
)
.into()
}
}
impl<'__s, T: ToSchema<'__s>> PartialSchema for &mut [T] {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!(
#[inline]
&mut [T]
)
.into()
}
}
impl<'__s, T: ToSchema<'__s>> PartialSchema for Option<&[T]> {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!(
#[inline]
Option<&[T]>
)
.into()
}
}
impl<'__s, T: ToSchema<'__s>> PartialSchema for Option<&mut [T]> {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!(
#[inline]
Option<&mut [T]>
)
.into()
}
}
impl<'__s, T: ToSchema<'__s>> PartialSchema for Option<T> {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!(#[inline] Option<T>).into()
}
}
impl<'__s, K: PartialSchema, V: ToSchema<'__s>> PartialSchema for BTreeMap<K, V> {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!(
#[inline]
BTreeMap<K, V>
)
.into()
}
}
impl<'__s, K: PartialSchema, V: ToSchema<'__s>> PartialSchema for Option<BTreeMap<K, V>> {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!(
#[inline]
Option<BTreeMap<K, V>>
)
.into()
}
}
impl<'__s, K: PartialSchema, V: ToSchema<'__s>> PartialSchema for HashMap<K, V> {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!(
#[inline]
HashMap<K, V>
)
.into()
}
}
impl<'__s, K: PartialSchema, V: ToSchema<'__s>> PartialSchema for Option<HashMap<K, V>> {
fn schema() -> openapi::RefOr<openapi::schema::Schema> {
schema!(
#[inline]
Option<HashMap<K, V>>
)
.into()
}
}
/// Trait for implementing OpenAPI PathItem object with path.
///
/// This trait is implemented via [`#[utoipa::path(...)]`][derive] attribute macro and there
/// is no need to implement this trait manually.
///
/// # Examples
///
/// Use `#[utoipa::path(..)]` to implement Path trait
/// ```rust
/// # struct Pet {
/// # id: u64,
/// # name: String,
/// # }
/// #
/// #
/// /// Get pet by id
/// ///
/// /// Get pet from database by pet database id
/// #[utoipa::path(
/// get,
/// path = "/pets/{id}",
/// responses(
/// (status = 200, description = "Pet found successfully", body = Pet),
/// (status = 404, 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,
/// name: "lightning".to_string(),
/// }
/// }
/// ```
///
/// Example of what would manual implementation roughly look like of above `#[utoipa::path(...)]` macro.
/// ```rust
/// utoipa::openapi::PathsBuilder::new().path(
/// "/pets/{id}",
/// utoipa::openapi::PathItem::new(
/// utoipa::openapi::PathItemType::Get,
/// utoipa::openapi::path::OperationBuilder::new()
/// .responses(
/// utoipa::openapi::ResponsesBuilder::new()
/// .response(
/// "200",
/// utoipa::openapi::ResponseBuilder::new()
/// .description("Pet found successfully")
/// .content("application/json",
/// utoipa::openapi::Content::new(
/// utoipa::openapi::Ref::from_schema_name("Pet"),
/// ),
/// ),
/// )
/// .response("404", utoipa::openapi::Response::new("Pet was not found")),
/// )
/// .operation_id(Some("get_pet_by_id"))
/// .deprecated(Some(utoipa::openapi::Deprecated::False))
/// .summary(Some("Get pet by id"))
/// .description(Some("Get pet by id\n\nGet pet from database by pet database id\n"))
/// .parameter(
/// utoipa::openapi::path::ParameterBuilder::new()
/// .name("id")
/// .parameter_in(utoipa::openapi::path::ParameterIn::Path)
/// .required(utoipa::openapi::Required::True)
/// .deprecated(Some(utoipa::openapi::Deprecated::False))
/// .description(Some("Pet database id to get Pet for"))
/// .schema(
/// Some(utoipa::openapi::ObjectBuilder::new()
/// .schema_type(utoipa::openapi::SchemaType::Integer)
/// .format(Some(utoipa::openapi::SchemaFormat::KnownFormat(utoipa::openapi::KnownFormat::Int64)))),
/// ),
/// )
/// .tag("pet_api"),
/// ),
/// );
/// ```
///
/// [derive]: attr.path.html
pub trait Path {
fn path() -> &'static str;
fn path_item(default_tag: Option<&str>) -> openapi::path::PathItem;
}
/// Trait that allows OpenApi modification at runtime.
///
/// Implement this trait if you wish to modify the OpenApi at runtime before it is being consumed
/// *(Before `utoipa::OpenApi::openapi()` function returns)*.
/// This is trait can be used to add or change already generated OpenApi spec to alter the generated
/// specification by user defined condition. For example you can add definitions that should be loaded
/// from some configuration at runtime what may not be available during compile time.
///
/// See more about [`OpenApi`][derive] derive at [derive documentation][derive].
///
/// [derive]: derive.OpenApi.html
/// [security_schema]: openapi/security/enum.SecuritySchema.html
///
/// # Examples
///
/// Add custom JWT [`SecuritySchema`][security_schema] to [`OpenApi`][`openapi::OpenApi`].
/// ```rust
/// # use utoipa::{OpenApi, Modify};
/// # use utoipa::openapi::security::{SecurityScheme, HttpBuilder, HttpAuthScheme};
/// #[derive(OpenApi)]
/// #[openapi(modifiers(&SecurityAddon))]
/// struct ApiDoc;
///
/// struct SecurityAddon;
///
/// impl Modify for SecurityAddon {
/// fn modify(&self, openapi: &mut utoipa::openapi::OpenApi) {
/// openapi.components = Some(
/// utoipa::openapi::ComponentsBuilder::new()
/// .security_scheme(
/// "api_jwt_token",
/// SecurityScheme::Http(
/// HttpBuilder::new()
/// .scheme(HttpAuthScheme::Bearer)
/// .bearer_format("JWT")
/// .build(),
/// ),
/// )
/// .build(),
/// )
/// }
/// }
/// ```
///
/// Add [OpenAPI Server Object][server] to alter the target server url. This can be used to give context
/// path for api operations.
/// ```rust
/// # use utoipa::{OpenApi, Modify};
/// # use utoipa::openapi::Server;
/// #[derive(OpenApi)]
/// #[openapi(modifiers(&ServerAddon))]
/// struct ApiDoc;
///
/// struct ServerAddon;
///
/// impl Modify for ServerAddon {
/// fn modify(&self, openapi: &mut utoipa::openapi::OpenApi) {
/// openapi.servers = Some(vec![Server::new("/api")])
/// }
/// }
/// ```
///
/// [server]: https://spec.openapis.org/oas/latest.html#server-object
pub trait Modify {
fn modify(&self, openapi: &mut openapi::OpenApi);
}
/// Trait used to convert implementing type to OpenAPI parameters.
///
/// This trait is [derivable][derive] for structs which are used to describe `path` or `query` parameters.
/// For more details of `#[derive(IntoParams)]` refer to [derive documentation][derive].
///
/// # Examples
///
/// Derive [`IntoParams`] implementation. This example will fail to compile because [`IntoParams`] cannot
/// be used alone and it need to be used together with endpoint using the params as well. See
/// [derive documentation][derive] for more details.
/// ```
/// use utoipa::{IntoParams};
///
/// #[derive(IntoParams)]
/// struct PetParams {
/// /// Id of pet
/// id: i64,
/// /// Name of pet
/// name: String,
/// }
/// ```
///
/// Roughly equal manual implementation of [`IntoParams`] trait.
/// ```rust
/// # struct PetParams {
/// # /// Id of pet
/// # id: i64,
/// # /// Name of pet
/// # name: String,
/// # }
/// impl utoipa::IntoParams for PetParams {
/// fn into_params(
/// parameter_in_provider: impl Fn() -> Option<utoipa::openapi::path::ParameterIn>
/// ) -> Vec<utoipa::openapi::path::Parameter> {
/// vec![
/// utoipa::openapi::path::ParameterBuilder::new()
/// .name("id")
/// .required(utoipa::openapi::Required::True)
/// .parameter_in(parameter_in_provider().unwrap_or_default())
/// .description(Some("Id of pet"))
/// .schema(Some(
/// utoipa::openapi::ObjectBuilder::new()
/// .schema_type(utoipa::openapi::SchemaType::Integer)
/// .format(Some(utoipa::openapi::SchemaFormat::KnownFormat(utoipa::openapi::KnownFormat::Int64))),
/// ))
/// .build(),
/// utoipa::openapi::path::ParameterBuilder::new()
/// .name("name")
/// .required(utoipa::openapi::Required::True)
/// .parameter_in(parameter_in_provider().unwrap_or_default())
/// .description(Some("Name of pet"))
/// .schema(Some(
/// utoipa::openapi::ObjectBuilder::new()
/// .schema_type(utoipa::openapi::SchemaType::String),
/// ))
/// .build(),
/// ]
/// }
/// }
/// ```
/// [derive]: derive.IntoParams.html
pub trait IntoParams {
/// Provide [`Vec`] of [`openapi::path::Parameter`]s to caller. The result is used in `utoipa-gen` library to
/// provide OpenAPI parameter information for the endpoint using the parameters.
fn into_params(
parameter_in_provider: impl Fn() -> Option<openapi::path::ParameterIn>,
) -> Vec<openapi::path::Parameter>;
}
/// This trait is implemented to document a type (like an enum) which can represent multiple
/// responses, to be used in operation.
///
/// # Examples
///
/// ```
/// use std::collections::BTreeMap;
/// use utoipa::{
/// openapi::{Response, ResponseBuilder, ResponsesBuilder, RefOr},
/// IntoResponses,
/// };
///
/// enum MyResponse {
/// Ok,
/// NotFound,
/// }
///
/// impl IntoResponses for MyResponse {
/// fn responses() -> BTreeMap<String, RefOr<Response>> {
/// ResponsesBuilder::new()
/// .response("200", ResponseBuilder::new().description("Ok"))
/// .response("404", ResponseBuilder::new().description("Not Found"))
/// .build()
/// .into()
/// }
/// }
/// ```
pub trait IntoResponses {
/// Returns an ordered map of response codes to responses.
fn responses() -> BTreeMap<String, openapi::RefOr<openapi::response::Response>>;
}
/// This trait is implemented to document a type which represents a single response which can be
/// referenced or reused as a component in multiple operations.
///
/// _`ToResponse`_ trait can also be derived with [`#[derive(ToResponse)]`][derive].
///
/// # Examples
///
/// ```
/// use utoipa::{
/// openapi::{RefOr, Response, ResponseBuilder},
/// ToResponse,
/// };
///
/// struct MyResponse;
///
/// impl<'__r> ToResponse<'__r> for MyResponse {
/// fn response() -> (&'__r str, RefOr<Response>) {
/// (
/// "MyResponse",
/// ResponseBuilder::new().description("My Response").build().into(),
/// )
/// }
/// }
/// ```
///
/// [derive]: derive.ToResponse.html
pub trait ToResponse<'__r> {
/// Returns a tuple of response component name (to be referenced) to a response.
fn response() -> (&'__r str, openapi::RefOr<openapi::response::Response>);
}
#[cfg(test)]
mod tests {
use assert_json_diff::assert_json_eq;
use serde_json::json;
use super::*;
#[test]
fn test_partial_schema() {
for (name, schema, value) in [
(
"i8",
i8::schema(),
json!({"type": "integer", "format": "int32"}),
),
(
"i16",
i16::schema(),
json!({"type": "integer", "format": "int32"}),
),
(
"i32",
i32::schema(),
json!({"type": "integer", "format": "int32"}),
),
(
"i64",
i64::schema(),
json!({"type": "integer", "format": "int64"}),
),
("i128", i128::schema(), json!({"type": "integer"})),
("isize", isize::schema(), json!({"type": "integer"})),
(
"u8",
u8::schema(),
json!({"type": "integer", "format": "int32", "minimum": 0.0}),
),
(
"u16",
u16::schema(),
json!({"type": "integer", "format": "int32", "minimum": 0.0}),
),
(
"u32",
u32::schema(),
json!({"type": "integer", "format": "int32", "minimum": 0.0}),
),
(
"u64",
u64::schema(),
json!({"type": "integer", "format": "int64", "minimum": 0.0}),
),
(
"u128",
u128::schema(),
json!({"type": "integer", "minimum": 0.0}),
),
(
"usize",
usize::schema(),
json!({"type": "integer", "minimum": 0.0 }),
),
("bool", bool::schema(), json!({"type": "boolean"})),
("str", str::schema(), json!({"type": "string"})),
("String", String::schema(), json!({"type": "string"})),
("char", char::schema(), json!({"type": "string"})),
(
"f32",
f32::schema(),
json!({"type": "number", "format": "float"}),
),
(
"f64",
f64::schema(),
json!({"type": "number", "format": "double"}),
),
] {
println!(
"{name}: {json}",
json = serde_json::to_string(&schema).unwrap()
);
let schema = serde_json::to_value(schema).unwrap();
assert_json_eq!(schema, value);
}
}
}