Struct axum::extract::State

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pub struct State<S>(pub S);
Expand description

Extractor for state.

See “Accessing state in middleware” for how to access state in middleware.

§With Router

use axum::{Router, routing::get, extract::State};

// the application state
//
// here you can put configuration, database connection pools, or whatever
// state you need
//
// see "When states need to implement `Clone`" for more details on why we need
// `#[derive(Clone)]` here.
#[derive(Clone)]
struct AppState {}

let state = AppState {};

// create a `Router` that holds our state
let app = Router::new()
    .route("/", get(handler))
    // provide the state so the router can access it
    .with_state(state);

async fn handler(
    // access the state via the `State` extractor
    // extracting a state of the wrong type results in a compile error
    State(state): State<AppState>,
) {
    // use `state`...
}

Note that State is an extractor, so be sure to put it before any body extractors, see “the order of extractors”.

§Combining stateful routers

Multiple Routers can be combined with Router::nest or Router::merge When combining Routers with one of these methods, the Routers must have the same state type. Generally, this can be inferred automatically:

use axum::{Router, routing::get, extract::State};

#[derive(Clone)]
struct AppState {}

let state = AppState {};

// create a `Router` that will be nested within another
let api = Router::new()
    .route("/posts", get(posts_handler));

let app = Router::new()
    .nest("/api", api)
    .with_state(state);

async fn posts_handler(State(state): State<AppState>) {
    // use `state`...
}

However, if you are composing Routers that are defined in separate scopes, you may need to annotate the State type explicitly:

use axum::{Router, routing::get, extract::State};

#[derive(Clone)]
struct AppState {}

fn make_app() -> Router {
    let state = AppState {};

    Router::new()
        .nest("/api", make_api())
        .with_state(state) // the outer Router's state is inferred
}

// the inner Router must specify its state type to compose with the
// outer router
fn make_api() -> Router<AppState> {
    Router::new()
        .route("/posts", get(posts_handler))
}

async fn posts_handler(State(state): State<AppState>) {
    // use `state`...
}

In short, a Router’s generic state type defaults to () (no state) unless Router::with_state is called or the value of the generic type is given explicitly.

§With MethodRouter

use axum::{routing::get, extract::State};

#[derive(Clone)]
struct AppState {}

let state = AppState {};

let method_router_with_state = get(handler)
    // provide the state so the handler can access it
    .with_state(state);

async fn handler(State(state): State<AppState>) {
    // use `state`...
}

§With Handler

use axum::{routing::get, handler::Handler, extract::State};

#[derive(Clone)]
struct AppState {}

let state = AppState {};

async fn handler(State(state): State<AppState>) {
    // use `state`...
}

// provide the state so the handler can access it
let handler_with_state = handler.with_state(state);

axum::Server::bind(&"0.0.0.0:3000".parse().unwrap())
    .serve(handler_with_state.into_make_service())
    .await
    .expect("server failed");

§Substates

State only allows a single state type but you can use FromRef to extract “substates”:

use axum::{Router, routing::get, extract::{State, FromRef}};

// the application state
#[derive(Clone)]
struct AppState {
    // that holds some api specific state
    api_state: ApiState,
}

// the api specific state
#[derive(Clone)]
struct ApiState {}

// support converting an `AppState` in an `ApiState`
impl FromRef<AppState> for ApiState {
    fn from_ref(app_state: &AppState) -> ApiState {
        app_state.api_state.clone()
    }
}

let state = AppState {
    api_state: ApiState {},
};

let app = Router::new()
    .route("/", get(handler))
    .route("/api/users", get(api_users))
    .with_state(state);

async fn api_users(
    // access the api specific state
    State(api_state): State<ApiState>,
) {
}

async fn handler(
    // we can still access to top level state
    State(state): State<AppState>,
) {
}

For convenience FromRef can also be derived using #[derive(FromRef)].

§For library authors

If you’re writing a library that has an extractor that needs state, this is the recommended way to do it:

use axum_core::extract::{FromRequestParts, FromRef};
use http::request::Parts;
use async_trait::async_trait;
use std::convert::Infallible;

// the extractor your library provides
struct MyLibraryExtractor;

#[async_trait]
impl<S> FromRequestParts<S> for MyLibraryExtractor
where
    // keep `S` generic but require that it can produce a `MyLibraryState`
    // this means users will have to implement `FromRef<UserState> for MyLibraryState`
    MyLibraryState: FromRef<S>,
    S: Send + Sync,
{
    type Rejection = Infallible;

    async fn from_request_parts(parts: &mut Parts, state: &S) -> Result<Self, Self::Rejection> {
        // get a `MyLibraryState` from a reference to the state
        let state = MyLibraryState::from_ref(state);

        // ...
    }
}

// the state your library needs
struct MyLibraryState {
    // ...
}

§When states need to implement Clone

Your top level state type must implement Clone to be extractable with State:

use axum::extract::State;

// no substates, so to extract to `State<AppState>` we must implement `Clone` for `AppState`
#[derive(Clone)]
struct AppState {}

async fn handler(State(state): State<AppState>) {
    // ...
}

This works because of impl<S> FromRef<S> for S where S: Clone.

This is also true if you’re extracting substates, unless you never extract the top level state itself:

use axum::extract::{State, FromRef};

// we never extract `State<AppState>`, just `State<InnerState>`. So `AppState` doesn't need to
// implement `Clone`
struct AppState {
    inner: InnerState,
}

#[derive(Clone)]
struct InnerState {}

impl FromRef<AppState> for InnerState {
    fn from_ref(app_state: &AppState) -> InnerState {
        app_state.inner.clone()
    }
}

async fn api_users(State(inner): State<InnerState>) {
    // ...
}

In general however we recommend you implement Clone for all your state types to avoid potential type errors.

§Shared mutable state

As state is global within a Router you can’t directly get a mutable reference to the state.

The most basic solution is to use an Arc<Mutex<_>>. Which kind of mutex you need depends on your use case. See the tokio docs for more details.

Note that holding a locked std::sync::Mutex across .await points will result in !Send futures which are incompatible with axum. If you need to hold a mutex across .await points, consider using a tokio::sync::Mutex instead.

§Example

use axum::{Router, routing::get, extract::State};
use std::sync::{Arc, Mutex};

#[derive(Clone)]
struct AppState {
    data: Arc<Mutex<String>>,
}

async fn handler(State(state): State<AppState>) {
    let mut data = state.data.lock().expect("mutex was poisoned");
    *data = "updated foo".to_owned();

    // ...
}

let state = AppState {
    data: Arc::new(Mutex::new("foo".to_owned())),
};

let app = Router::new()
    .route("/", get(handler))
    .with_state(state);

Tuple Fields§

§0: S

Trait Implementations§

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impl<S: Clone> Clone for State<S>

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fn clone(&self) -> State<S>

Returns a copy of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl<S: Debug> Debug for State<S>

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more
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impl<S: Default> Default for State<S>

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fn default() -> State<S>

Returns the “default value” for a type. Read more
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impl<S> Deref for State<S>

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type Target = S

The resulting type after dereferencing.
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fn deref(&self) -> &Self::Target

Dereferences the value.
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impl<S> DerefMut for State<S>

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fn deref_mut(&mut self) -> &mut Self::Target

Mutably dereferences the value.
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impl<OuterState, InnerState> FromRequestParts<OuterState> for State<InnerState>
where InnerState: FromRef<OuterState>, OuterState: Send + Sync,

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type Rejection = Infallible

If the extractor fails it’ll use this “rejection” type. A rejection is a kind of error that can be converted into a response.
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fn from_request_parts<'life0, 'life1, 'async_trait>( _parts: &'life0 mut Parts, state: &'life1 OuterState, ) -> Pin<Box<dyn Future<Output = Result<Self, Self::Rejection>> + Send + 'async_trait>>
where Self: 'async_trait, 'life0: 'async_trait, 'life1: 'async_trait,

Perform the extraction.
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impl<S: Copy> Copy for State<S>

Auto Trait Implementations§

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impl<S> Freeze for State<S>
where S: Freeze,

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impl<S> RefUnwindSafe for State<S>
where S: RefUnwindSafe,

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impl<S> Send for State<S>
where S: Send,

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impl<S> Sync for State<S>
where S: Sync,

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impl<S> Unpin for State<S>
where S: Unpin,

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impl<S> UnwindSafe for State<S>
where S: UnwindSafe,

Blanket Implementations§

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impl<T> Any for T
where T: 'static + ?Sized,

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fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
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impl<T> Borrow<T> for T
where T: ?Sized,

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fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
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impl<T> BorrowMut<T> for T
where T: ?Sized,

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fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more
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impl<T> CloneToUninit for T
where T: Clone,

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unsafe fn clone_to_uninit(&self, dst: *mut T)

🔬This is a nightly-only experimental API. (clone_to_uninit)
Performs copy-assignment from self to dst. Read more
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impl<T> From<T> for T

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fn from(t: T) -> T

Returns the argument unchanged.

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impl<T> FromRef<T> for T
where T: Clone,

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fn from_ref(input: &T) -> T

Converts to this type from a reference to the input type.
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impl<S, B, T> FromRequest<S, B, ViaParts> for T
where B: Send + 'static, S: Send + Sync, T: FromRequestParts<S>,

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type Rejection = <T as FromRequestParts<S>>::Rejection

If the extractor fails it’ll use this “rejection” type. A rejection is a kind of error that can be converted into a response.
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fn from_request<'life0, 'async_trait>( req: Request<B>, state: &'life0 S, ) -> Pin<Box<dyn Future<Output = Result<T, <T as FromRequest<S, B, ViaParts>>::Rejection>> + Send + 'async_trait>>
where 'life0: 'async_trait, T: 'async_trait,

Perform the extraction.
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impl<T> Instrument for T

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fn instrument(self, span: Span) -> Instrumented<Self>

Instruments this type with the provided Span, returning an Instrumented wrapper. Read more
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fn in_current_span(self) -> Instrumented<Self>

Instruments this type with the current Span, returning an Instrumented wrapper. Read more
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impl<T, U> Into<U> for T
where U: From<T>,

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fn into(self) -> U

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

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impl<T> ToOwned for T
where T: Clone,

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type Owned = T

The resulting type after obtaining ownership.
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fn to_owned(&self) -> T

Creates owned data from borrowed data, usually by cloning. Read more
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fn clone_into(&self, target: &mut T)

Uses borrowed data to replace owned data, usually by cloning. Read more
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impl<T, U> TryFrom<U> for T
where U: Into<T>,

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type Error = Infallible

The type returned in the event of a conversion error.
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fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
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impl<T, U> TryInto<U> for T
where U: TryFrom<T>,

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type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.
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fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.
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impl<V, T> VZip<V> for T
where V: MultiLane<T>,

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fn vzip(self) -> V

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impl<T> WithSubscriber for T

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fn with_subscriber<S>(self, subscriber: S) -> WithDispatch<Self>
where S: Into<Dispatch>,

Attaches the provided Subscriber to this type, returning a WithDispatch wrapper. Read more
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fn with_current_subscriber(self) -> WithDispatch<Self>

Attaches the current default Subscriber to this type, returning a WithDispatch wrapper. Read more