Module axum::response

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Types and traits for generating responses.

§Table of contents

§Building responses

Anything that implements IntoResponse can be returned from a handler. axum provides implementations for common types:

use axum::{
    Json,
    response::{Html, IntoResponse},
    http::{StatusCode, Uri, header::{self, HeaderMap, HeaderName}},
};

// `()` gives an empty response
async fn empty() {}

// String will get a `text/plain; charset=utf-8` content-type
async fn plain_text(uri: Uri) -> String {
    format!("Hi from {}", uri.path())
}

// Bytes will get a `application/octet-stream` content-type
async fn bytes() -> Vec<u8> {
    vec![1, 2, 3, 4]
}

// `Json` will get a `application/json` content-type and work with anything that
// implements `serde::Serialize`
async fn json() -> Json<Vec<String>> {
    Json(vec!["foo".to_owned(), "bar".to_owned()])
}

// `Html` will get a `text/html` content-type
async fn html() -> Html<&'static str> {
    Html("<p>Hello, World!</p>")
}

// `StatusCode` gives an empty response with that status code
async fn status() -> StatusCode {
    StatusCode::NOT_FOUND
}

// `HeaderMap` gives an empty response with some headers
async fn headers() -> HeaderMap {
    let mut headers = HeaderMap::new();
    headers.insert(header::SERVER, "axum".parse().unwrap());
    headers
}

// An array of tuples also gives headers
async fn array_headers() -> [(HeaderName, &'static str); 2] {
    [
        (header::SERVER, "axum"),
        (header::CONTENT_TYPE, "text/plain")
    ]
}

// Use `impl IntoResponse` to avoid writing the whole type
async fn impl_trait() -> impl IntoResponse {
    [
        (header::SERVER, "axum"),
        (header::CONTENT_TYPE, "text/plain")
    ]
}

Additionally you can return tuples to build more complex responses from individual parts.

use axum::{
    Json,
    response::IntoResponse,
    http::{StatusCode, HeaderMap, Uri, header},
    extract::Extension,
};

// `(StatusCode, impl IntoResponse)` will override the status code of the response
async fn with_status(uri: Uri) -> (StatusCode, String) {
    (StatusCode::NOT_FOUND, format!("Not Found: {}", uri.path()))
}

// Use `impl IntoResponse` to avoid having to type the whole type
async fn impl_trait(uri: Uri) -> impl IntoResponse {
    (StatusCode::NOT_FOUND, format!("Not Found: {}", uri.path()))
}

// `(HeaderMap, impl IntoResponse)` to add additional headers
async fn with_headers() -> impl IntoResponse {
    let mut headers = HeaderMap::new();
    headers.insert(header::CONTENT_TYPE, "text/plain".parse().unwrap());
    (headers, "foo")
}

// Or an array of tuples to more easily build the headers
async fn with_array_headers() -> impl IntoResponse {
    ([(header::CONTENT_TYPE, "text/plain")], "foo")
}

// Use string keys for custom headers
async fn with_array_headers_custom() -> impl IntoResponse {
    ([("x-custom", "custom")], "foo")
}

// `(StatusCode, headers, impl IntoResponse)` to set status and add headers
// `headers` can be either a `HeaderMap` or an array of tuples
async fn with_status_and_array_headers() -> impl IntoResponse {
    (
        StatusCode::NOT_FOUND,
        [(header::CONTENT_TYPE, "text/plain")],
        "foo",
    )
}

// `(Extension<_>, impl IntoResponse)` to set response extensions
async fn with_status_extensions() -> impl IntoResponse {
    (
        Extension(Foo("foo")),
        "foo",
    )
}

struct Foo(&'static str);

// Or mix and match all the things
async fn all_the_things(uri: Uri) -> impl IntoResponse {
    let mut header_map = HeaderMap::new();
    if uri.path() == "/" {
        header_map.insert(header::SERVER, "axum".parse().unwrap());
    }

    (
        // set status code
        StatusCode::NOT_FOUND,
        // headers with an array
        [("x-custom", "custom")],
        // some extensions
        Extension(Foo("foo")),
        Extension(Foo("bar")),
        // more headers, built dynamically
        header_map,
        // and finally the body
        "foo",
    )
}

In general you can return tuples like:

  • (StatusCode, impl IntoResponse)
  • (Parts, impl IntoResponse)
  • (Response<()>, impl IntoResponse)
  • (T1, .., Tn, impl IntoResponse) where T1 to Tn all implement IntoResponseParts.
  • (StatusCode, T1, .., Tn, impl IntoResponse) where T1 to Tn all implement IntoResponseParts.
  • (Parts, T1, .., Tn, impl IntoResponse) where T1 to Tn all implement IntoResponseParts.
  • (Response<()>, T1, .., Tn, impl IntoResponse) where T1 to Tn all implement IntoResponseParts.

This means you cannot accidentally override the status or body as IntoResponseParts only allows setting headers and extensions.

Use Response for more low level control:

use axum::{
    Json,
    response::{IntoResponse, Response},
    body::{Full, Bytes},
    http::StatusCode,
};

async fn response() -> Response<Full<Bytes>> {
    Response::builder()
        .status(StatusCode::NOT_FOUND)
        .header("x-foo", "custom header")
        .body(Full::from("not found"))
        .unwrap()
}

§Returning different response types

If you need to return multiple response types, and Result<T, E> isn’t appropriate, you can call .into_response() to turn things into axum::response::Response:

use axum::{
    response::{IntoResponse, Redirect, Response},
    http::StatusCode,
};

async fn handle() -> Response {
    if something() {
        "All good!".into_response()
    } else if something_else() {
        (
            StatusCode::INTERNAL_SERVER_ERROR,
            "Something went wrong...",
        ).into_response()
    } else {
        Redirect::to("/").into_response()
    }
}

fn something() -> bool {
    // ...
}

fn something_else() -> bool {
    // ...
}

§Regarding impl IntoResponse

You can use impl IntoResponse as the return type from handlers to avoid typing large types. For example

use axum::http::StatusCode;

async fn handler() -> (StatusCode, [(&'static str, &'static str); 1], &'static str) {
    (StatusCode::OK, [("x-foo", "bar")], "Hello, World!")
}

Becomes easier using impl IntoResponse:

use axum::{http::StatusCode, response::IntoResponse};

async fn impl_into_response() -> impl IntoResponse {
    (StatusCode::OK, [("x-foo", "bar")], "Hello, World!")
}

However impl IntoResponse has a few limitations. Firstly it can only be used to return a single type:

use axum::{http::StatusCode, response::IntoResponse};

async fn handler() -> impl IntoResponse {
    if check_something() {
        StatusCode::NOT_FOUND
    } else {
        "Hello, World!"
    }
}

fn check_something() -> bool {
    // ...
}

This function returns either a StatusCode or a &'static str which impl Trait doesn’t allow.

Secondly impl IntoResponse can lead to type inference issues when used with Result and ?:

use axum::{http::StatusCode, response::IntoResponse};

async fn handler() -> impl IntoResponse {
    create_thing()?;
    Ok(StatusCode::CREATED)
}

fn create_thing() -> Result<(), StatusCode> {
    // ...
}

This is because ? supports using the From trait to convert to a different error type but it doesn’t know which type to convert to, because we only specified impl IntoResponse as the return type.

Result<impl IntoResponse, impl IntoResponse> doesn’t always work either:

use axum::{http::StatusCode, response::IntoResponse};

async fn handler() -> Result<impl IntoResponse, impl IntoResponse> {
    create_thing()?;
    Ok(StatusCode::CREATED)
}

fn create_thing() -> Result<(), StatusCode> {
    // ...
}

The solution is to use a concrete error type, such as Result<impl IntoResponse, StatusCode>:

use axum::{http::StatusCode, response::IntoResponse};

async fn handler() -> Result<impl IntoResponse, StatusCode> {
    create_thing()?;
    Ok(StatusCode::CREATED)
}

fn create_thing() -> Result<(), StatusCode> {
    // ...
}

Because of this it is generally not recommended to use impl IntoResponse unless you’re familiar with the details of how impl Trait works.

Re-exports§

Structs§

Traits§

Type Aliases§