Crates.io | axum-csrf-sync-pattern |
lib.rs | axum-csrf-sync-pattern |
version | 0.3.2 |
source | src |
created_at | 2022-11-23 21:43:01.08681 |
updated_at | 2024-04-05 14:53:26.00617 |
description | An axum layer and middleware, providing Cross Site Request Forgery protection by implementing the CSRF Synchronizer Token Pattern for same-site and cross-site API requests, as described by OWASP. |
homepage | https://github.com/LeoniePhiline/axum-csrf-sync-pattern |
repository | https://github.com/LeoniePhiline/axum-csrf-sync-pattern |
max_upload_size | |
id | 721883 |
size | 75,978 |
This crate provides a Cross-Site Request Forgery protection layer and middleware for use with the axum web framework.
The middleware implements the CSRF Synchronizer Token Pattern for AJAX backends and API endpoints as described in the OWASP CSRF prevention cheat sheet.
More information about this crate can be found in the crate documentation.
axum-csrf-sync-pattern = "0.3.2"
See the example projects for same-site and cross-site usage.
Consider as well to use the crate unit tests as your reference.
This middleware implements token transfer via custom request headers.
The middleware requires and is built upon axum_sessions
, which in turn uses async_session
.
The current version is built for and works with axum 0.6.x
, axum-sessions 0.5.x
and async_session 3.x
.
There will be support for axum 0.7
and later versions.
The Same Origin Policy prevents the custom request header to be set by foreign scripts.
The goal of this middleware is to prevent cross-site request forgery attacks specifically in applications communicating with their backend by means of the JavaScript
fetch()
API or classic XmlHttpRequest
,
traditionally called "AJAX".
The Synchronizer Token Pattern is especially useful in CORS contexts,
as the underlying session cookie is obligatorily secured and inaccessible by JavaScript, while the custom HTTP response header carrying the CSRF token can be exposed
using the CORS Access-Control-Expose-Headers
HTTP response header.
While the Same Origin Policy commonly prevents custom request headers to be set on cross-origin requests, use of the use of the Access-Control-Allow-Headers CORS HTTP response header can be used to specifically allow CORS requests to be equipped with a required custom HTTP request header.
This approach ensures that requests forged by auto-submitted forms or other data-submitting scripts from foreign origins are unable to add the required header.
Use other available middleware libraries if you plan on submitting classical HTML forms without the use of JavaScript, and if you do not send the form data across origins.
The CSRF tokens are generated using rand::ThreadRng
which is considered cryptographically secure (CSPRNG).
See "Our RNGs" for more.
The security of the underlying session is paramount - the CSRF prevention methods applied can only be as secure as the session carrying the server-side token.
secure
flag on.If you need to provide and secure cross-site requests:
CorsLayer
Errors are logged using [tracing::error!
]. Error responses do not contain error details.
Use tower_http::TraceLayer
to capture and view traces.
This crate uses no unsafe
code.
The layer and middleware functionality is tested. View the module source code to learn more.
See the example projects for same-site and cross-site usage. These examples are interactive demos. Run them, then interact with them in the browser.
Note: The crate repository contains example projects for same-site and cross-site usage!
In each example directory, execute cargo run
, then open http://127.0.0.1:3000 in your browser.
Configure your session and CSRF protection layer in your backend application:
use axum::{
body::Body,
http::StatusCode,
routing::{get, Router},
};
use axum_csrf_sync_pattern::{CsrfLayer, RegenerateToken};
use axum_sessions::{async_session::MemoryStore, SessionLayer};
use rand::RngCore;
let mut secret = [0; 64];
rand::thread_rng().try_fill_bytes(&mut secret).unwrap();
async fn handler() -> StatusCode {
StatusCode::OK
}
let app = Router::new()
.route("/", get(handler).post(handler))
.layer(
CsrfLayer::new()
// Optionally, configure the layer with the following options:
// Default: RegenerateToken::PerSession
.regenerate(RegenerateToken::PerUse)
// Default: "X-CSRF-TOKEN"
.request_header("X-Custom-Request-Header")
// Default: "X-CSRF-TOKEN"
.response_header("X-Custom-Response-Header")
// Default: "_csrf_token"
.session_key("_custom_session_key")
)
.layer(SessionLayer::new(MemoryStore::new(), &secret));
// Use hyper to run `app` as service and expose on a local port or socket.
Receive the token and send same-site requests, using your custom header:
const test = async () => {
// Receive CSRF token (Default response header name: 'X-CSRF-TOKEN')
const token = (await fetch("/")).headers.get("X-Custom-Response-Header");
// Submit data using the token
await fetch("/", {
method: "POST",
headers: {
"Content-Type": "application/json",
// Default request header name: 'X-CSRF-TOKEN'
"X-Custom-Request-Header": token,
},
body: JSON.stringify({
/* ... */
}),
});
};
For a full demo, run the same-site example project. You will find the interactive demo at http://127.0.0.1:3000.
Note: The crate repository contains example projects for same-site and cross-site usage!
In each example directory, execute cargo run
, then open http://127.0.0.1:3000 in your browser.
Configure your CORS layer, session and CSRF protection layer in your backend application:
use axum::{
body::Body,
http::{header, Method, StatusCode},
routing::{get, Router},
};
use axum_csrf_sync_pattern::{CsrfLayer, RegenerateToken};
use axum_sessions::{async_session::MemoryStore, SessionLayer};
use rand::RngCore;
use tower_http::cors::{AllowOrigin, CorsLayer};
let mut secret = [0; 64];
rand::thread_rng().try_fill_bytes(&mut secret).unwrap();
async fn handler() -> StatusCode {
StatusCode::OK
}
let app = Router::new()
.route("/", get(handler).post(handler))
.layer(
// See example above for custom layer configuration.
CsrfLayer::new()
)
.layer(SessionLayer::new(MemoryStore::new(), &secret))
.layer(
CorsLayer::new()
.allow_origin(AllowOrigin::list(["https://www.example.com".parse().unwrap()]))
.allow_methods([Method::GET, Method::POST])
.allow_headers([header::CONTENT_TYPE, "X-CSRF-TOKEN".parse().unwrap()])
.allow_credentials(true)
.expose_headers(["X-CSRF-TOKEN".parse().unwrap()]),
);
// Use hyper to run `app` as service and expose on a local port or socket.
Receive the token and send cross-site requests, using your custom header:
const test = async () => {
// Receive CSRF token
const token = (
await fetch("https://backend.example.com/", {
credentials: "include",
})
).headers.get("X-CSRF-TOKEN");
// Submit data using the token
await fetch("https://backend.example.com/", {
method: "POST",
headers: {
"Content-Type": "application/json",
"X-CSRF-TOKEN": token,
},
credentials: "include",
body: JSON.stringify({
/* ... */
}),
});
};
For a full demo, run the cross-site example project. You will find the interactive demo at http://127.0.0.1:3000.
Pull requests are welcome!