Module actix_web::middleware
source · Expand description
A collection of common middleware.
§What Is Middleware?
Actix Web’s middleware system allows us to add additional behavior to request/response processing. Middleware can hook into incoming request and outgoing response processes, enabling us to modify requests and responses as well as halt request processing to return a response early.
Typically, middleware is involved in the following actions:
- Pre-process the request (e.g., normalizing paths)
- Post-process a response (e.g., logging)
- Modify application state (through
ServiceRequest
) - Access external services (e.g., sessions, etc.)
Middleware is registered for each App
, Scope
, or
Resource
and executed in opposite order as registration.
§Simple Middleware
In many cases, you can model your middleware as an async function via the from_fn()
helper
that provides a natural interface for implementing your desired behaviors.
use actix_web::middleware::{self, Next};
async fn my_mw(
req: ServiceRequest,
next: Next<impl MessageBody>,
) -> Result<ServiceResponse<impl MessageBody>, Error> {
// pre-processing
// invoke the wrapped middleware or service
let res = next.call(req).await?;
// post-processing
Ok(res)
}
App::new()
.wrap(middleware::from_fn(my_mw));
§Complex Middleware
In the more general ase, a middleware is a pair of types that implements the Service
trait
and Transform
trait, respectively. The new_transform
and call
methods must return a
Future
, though it can often be an immediately-ready one.
All the built-in middleware use this pattern with pairs of builder (Transform
) +
implementation (Service
) types.
§Ordering
#[get("/")]
async fn service(a: ExtractorA, b: ExtractorB) -> impl Responder { "Hello, World!" }
let app = App::new()
.wrap(MiddlewareA::default())
.wrap(MiddlewareB::default())
.wrap(MiddlewareC::default())
.service(service);
Request
⭣
╭────────────────────┼────╮
│ MiddlewareC │ │
│ ╭──────────────────┼───╮│
│ │ MiddlewareB │ ││
│ │ ╭────────────────┼──╮││
│ │ │ MiddlewareA │ │││
│ │ │ ╭──────────────┼─╮│││
│ │ │ │ ExtractorA │ ││││
│ │ │ ├┈┈┈┈┈┈┈┈┈┈┈┈┈┈┼┈┤│││
│ │ │ │ ExtractorB │ ││││
│ │ │ ├┈┈┈┈┈┈┈┈┈┈┈┈┈┈┼┈┤│││
│ │ │ │ service │ ││││
│ │ │ ╰──────────────┼─╯│││
│ │ ╰────────────────┼──╯││
│ ╰──────────────────┼───╯│
╰────────────────────┼────╯
⭣
Response
The request first gets processed by the middleware specified last - MiddlewareC
. It passes
the request (possibly a modified one) to the next middleware - MiddlewareB
- or directly
responds to the request (e.g. when the request was invalid or an error occurred). MiddlewareB
processes the request as well and passes it to MiddlewareA
, which then passes it to the
Service
. In the Service
, the extractors will run first. They don’t pass the request on,
but only view it (see FromRequest
). After the Service
responds to the request, the
response is passed back through MiddlewareA
, MiddlewareB
, and MiddlewareC
.
As you register middleware using wrap
and wrap_fn
in the App
builder, imagine wrapping layers around an inner App
. The first middleware
layer exposed to a Request is the outermost layer (i.e., the last registered in the builder
chain, in the example above: MiddlewareC
). Consequently, the first middleware registered in
the builder chain is the last to start executing during request processing (MiddlewareA
).
Ordering is less obvious when wrapped services also have middleware applied. In this case,
middleware are run in reverse order for App
and then in reverse order for the wrapped
service.
§Middleware Traits
§Transform<S, Req>
The Transform
trait is the builder for the actual Service
s that handle the requests. All
the middleware you pass to the wrap
methods implement this trait. During construction, each
thread assembles a chain of Service
s by calling new_transform
and passing the next
Service
(S
) in the chain. The created Service
handles requests of type Req
.
In the example from the ordering section, the chain would be:
MiddlewareCService {
next: MiddlewareBService {
next: MiddlewareAService { ... }
}
}
§Service<Req>
A Service
S
represents an asynchronous operation that turns a request of type Req
into a
response of type S::Response
or an error of type
S::Error
. You can think of the service of being roughly:
async fn(&self, req: Req) -> Result<S::Response, S::Error>
In most cases the Service
implementation will, at some point, call the wrapped Service
in its call
implementation.
Note that the Service
s created by new_transform
don’t need to be Send
or Sync
.
§Example
use std::{future::{ready, Ready, Future}, pin::Pin};
use actix_web::{
dev::{forward_ready, Service, ServiceRequest, ServiceResponse, Transform},
web, Error,
};
pub struct SayHi;
// `S` - type of the next service
// `B` - type of response's body
impl<S, B> Transform<S, ServiceRequest> for SayHi
where
S: Service<ServiceRequest, Response = ServiceResponse<B>, Error = Error>,
S::Future: 'static,
B: 'static,
{
type Response = ServiceResponse<B>;
type Error = Error;
type InitError = ();
type Transform = SayHiMiddleware<S>;
type Future = Ready<Result<Self::Transform, Self::InitError>>;
fn new_transform(&self, service: S) -> Self::Future {
ready(Ok(SayHiMiddleware { service }))
}
}
pub struct SayHiMiddleware<S> {
/// The next service to call
service: S,
}
// This future doesn't have the requirement of being `Send`.
// See: futures_util::future::LocalBoxFuture
type LocalBoxFuture<T> = Pin<Box<dyn Future<Output = T> + 'static>>;
// `S`: type of the wrapped service
// `B`: type of the body - try to be generic over the body where possible
impl<S, B> Service<ServiceRequest> for SayHiMiddleware<S>
where
S: Service<ServiceRequest, Response = ServiceResponse<B>, Error = Error>,
S::Future: 'static,
B: 'static,
{
type Response = ServiceResponse<B>;
type Error = Error;
type Future = LocalBoxFuture<Result<Self::Response, Self::Error>>;
// This service is ready when its next service is ready
forward_ready!(service);
fn call(&self, req: ServiceRequest) -> Self::Future {
println!("Hi from start. You requested: {}", req.path());
// A more complex middleware, could return an error or an early response here.
let fut = self.service.call(req);
Box::pin(async move {
let res = fut.await?;
println!("Hi from response");
Ok(res)
})
}
}
let app = App::new()
.wrap(SayHi)
.route("/", web::get().to(|| async { "Hello, middleware!" }));
Structs§
- Middleware for enabling any middleware to be used in
Resource::wrap
, andCondition
. - Compress
__compress
Middleware for compressing response payloads. - Middleware for conditionally enabling other middleware.
- Middleware for setting default response headers.
- Middleware for registering custom status code based error handlers.
- A no-op middleware that passes through request and response untouched.
- Middleware for logging request and response summaries to the terminal.
- Wraps the “next” service in the middleware chain.
- Middleware for normalizing a request’s path so that routes can be matched more flexibly.
Enums§
- Return type for
ErrorHandlers
custom handlers. - Determines the behavior of the
NormalizePath
middleware.
Functions§
- Wraps an async function to be used as a middleware.