Class <Interface> Handler
publicRequests are fulfilled by handlers. A handler receives the request context
as well as a next
function with which to pass along a request to the next
handler if it so chooses.
A handler may be any object with a request
method. This allows both stateful and non-stateful
handlers to be utilized.
If a handler calls next
, it receives a Future
which resolves to a StructuredDocument
that it can then compose how it sees fit with its own response.
type NextFn<P> = (req: RequestInfo) => Future<P>;
interface Handler {
async request<T>(context: RequestContext, next: NextFn<P>): T;
}
RequestContext
contains a readonly version of the RequestInfo as well as a few methods for building up the StructuredDocument
and Future
that will be part of the response.
interface RequestContext<T> {
readonly request: RequestInfo;
setStream(stream: ReadableStream | Promise<ReadableStream>): void;
setResponse(response: Response | ResponseInfo): void;
}
A basic fetch
handler with support for streaming content updates while
the download is still underway might look like the following, where we use
response.clone()
to tee
the ReadableStream
into two streams.
A more efficient handler might read from the response stream, building up the response content before passing along the chunk downstream.
const FetchHandler = {
async request(context) {
const response = await fetch(context.request);
context.setResponse(reponse);
context.setStream(response.clone().body);
return response.json();
}
}
Stream Currying
RequestManager.request
and next
differ from fetch
in one crucial detail in that the outer Promise resolves only once the response stream has been processed.
For context, it helps to understand a few of the use-cases that RequestManager is intended to allow.
- to manage and return streaming content (such as video files)
- to fulfill a request from multiple sources or by splitting one request into multiple requests
- for instance one API call for a user and another for the user's friends
- or e.g. fulfilling part of the request from one source (one API, in-memory, localStorage, IndexedDB etc.) and the rest from another source (a different API, a WebWorker, etc.)
- to coalesce multiple requests
- to decorate a request with additional info
- e.g. an Auth handler that ensures the correct tokens or headers or cookies are attached.
await fetch(<req>)
resolves at the moment headers are received. This allows for the body of the request to be processed as a stream by application
code while chunks are still being received by the browser.
When an app chooses to await response.json()
what occurs is the browser reads the stream to completion and then returns the result. Additionally, this stream may only be read once.
The RequestManager
preserves this ability to subscribe to and utilize the stream by either the application or the handler – thereby delivering the full power and flexibility of native APIs – without restricting developers in ways that lead to complicated workarounds.
Each handler may call setStream
only once, but may do so at any time until the promise that the handler returns has resolved. The associated promise returned by calling future.getStream
will resolve with the stream set by setStream
if that method is called, or null
if that method
has not been called by the time that the handler's request method has resolved.
Handlers that do not create a stream of their own, but which call next
, should defensively pipe the stream forward. While this is not required (see automatic currying below) it is better to do so in most cases as otherwise the stream may not become available to downstream handlers or the application until the upstream handler has fully read it.
context.setStream(future.getStream());
Handlers that either call next
multiple times or otherwise have reason to create multiple fetch requests should either choose to return no stream, meaningfully combine the streams, or select a single prioritized stream.
Of course, any handler may choose to read and handle the stream, and return either no stream or a different stream in the process.
Automatic Currying of Stream and Response
In order to simplify the common case for handlers which decorate a request, if next
is called only a single time and setResponse
was never called by the handler, the response set by the next handler in the chain will be applied to that handler's outcome. For instance, this makes the following pattern possible return (await next(<req>)).content;
.
Similarly, if next
is called only a single time and neither setStream
nor getStream
was called, we automatically curry the stream from the future returned by next
onto the future returned by the handler.
Finally, if the return value of a handler is a Future
, we curry content
and errors
as well, thus enabling the simplest form return next(<req>)
.
In the case of the Future
being returned, Stream
proxying is automatic and immediate and does not wait for the Future
to resolve.
Handler Order
Request handlers are registered by configuring the manager via use
const manager = new RequestManager();
manager.use([Handler1, Handler2]);
Handlers will be invoked in the order they are registered ("fifo", first-in first-out), and may only be registered up until the first request is made. It is recommended but not required to register all handlers at one time in order to ensure explicitly visible handler ordering.
request (context, next) public
Defined in ../packages/request/src/-private/types.ts:315
- context
- next
Method to implement to handle requests. Receives the request context and a nextFn to call to pass-along the request to other handlers.