This package contains simple utility functions to use with Remix.run.
npm install remix-utils
Additional optional dependencies may be needed, all optional dependencies are:
@remix-run/react
(also@remix-run/router
but you should be using the React one)@remix-run/node
or@remix-run/cloudflare
or@remix-run/deno
(actually it's@remix-run/server-runtime
but you should use one of the others)crypto-js
is-ip
intl-parse-accept-language
react
zod
The utils that require an extra optional dependency mention it in their documentation.
If you want to install them all run:
npm add crypto-js is-ip intl-parse-accept-language zod
React and the @remix-run/*
packages should be already installed in your project.
If you used Remix Utils before, you will notice some changes.
- The package is published as ESM only
- Every util now has a specific path in the package, so you need to import them from
remix-utils/<util-name>
. - All dependencies are now optional, so you need to install them yourself.
Since v7 of Remix Utils the package is published as ESM-only (plus type definitions). This means if you're using Remix with CJS you need to configure it to bundle Remix Utils.
In your remix.config.js
file, add this:
module.exports = {
serverDependenciesToBundle: [
/^remix-utils.*/,
// If you installed is-ip optional dependency you will need these too
"is-ip",
"ip-regex",
"super-regex",
"clone-regexp",
"function-timeout",
"time-span",
"convert-hrtime",
"is-regexp",
],
};
If you're not sure if your app uses ESM or CJS, check if you have serverModuleFormat
in your remix.config.js
file to know.
In case you don't have one, if you're using Remix v1 it will be CJS and if you're using Remix v2 it will be ESM.
If you're using Vite, but still building to CJS, you will need to add this package to noExternal
, so it's bundled with your server code. Therefore, add the following to defineConfig()
in vite.config.ts
:
ssr: {
noExternal: ["remix-utils"],
},
Note Some of the optional dependencies in Remix Utils may still be published as CJS, so you may need to add them to
serverDependenciesToBundle
too.
Another thing to consider if you did the upgrade from Remix v1 to Remix v2 is that in your tsconfig.json
you will need to set "moduleResolution": "Bundler"
, otherwise TS will not resolve the new import paths.
You will need to change your imports to use the correct one. So instead of doing:
import { eventStream, useEventSource } from "remix-utils";
You need to change it to:
import { eventStream } from "remix-utils/sse/server";
import { useEventSource } from "remix-utils/sse/react";
This adds more lines but enables the next change.
Before, Remix Utils installed some dependencies like Zod that you may never used.
Current version marks every dependency as optional, so you need to install them yourself.
While this is more works it means the package can keep using more dependencies as needed without increasing the bundle size for everyone. Only if you use the dependency that depends on Zod you will install and include Zod in your bundle.
Every util mentions what dependencies it requires and the Installation section mentions the whole list in case you want to install them all upfront.
The promiseHash
function is not directly related to Remix but it's a useful function when working with loaders and actions.
This function is an object version of Promise.all
which lets you pass an object with promises and get an object with the same keys with the resolved values.
import { promiseHash } from "remix-utils/promise";
export async function loader({ request }: LoaderFunctionArgs) {
return json(
await promiseHash({
user: getUser(request),
posts: getPosts(request),
}),
);
}
You can use nested promiseHash
to get a nested object with resolved values.
import { promiseHash } from "remix-utils/promise";
export async function loader({ request }: LoaderFunctionArgs) {
return json(
await promiseHash({
user: getUser(request),
posts: promiseHash({
list: getPosts(request),
comments: promiseHash({
list: getComments(request),
likes: getLikes(request),
}),
}),
}),
);
}
The timeout
function lets you attach a timeout to any promise, if the promise doesn't resolve or reject before the timeout, it will reject with a TimeoutError
.
import { timeout } from "remix-utils/promise";
try {
let result = await timeout(fetch("https://example.com"), { ms: 100 });
} catch (error) {
if (error instanceof TimeoutError) {
// Handle timeout
}
}
Here the fetch needs to happen in less than 100ms, otherwise it will throw a TimeoutError
.
If the promise is cancellable with an AbortSignal you can pass the AbortController to the timeout
function.
import { timeout } from "remix-utils/promise";
try {
let controller = new AbortController();
let result = await timeout(
fetch("https://example.com", { signal: controller.signal }),
{ ms: 100, controller },
);
} catch (error) {
if (error instanceof TimeoutError) {
// Handle timeout
}
}
Here after 100ms, timeout
will call controller.abort()
which will mark the controller.signal
as aborted.
Note This can only be run inside
entry.client
.
This function lets you easily cache inside the browser's Cache Storage every JS file built by Remix.
To use it, open your entry.client
file and add this:
import { cacheAssets } from "remix-utils/cache-assets";
cacheAssets().catch((error) => {
// do something with the error, or not
});
The function receives an optional options object with two options:
cacheName
is the name of the Cache object to use, the default value isassets
.buildPath
is the pathname prefix for all Remix built assets, the default value is/build/
which is the default build path of Remix itself.
It's important that if you changed your build path in remix.config.js
you pass the same value to cacheAssets
or it will not find your JS files.
The cacheName
can be left as is unless you're adding a Service Worker to your app and want to share the cache.
import { cacheAssets } from "remix-utils/cache-assets";
cacheAssests({ cacheName: "assets", buildPath: "/build/" }).catch((error) => {
// do something with the error, or not
});
Note This depends on
react
.
The ClientOnly component lets you render the children element only on the client-side, avoiding rendering it the server-side.
You can provide a fallback component to be used on SSR, and while optional, it's highly recommended to provide one to avoid content layout shift issues.
import { ClientOnly } from "remix-utils/client-only";
export default function Component() {
return (
<ClientOnly fallback={<SimplerStaticVersion />}>
{() => <ComplexComponentNeedingBrowserEnvironment />}
</ClientOnly>
);
}
This component is handy when you have some complex component that needs a browser environment to work, like a chart or a map. This way, you can avoid rendering it server-side and instead use a simpler static version like an SVG or even a loading UI.
The rendering flow will be:
- SSR: Always render the fallback.
- CSR First Render: Always render the fallback.
- CSR Update: Update to render the actual component.
- CSR Future Renders: Always render the actual component, don't bother to render the fallback.
This component uses the useHydrated
hook internally.
Note This depends on
react
.
The ServerOnly component is the opposite of the ClientOnly component, it lets you render the children element only on the server-side, avoiding rendering it the client-side.
You can provide a fallback component to be used on CSR, and while optional, it's highly recommended to provide one to avoid content layout shift issues, unless you only render visually hidden elements.
import { ServerOnly } from "remix-utils/server-only";
export default function Component() {
return (
<ServerOnly fallback={<ComplexComponentNeedingBrowserEnvironment />}>
{() => <SimplerStaticVersion />}
</ServerOnly>
);
}
This component is handy to render some content only on the server-side, like a hidden input you can later use to know if JS has loaded.
Consider it like the <noscript>
HTML tag but it can work even if JS failed to load but it's enabled on the browser.
The rendering flow will be:
- SSR: Always render the children.
- CSR First Render: Always render the children.
- CSR Update: Update to render the fallback component (if defined).
- CSR Future Renders: Always render the fallback component, don't bother to render the children.
This component uses the useHydrated
hook internally.
The CORS function let you implement CORS headers on your loaders and actions so you can use them as an API for other client-side applications.
There are two main ways to use the cors
function.
- Use it on each loader/action where you want to enable it.
- Use it globally on entry.server handleRequest and handleDataRequest export.
If you want to use it on every loader/action, you can do it like this:
import { cors } from "remix-utils/cors";
export async function loader({ request }: LoaderFunctionArgs) {
let data = await getData(request);
let response = json<LoaderData>(data);
return await cors(request, response);
}
You could also do the json
and cors
call in one line.
import { cors } from "remix-utils/cors";
export async function loader({ request }: LoaderFunctionArgs) {
let data = await getData(request);
return await cors(request, json<LoaderData>(data));
}
And because cors
mutates the response, you can also call it and later return.
import { cors } from "remix-utils/cors";
export async function loader({ request }: LoaderFunctionArgs) {
let data = await getData(request);
let response = json<LoaderData>(data);
await cors(request, response); // this mutates the Response object
return response; // so you can return it here
}
If you want to setup it globally once, you can do it like this in entry.server
import { cors } from "remix-utils/cors";
const ABORT_DELAY = 5000;
export default function handleRequest(
request: Request,
responseStatusCode: number,
responseHeaders: Headers,
remixContext: EntryContext,
) {
let callbackName = isbot(request.headers.get("user-agent"))
? "onAllReady"
: "onShellReady";
return new Promise((resolve, reject) => {
let didError = false;
let { pipe, abort } = renderToPipeableStream(
<RemixServer context={remixContext} url={request.url} />,
{
[callbackName]: () => {
let body = new PassThrough();
responseHeaders.set("Content-Type", "text/html");
cors(
request,
new Response(body, {
headers: responseHeaders,
status: didError ? 500 : responseStatusCode,
}),
).then((response) => {
resolve(response);
});
pipe(body);
},
onShellError: (err: unknown) => {
reject(err);
},
onError: (error: unknown) => {
didError = true;
console.error(error);
},
},
);
setTimeout(abort, ABORT_DELAY);
});
}
export let handleDataRequest: HandleDataRequestFunction = async (
response,
{ request },
) => {
return await cors(request, response);
};
Additionally, the cors
function accepts a options
object as a third optional argument. These are the options.
origin
: Configures the Access-Control-Allow-Origin CORS header. Possible values are:true
: Enable CORS for any origin (same as "*")false
: Don't setup CORSstring
: Set to a specific origin, if set to "*" it will allow any originRegExp
: Set to a RegExp to match against the originArray<string | RegExp>
: Set to an array of origins to match against the string or RegExpFunction
: Set to a function that will be called with the request origin and should return a boolean indicating if the origin is allowed or not. The default value istrue
.
methods
: Configures the Access-Control-Allow-Methods CORS header. The default value is["GET", "HEAD", "PUT", "PATCH", "POST", "DELETE"]
.allowedHeaders
: Configures the Access-Control-Allow-Headers CORS header.exposedHeaders
: Configures the Access-Control-Expose-Headers CORS header.credentials
: Configures the Access-Control-Allow-Credentials CORS header.maxAge
: Configures the Access-Control-Max-Age CORS header.
Note This depends on
react
,crypto-js
, and a Remix server runtime.
The CSRF related functions let you implement CSRF protection on your application.
This part of Remix Utils needs React and server-side code.
First create a new CSRF instance.
// app/utils/csrf.server.ts
import { CSRF } from "remix-utils/csrf/server";
import { createCookie } from "@remix-run/node"; // or cloudflare/deno
export const cookie = createCookie("csrf", {
path: "/",
httpOnly: true,
secure: process.env.NODE_ENV === "production",
sameSite: "lax",
secrets: ["s3cr3t"],
});
export const csrf = new CSRF({
cookie,
// what key in FormData objects will be used for the token, defaults to `csrf`
formDataKey: "csrf",
// an optional secret used to sign the token, recommended for extra safety
secret: "s3cr3t",
});
Then you can use csrf
to generate a new token.
import { csrf } from "~/utils/csrf.server";
export async function loader({ request }: LoaderFunctionArgs) {
let token = csrf.generate();
}
You can customize the token size by passing the byte size, the default one is 32 bytes which will give you a string with a length of 43 after encoding.
let token = csrf.generate(64); // customize token length
You will need to save this token in a cookie and also return it from the loader. For convenience, you can use the CSRF#commitToken
helper.
import { csrf } from "~/utils/csrf.server";
export async function loader({ request }: LoaderFunctionArgs) {
let [token, cookieHeader] = await csrf.commitToken();
return json({ token }, { headers: { "set-cookie": cookieHeader } });
}
Note You could do this on any route, but I recommend you to do it on the
root
loader.
Now that you returned the token and set it in a cookie, you can use the AuthenticityTokenProvider
component to provide the token to your React components.
import { AuthenticityTokenProvider } from "remix-utils/csrf/react";
let { csrf } = useLoaderData<LoaderData>();
return (
<AuthenticityTokenProvider token={csrf}>
<Outlet />
</AuthenticityTokenProvider>
);
Render it in your root
component and wrap the Outlet
with it.
When you create a form in some route, you can use the AuthenticityTokenInput
component to add the authenticity token to the form.
import { Form } from "@remix-run/react";
import { AuthenticityTokenInput } from "remix-utils/csrf/react";
export default function Component() {
return (
<Form method="post">
<AuthenticityTokenInput />
<input type="text" name="something" />
</Form>
);
}
Note that the authenticity token is only really needed for a form that mutates the data somehow. If you have a search form making a GET request, you don't need to add the authenticity token there.
This AuthenticityTokenInput
will get the authenticity token from the AuthenticityTokenProvider
component and add it to the form as the value of a hidden input with the name csrf
. You can customize the field name using the name
prop.
<AuthenticityTokenInput name="customName" />
You should only customize the name if you also changed it on createAuthenticityToken
.
If you need to use useFetcher
(or useSubmit
) instead of Form
you can also get the authenticity token with the useAuthenticityToken
hook.
import { useFetcher } from "@remix-run/react";
import { useAuthenticityToken } from "remix-utils/csrf/react";
export function useMarkAsRead() {
let fetcher = useFetcher();
let csrf = useAuthenticityToken();
return function submit(data) {
fetcher.submit(
{ csrf, ...data },
{ action: "/api/mark-as-read", method: "post" },
);
};
}
Finally, you need to validate the authenticity token in the action that received the request.
import { CSRFError } from "remix-utils/csrf/server";
import { redirectBack } from "remix-utils/redirect-back";
import { csrf } from "~/utils/csrf.server";
export async function action({ request }: ActionFunctionArgs) {
try {
await csrf.validate(request);
} catch (error) {
if (error instanceof CSRFError) {
// handle CSRF errors
}
// handle other possible errors
}
// here you know the request is valid
return redirectBack(request, { fallback: "/fallback" });
}
If you need to parse the body as FormData yourself (e.g. to support file uploads) you can also call CSRF#validate
with the FormData and Headers objects.
let formData = await parseMultiPartFormData(request);
try {
await csrf.validate(formData, request.headers);
} catch (error) {
// handle errors
}
Warning If you call
CSRF#validate
with the request instance, but you already read its body, it will throw an error.
In case the CSRF validation fails, it will throw a CSRFError
which can be used to correctly identify it against other possible errors that may get thrown.
The list of possible error messages are:
missing_token_in_cookie
: The request is missing the CSRF token in the cookie.invalid_token_in_cookie
: The CSRF token is not valid (is not a string).tampered_token_in_cookie
: The CSRF token doesn't match the signature.missing_token_in_body
: The request is missing the CSRF token in the body (FormData).mismatched_token
: The CSRF token in the cookie and the body don't match.
You can use error.code
to check one of the error codes above, and error.message
to get a human friendly description.
Warning Don't send those error messages to the end-user, they are meant to be used for debugging purposes only.
import { ExistingSearchParams } from "remix-utils/existing-search-params";
Note This depends on
react
and@remix-run/react
When you submit a GET form, the browser will replace all of the search params in the URL with your form data. This component copies existing search params into hidden inputs so they will not be overwritten.
The exclude
prop accepts an array of search params to exclude from the hidden inputs
- add params handled by this form to this list
- add params from other forms you want to clear on submit
For example, imagine a table of data with separate form components for pagination and filtering and searching. Changing the page number should not affect the search or filter params.
<Form>
<ExistingSearchParams exclude={["page"]} />
<button type="submit" name="page" value="1">
1
</button>
<button type="submit" name="page" value="2">
2
</button>
<button type="submit" name="page" value="3">
3
</button>
</Form>
By excluding the page
param, from the search form, the user will return to the first page of search result.
<Form>
<ExistingSearchParams exclude={["q", "page"]} />
<input type="search" name="q" />
<button type="submit">Search</button>
</Form>
Note This depends on
react
,@remix-run/react
, and a Remix server runtime.
If you need to load different external scripts on certain routes, you can use the ExternalScripts
component together with the ExternalScriptsFunction
and ScriptDescriptor
types.
In the route you want to load the script add a handle
export with a scripts
method, type the handle
to be ExternalScriptsHandle
. This interface is let's you define scripts
as either a function or an array.
If you want to define what scripts to load based on the loader data, you can use scripts
as a function:
import { ExternalScriptsHandle } from "remix-utils/external-scripts";
type LoaderData = SerializeFrom<typeof loader>;
export let handle: ExternalScriptsHandle<LoaderData> = {
scripts({ id, data, params, matches, location, parentsData }) {
return [
{
src: "https://unpkg.com/[email protected]",
integrity: "sha384-FhXw7b6AlE/jyjlZH5iHa/tTe9EpJ1Y55RjcgPbjeWMskSxZt1v9qkxLJWNJaGni",
crossOrigin: 'anonymous"
}
];
},
};
If the list of scripts to load is static you can define scripts
as an array directly.
import { ExternalScriptsHandle } from "remix-utils/external-scripts";
export let handle: ExternalScriptsHandle = {
scripts: [
{
src: "https://unpkg.com/[email protected]",
integrity: "sha384-FhXw7b6AlE/jyjlZH5iHa/tTe9EpJ1Y55RjcgPbjeWMskSxZt1v9qkxLJWNJaGni",
crossOrigin: 'anonymous",
preload: true, // use it to render a <link rel="preload"> for this script
}
],
};
You can also import ExternalScriptsFunction
and ScriptDescriptor
interfaces yourself to build a custom handle type.
import {
ExternalScriptsFunction,
ScriptDescriptor,
} from "remix-utils/external-scripts";
interface AppHandle<LoaderData = unknown> {
scripts?: ExternalScriptsFunction<LoaderData> | ScriptDescriptor[];
}
export let handle: AppHandle<LoaderData> = {
scripts, // define scripts as a function or array here
};
Or you can extend the ExternalScriptsHandle
interface.
import { ExternalScriptsHandle } from "remix-utils/external-scripts";
interface AppHandle<LoaderData = unknown>
extends ExternalScriptsHandle<LoaderData> {
// more handle properties here
}
export let handle: AppHandle<LoaderData> = {
scripts, // define scripts as a function or array here
};
Then, in the root route, add the ExternalScripts
component somewhere, usually you want to load it either inside <head>
or at the bottom of <body>
, either before or after the Remix's <Scripts>
component.
Where exactly to place <ExternalScripts />
will depend on your app, but a safe place is at the end of <body>
.
import { Links, LiveReload, Meta, Scripts, ScrollRestoration } from "remix";
import { ExternalScripts } from "remix-utils/external-scripts";
type Props = { children: React.ReactNode; title?: string };
export function Document({ children, title }: Props) {
return (
<html lang="en">
<head>
<meta charSet="utf-8" />
<meta name="viewport" content="width=device-width,initial-scale=1" />
{title ? <title>{title}</title> : null}
<Meta />
<Links />
</head>
<body>
{children}
<ScrollRestoration />
<ExternalScripts />
<Scripts />
<LiveReload />
</body>
</html>
);
}
Now, any script you defined in the ScriptsFunction will be added to the HTML.
You could use this util together with useShouldHydrate
to disable Remix scripts in certain routes but still load scripts for analytics or small features that need JS but don't need the full app JS to be enabled.
let shouldHydrate = useShouldHydrate();
return (
<html lang="en">
<head>
<meta charSet="utf-8" />
<meta name="viewport" content="width=device-width,initial-scale=1" />
{title ? <title>{title}</title> : null}
<Meta />
<Links />
</head>
<body>
{children}
<ScrollRestoration />
{shouldHydrate ? <Scripts /> : <ExternalScripts />}
<LiveReload />
</body>
</html>
);
Note This depends on
react
, and@remix-run/react
.
This hook allows you to read the value of transition.state
, every fetcher.state
in the app, and revalidator.state
.
import { useGlobalNavigationState } from "remix-utils/use-global-navigation-state";
export function GlobalPendingUI() {
let states = useGlobalNavigationState();
if (state.includes("loading")) {
// The app is loading.
}
if (state.includes("submitting")) {
// The app is submitting.
}
// The app is idle
}
The return value of useGlobalNavigationState
can be "idle"
, "loading"
or "submitting"
Note This is used by the hooks below to determine if the app is loading, submitting or both (pending).
Note This depends on
react
, and@remix-run/react
.
This hook lets you know if the global navigation, if one of any active fetchers is either loading or submitting, or if the revalidator is running.
import { useGlobalPendingState } from "remix-utils/use-global-navigation-state";
export function GlobalPendingUI() {
let globalState = useGlobalPendingState();
if (globalState === "idle") return null;
return <Spinner />;
}
The return value of useGlobalPendingState
is either "idle"
or "pending"
.
Note: This hook combines the
useGlobalSubmittingState
anduseGlobalLoadingState
hooks to determine if the app is pending.
Note: The
pending
state is a combination of theloading
andsubmitting
states introduced by this hook.
Note This depends on
react
, and@remix-run/react
.
This hook lets you know if the global transition or if one of any active fetchers is submitting.
import { useGlobalSubmittingState } from "remix-utils/use-global-navigation-state";
export function GlobalPendingUI() {
let globalState = useGlobalSubmittingState();
if (globalState === "idle") return null;
return <Spinner />;
}
The return value of useGlobalSubmittingState
is either "idle"
or "submitting"
.
Note This depends on
react
, and@remix-run/react
.
This hook lets you know if the global transition, if one of any active fetchers is loading, or if the revalidator is running
import { useGlobalLoadingState } from "remix-utils/use-global-navigation-state";
export function GlobalPendingUI() {
let globalState = useGlobalLoadingState();
if (globalState === "idle") return null;
return <Spinner />;
}
The return value of useGlobalLoadingState
is either "idle"
or "loading"
.
Note This depends on
react
.
This hook lets you detect if your component is already hydrated. This means the JS for the element loaded client-side and React is running.
With useHydrated, you can render different things on the server and client while ensuring the hydration will not have a mismatched HTML.
import { useHydrated } from "remix-utils/use-hydrated";
export function Component() {
let isHydrated = useHydrated();
if (isHydrated) {
return <ClientOnlyComponent />;
}
return <ServerFallback />;
}
When doing SSR, the value of isHydrated
will always be false
. The first client-side render isHydrated
will still be false, and then it will change to true
.
After the first client-side render, future components rendered calling this hook will receive true
as the value of isHydrated
. This way, your server fallback UI will never be rendered on a route transition.
Note This depends on
react
.
This hook lets you get the locales returned by the root loader. It follows a simple convention, your root loader return value should be an objet with the key locales
.
You can combine it with getClientLocal
to get the locales on the root loader and return that. The return value of useLocales
is a Locales
type which is string | string[] | undefined
.
import { useLocales } from "remix-utils/locales/react";
import { getClientLocales } from "remix-utils/locales/server";
// in the root loader
export async function loader({ request }: LoaderFunctionArgs) {
let locales = getClientLocales(request);
return json({ locales });
}
// in any route (including root!)
export default function Component() {
let locales = useLocales();
let date = new Date();
let dateTime = date.toISOString;
let formattedDate = date.toLocaleDateString(locales, options);
return <time dateTime={dateTime}>{formattedDate}</time>;
}
The return type of useLocales
is ready to be used with the Intl API.
Note This depends on
@remix-run/react
andreact
.
If you are building a Remix application where most routes are static, and you want to avoid loading client-side JS, you can use this hook, plus some conventions, to detect if one or more active routes needs JS and only render the Scripts component in that case.
In your document component, you can call this hook to dynamically render the Scripts component if needed.
import type { ReactNode } from "react";
import { Links, LiveReload, Meta, Scripts } from "@remix-run/react";
import { useShouldHydrate } from "remix-utils/use-should-hydrate";
interface DocumentProps {
children: ReactNode;
title?: string;
}
export function Document({ children, title }: DocumentProps) {
let shouldHydrate = useShouldHydrate();
return (
<html lang="en">
<head>
<meta charSet="utf-8" />
<link rel="icon" href="/favicon.png" type="image/png" />
{title ? <title>{title}</title> : null}
<Meta />
<Links />
</head>
<body>
{children}
{shouldHydrate && <Scripts />}
<LiveReload />
</body>
</html>
);
}
Now, you can export a handle
object with the hydrate
property as true
in any route module.
export let handle = { hydrate: true };
This will mark the route as requiring JS hydration.
In some cases, a route may need JS based on the data the loader returned. For example, if you have a component to purchase a product, but only authenticated users can see it, you don't need JS until the user is authenticated. In that case, you can make hydrate
be a function receiving your loader data.
export let handle = {
hydrate(data: LoaderData) {
return data.user.isAuthenticated;
},
};
The useShouldHydrate
hook will detect hydrate
as a function and call it using the route data.
Note This depends on
is-ip
.
This function receives a Request or Headers objects and will try to get the IP address of the client (the user) who originated the request.
import { getClientIPAddress } from "remix-utils/get-client-ip-address";
export async function loader({ request }: LoaderFunctionArgs) {
// using the request
let ipAddress = getClientIPAddress(request);
// or using the headers
let ipAddress = getClientIPAddress(request.headers);
}
If it can't find he IP address the return value will be null
. Remember to check if it was able to find it before using it.
The function uses the following list of headers, in order of preference:
- X-Client-IP
- X-Forwarded-For
- HTTP-X-Forwarded-For
- Fly-Client-IP
- CF-Connecting-IP
- Fastly-Client-Ip
- True-Client-Ip
- X-Real-IP
- X-Cluster-Client-IP
- X-Forwarded
- Forwarded-For
- Forwarded
- DO-Connecting-IP
- oxygen-buyer-ip
When a header is found that contains a valid IP address, it will return without checking the other headers.
Warning On local development the function is most likely to return
null
. This is because the browser doesn't send any of the above headers, if you want to simulate those headers you will need to either add it to the request Remix receives in your HTTP server or run a reverse proxy like NGINX that can add them for you.
Note This depends on
intl-parse-accept-language
.
This function let you get the locales of the client (the user) who originated the request.
import { getClientLocales } from "remix-utils/locales/server";
export async function loader({ request }: LoaderFunctionArgs) {
// using the request
let locales = getClientLocales(request);
// or using the headers
let locales = getClientLocales(request.headers);
}
The return value is a Locales type, which is string | string[] | undefined
.
The returned locales can be directly used on the Intl API when formatting dates, numbers, etc.
import { getClientLocales } from "remix-utils/locales/server";
export async function loader({ request }: LoaderFunctionArgs) {
let locales = getClientLocales(request);
let nowDate = new Date();
let formatter = new Intl.DateTimeFormat(locales, {
year: "numeric",
month: "long",
day: "numeric",
});
return json({ now: formatter.format(nowDate) });
}
The value could also be returned by the loader and used on the UI to ensure the user's locales is used on both server and client formatted dates.
This function let you identify if a request was created because of a prefetch triggered by using <Link prefetch="intent">
or <Link prefetch="render">
.
This will let you implement a short cache only for prefetch requests so you avoid the double data request.
import { isPrefetch } from "remix-utils/is-prefetch";
export async function loader({ request }: LoaderFunctionArgs) {
let data = await getData(request);
let headers = new Headers();
if (isPrefetch(request)) {
headers.set("Cache-Control", "private, max-age=5, smax-age=0");
}
return json(data, { headers });
}
This function is a wrapper of the redirect
helper from Remix. Unlike Remix's version, this one receives the whole request object as the first value and an object with the response init and a fallback URL.
The response created with this function will have the Location
header pointing to the Referer
header from the request, or if not available, the fallback URL provided in the second argument.
import { redirectBack } from "remix-utils/redirect-back";
export async function action({ request }: ActionFunctionArgs) {
throw redirectBack(request, { fallback: "/" });
}
This helper is most useful when used in a generic action to send the user to the same URL it was before.
Helper function to create a Not Modified (304) response without a body and any header.
import { notModified } from "remix-utils/responses";
export async function loader({ request }: LoaderFunctionArgs) {
return notModified();
}
Helper function to create a JavaScript file response with any header.
This is useful to create JS files based on data inside a Resource Route.
import { javascript } from "remix-utils/responses";
export async function loader({ request }: LoaderFunctionArgs) {
return javascript("console.log('Hello World')");
}
Helper function to create a CSS file response with any header.
This is useful to create CSS files based on data inside a Resource Route.
import { stylesheet } from "remix-utils/responses";
export async function loader({ request }: LoaderFunctionArgs) {
return stylesheet("body { color: red; }");
}
Helper function to create a PDF file response with any header.
This is useful to create PDF files based on data inside a Resource Route.
import { pdf } from "remix-utils/responses";
export async function loader({ request }: LoaderFunctionArgs) {
return pdf(await generatePDF(request.formData()));
}
Helper function to create a HTML file response with any header.
This is useful to create HTML files based on data inside a Resource Route.
import { html } from "remix-utils/responses";
export async function loader({ request }: LoaderFunctionArgs) {
return html("<h1>Hello World</h1>");
}
Helper function to create a XML file response with any header.
This is useful to create XML files based on data inside a Resource Route.
import { xml } from "remix-utils/responses";
export async function loader({ request }: LoaderFunctionArgs) {
return xml("<?xml version='1.0'?><catalog></catalog>");
}
Helper function to create a TXT file response with any header.
This is useful to create TXT files based on data inside a Resource Route.
import { txt } from "remix-utils/responses";
export async function loader({ request }: LoaderFunctionArgs) {
return txt(`
User-agent: *
Allow: /
`);
}
Note This depends on
zod
, and a Remix server runtime.
Cookie objects in Remix allows any type, the typed cookies from Remix Utils lets you use Zod to parse the cookie values and ensure they conform to a schema.
import { createCookie } from "@remix-run/node";
import { createTypedCookie } from "remix-utils/typed-cookie";
import { z } from "zod";
let cookie = createCookie("returnTo", cookieOptions);
// I recommend you to always add `nullable` to your schema, if a cookie didn't
// come with the request Cookie header Remix will return null, and it can be
// useful to remove it later when clearing the cookie
let schema = z.string().url().nullable();
// pass the cookie and the schema
let typedCookie = createTypedCookie({ cookie, schema });
// this will be a string and also a URL
let returnTo = await typedCookie.parse(request.headers.get("Cookie"));
// this will not pass the schema validation and throw a ZodError
await typedCookie.serialize("a random string that's not a URL");
// this will make TS yell because it's not a string, if you ignore it it will
// throw a ZodError
await typedCookie.serialize(123);
You could also use typed cookies with any sessionStorage mechanism from Remix.
let cookie = createCookie("session", cookieOptions);
let schema = z.object({ token: z.string() }).nullable();
let sessionStorage = createCookieSessionStorage({
cookie: createTypedCookie({ cookie, schema }),
});
// if this works then the correct data is stored in the session
let session = sessionStorage.getSession(request.headers.get("Cookie"));
session.unset("token"); // remove a required key from the session
// this will throw a ZodError because the session is missing the required key
await sessionStorage.commitSession(session);
Now Zod will ensure the data you try to save to the session is valid removing any extra field and throwing if you don't set the correct data in the session.
Note The session object is not really typed so doing session.get will not return the correct type, you can do
schema.parse(session.data)
to get the typed version of the session data.
You can also use async refinements in your schemas because typed cookies uses parseAsync method from Zod.
let cookie = createCookie("session", cookieOptions);
let schema = z
.object({
token: z.string().refine(async (token) => {
let user = await getUserByToken(token);
return user !== null;
}, "INVALID_TOKEN"),
})
.nullable();
let sessionTypedCookie = createTypedCookie({ cookie, schema });
// this will throw if the token stored in the cookie is not valid anymore
sessionTypedCookie.parse(request.headers.get("Cookie"));
Finally, to be able to delete a cookie, you can add .nullable()
to your schema and serialize it with null
as value.
// Set the value as null and expires as current date - 1 second so the browser expires the cookie
await typedCookie.serialize(null, { expires: new Date(Date.now() - 1) });
If you didn't add .nullable()
to your schema, you will need to provide a mock value and set the expires date to the past.
let cookie = createCookie("returnTo", cookieOptions);
let schema = z.string().url().nullable();
let typedCookie = createTypedCookie({ cookie, schema });
await typedCookie.serialize("some fake url to pass schema validation", {
expires: new Date(Date.now() - 1),
});
Note This depends on
zod
, and a Remix server runtime.
Session objects in Remix allows any type, the typed sessions from Remix Utils lets you use Zod to parse the session data and ensure they conform to a schema.
import { createCookieSessionStorage } from "@remix-run/node";
import { createTypedSessionStorage } from "remix-utils/typed-session";
import { z } from "zod";
let schema = z.object({
token: z.string().optional(),
count: z.number().default(1),
});
// you can use a Remix's Cookie container or a Remix Utils' Typed Cookie container
let sessionStorage = createCookieSessionStorage({ cookie });
// pass the session storage and the schema
let typedSessionStorage = createTypedSessionStorage({ sessionStorage, schema });
Now you can use typedSessionStorage as a drop-in replacement for your normal sessionStorage.
let session = typedSessionStorage.getSession(request.headers.get("Cookie"));
session.get("token"); // this will be a string or undefined
session.get("count"); // this will be a number
session.get("random"); // this will make TS yell because it's not in the schema
session.has("token"); // this will be a boolean
session.has("count"); // this will be a boolean
// this will make TS yell because it's not a string, if you ignore it it will
// throw a ZodError
session.set("token", 123);
Now Zod will ensure the data you try to save to the session is valid by not allowing you to get, set or unset data.
Note Remember that you either need to mark fields as optional or set a default value in the schema, otherwise it will be impossible to call getSession to get a new session object.
You can also use async refinements in your schemas because typed sesions uses parseAsync method from Zod.
let schema = z.object({
token: z
.string()
.optional()
.refine(async (token) => {
if (!token) return true; // handle optionallity
let user = await getUserByToken(token);
return user !== null;
}, "INVALID_TOKEN"),
});
let typedSessionStorage = createTypedSessionStorage({ sessionStorage, schema });
// this will throw if the token stored in the session is not valid anymore
typedSessionStorage.getSession(request.headers.get("Cookie"));
Note This depends on
react
.
Server-Sent Events are a way to send data from the server to the client without the need for the client to request it. This is useful for things like chat applications, live updates, and more.
There are two utils provided to help with the usage inside Remix:
eventStream
useEventSource
The eventStream
function is used to create a new event stream response needed to send events to the client. This must live in a Resource Route.
// app/routes/sse.time.ts
import { eventStream } from "remix-utils/sse/server";
import { interval } from "remix-utils/timers";
export async function loader({ request }: LoaderFunctionArgs) {
return eventStream(request.signal, function setup(send) {
async function run() {
for await (let _ of interval(1000, { signal: request.signal })) {
send({ event: "time", data: new Date().toISOString() });
}
}
run();
});
}
Then, inside any component, you can use the useEventSource
hook to connect to the event stream.
// app/components/counter.ts
import { useEventSource } from "remix-utils/sse/react";
function Counter() {
// Here `/sse/time` is the resource route returning an eventStream response
let time = useEventSource("/sse/time", { event: "time" });
if (!time) return null;
return (
<time dateTime={time}>
{new Date(time).toLocaleTimeString("en", {
minute: "2-digit",
second: "2-digit",
hour: "2-digit",
})}
</time>
);
}
The event
name in both the event stream and the hook is optional, in which case it will default to message
, if defined you must use the same event name in both sides, this also allows you to emit different events from the same event stream.
For Server-Sent Events to work, your server must support HTTP streaming. If you don't get SSE to work check if your deployment platform has support for it.
Because SSE count towards the limit of HTTP connections per domain, the useEventSource
hook keeps a global map of connections based on the provided URL and options. As long as they are the same, the hook will open a single SSE connection and share it between instances of the hook.
Once there are no more instances of the hook re-using a connection, it will be closed and removed from the map.
You can use the <EventSourceProvider />
component to control the map.
let map: EventSourceMap = new Map();
return (
<EventSourceProvider value={map}>
<YourAppOrPartOfIt />
</EventSourceProvider>
);
This way, you can overwrite the map with a new one for a specific part of your app. Note that this provider is optional and a default map will be used if you don't provide one.
Note This depends on
zod
, and a Remix server runtime.
Rolling cookies allows you to prolong the expiration of a cookie by updating the expiration date of every cookie.
The rollingCookie
function is prepared to be used in entry.server
exported function to update the expiration date of a cookie if no loader set it.
For document request you can use it on the handleRequest
function:
import { rollingCookie } from "remix-utils/rolling-cookie";
import { sessionCookie } from "~/session.server";
export default function handleRequest(
request: Request,
responseStatusCode: number,
responseHeaders: Headers,
remixContext: EntryContext,
) {
await rollingCookie(sessionCookie, request, responseHeaders);
return isbot(request.headers.get("user-agent"))
? handleBotRequest(
request,
responseStatusCode,
responseHeaders,
remixContext,
)
: handleBrowserRequest(
request,
responseStatusCode,
responseHeaders,
remixContext,
);
}
And for data request you can do it on the handleDataRequest
function:
import { rollingCookie } from "remix-utils/rolling-cookie";
export let handleDataRequest: HandleDataRequestFunction = async (
response: Response,
{ request },
) => {
let cookieValue = await sessionCookie.parse(
responseHeaders.get("set-cookie"),
);
if (!cookieValue) {
cookieValue = await sessionCookie.parse(request.headers.get("cookie"));
responseHeaders.append(
"Set-Cookie",
await sessionCookie.serialize(cookieValue),
);
}
return response;
};
Note This depends on a Remix server runtime.
It's common to need to handle more than one action in the same route, there are many options here like sending the form to a resource route or using an action reducer, the namedAction
function uses some conventions to implement the action reducer pattern.
import { namedAction } from "remix-utils/named-action";
export async function action({ request }: ActionFunctionArgs) {
return namedAction(request, {
async create() {
// do create
},
async update() {
// do update
},
async delete() {
// do delete
},
});
}
export default function Component() {
return (
<>
<Form method="post" action="?/create">
...
</Form>
<Form method="post" action="?/update">
...
</Form>
<Form method="post" action="?/delete">
...
</Form>
</>
);
}
This function can follow many conventions
You can pass a FormData object to the namedAction
, then it will try to
- Find a field named
/something
and use it as the action name removing the/
- Find a field named
intent
and use the value as the action name - Find a field named
action
and use the value as the action name - Find a field named
_action
and use the value as the action name
You can pass an URLSearchParams object to the namedAction
, then it will try to
- Find a query parameter named
/something
and use it as the action name removing the/
- Find a query parameter named
intent
and use the value as the action name - Find a query parameter named
action
and use the value as the action name - Find a query parameter named
_action
and use the value as the action name
You can pass an URL object to the namedAction
, it will behave as with a URLSearchParams object.
You can pass a Request object to the namedAction
, then it will try to
- Call
new URL(request.url)
and use it as the URL object - Call
request.formData()
and use it as the FormData object
If, in any case, the action name is not found, the actionName
then the library will try to call an action named default
, similar to a switch
in JavaScript.
If the default
is not defined it will throw a ReferenceError with the message Action "${name}" not found
.
If the library couldn't found the name at all, it will throw a ReferenceError with the message Action name not found
Caution
This can potentialy create big Link
header and can cause extremely hard to debug issues. Some provider's load balancers have set certain buffer for parsing outgoing response's headers and thanks to preloadRouteAssets
you can easily reach that in a medium sized application.
Your load balancer can randomly stop responding or start throwing 502 error.
To overcome this either don't use preloadRouteAssets
, set bigger buffer for processing response headers if you own the loadbalancer or use the experimentalMinChunkSize
option in Vite config (this does not solve the issue permanently, only delays it)
The Link
header allows responses to push to the browser assets that are needed for the document, this is useful to improve the performance of the application by sending those assets earlier.
Once Early Hints is supported this will also allows you to send the assets even before the document is ready, but for now you can benefit to send assets to preload before the browser parse the HTML.
You can do this with the functions preloadRouteAssets
, preloadLinkedAssets
and preloadModuleAssets
.
All functions follows the same signature:
import { preloadRouteAssets, preloadLinkedAssets, preloadModuleAssets } from "remix-utils/preload-route-assets";
// entry.server.tsx
export default function handleRequest(
request: Request,
statusCode: number,
headers: Headers,
context: EntryContext,
) {
let markup = renderToString(
<RemixServer context={context} url={request.url} />,
);
headers.set("Content-Type", "text/html");
preloadRouteAssets(context, headers); // add this line
// preloadLinkedAssets(context, headers);
// preloadModuleAssets(context, headers);
return new Response("<!DOCTYPE html>" + markup, {
status: statusCode,
headers: headers,
});
}
The preloadRouteAssets
is a combination of both preloadLinkedAssets
and preloadModuleAssets
so you can use it to preload all assets for a route, if you use this one you don't need the other two
The preloadLinkedAssets
function will preload any link with rel: "preload"
added with the Remix's LinkFunction
, so you can configure assets to preload in your route and send them in the headers automatically. It will additionally preload any linked stylesheet file (with rel: "stylesheet"
) even if not preloaded so it will load faster.
The preloadModuleAssets
function will preload all the JS files Remix adds to the page when hydrating it, Remix already renders a <link rel="modulepreload">
for each now before the <script type="module">
used to start the application, this will use Link headers to preload those assets.
When performing a redirect, if the URL is user provided we can't trust it, if you do you're opening a vulnerability to phishing scam by allowing bad actors to redirect the user to malicious websites.
https://remix.utills/?redirectTo=https://malicious.app
To help you prevent this Remix Utils gives you a safeRedirect
function which can be used to check if the URL is "safe".
Note In this context, safe means the URL starts with
/
but not//
, this means the URL is a pathname inside the same app and not an external link.
import { safeRedirect } from "remix-utils/safe-redirect";
export async function loader({ request }: LoaderFunctionArgs) {
let { searchParams } = new URL(request.url);
let redirectTo = searchParams.get("redirectTo");
return redirect(safeRedirect(redirectTo, "/home"));
}
The second argumento of safeRedirect
is the default redirect which by when not configured is /
, this lets you tell safeRedirect
where to redirect the user if the value is not safe.
When returning a json
from a loader
function, you may need to get data from different DB queries or API requests, typically you would something like this
export async function loader({ params }: LoaderData) {
let postId = z.string().parse(params.postId);
let [post, comments] = await Promise.all([getPost(), getComments()]);
return json({ post, comments });
async function getPost() {
/* … */
}
async function getComments() {
/* … */
}
}
The jsonHash
function lets you define those functions directly in the json
, reducing the need to create extra functions and variables.
import { jsonHash } from "remix-utils/json-hash";
export async function loader({ params }: LoaderData) {
let postId = z.string().parse(params.postId);
return jsonHash({
async post() {
// Implement me
},
async comments() {
// Implement me
},
});
}
It also calls your functions using Promise.all
so you can be sure the data is retrieved in parallel.
Additionally, you can pass non-async functions, values and promises.
import { jsonHash } from "remix-utils/json-hash";
export async function loader({ params }: LoaderData) {
let postId = z.string().parse(params.postId);
return jsonHash({
postId, // value
comments: getComments(), // Promise
slug() {
// Non-async function
return postId.split("-").at(1); // get slug from postId param
},
async post() {
// Async function
return await getPost(postId);
},
});
async function getComments() {
/* … */
}
}
The result of jsonHash
is a TypedResponse
and it's correctly typed so using it with typeof loader
works flawlessly.
export default function Component() {
// all correctly typed
let { postId, comments, slug, post } = useLoaderData<typeof loader>();
// more code…
}
When using Remix, you can use the <Link>
component to navigate between pages. However, if you have a <a href>
that links to a page in your app, it will cause a full page refresh. This can be what you want, but sometimes you want to use client-side navigation here instead.
The useDelegatedAnchors
hook lets you add client-side navigation to anchor tags in a portion of your app. This can be specially useful when working with dynamic content like HTML or Markdown from a CMS.
import { useDelegatedAnchors } from "remix-utils/use-delegated-anchors";
export async function loader() {
let content = await fetchContentFromCMS();
return json({ content });
}
export default function Component() {
let { content } = useLoaderData<typeof loader>();
let ref = useRef<HTMLDivElement>(null);
useDelegatedAnchors(ref);
return <article ref={ref} dangerouslySetInnerHTML={{ __html: content }} />;
}
If additionally you want to be able to prefetch your anchors you can use the PrefetchPageAnchors
components.
This components wraps your content with anchors inside, it detects any hovered anchor to prefetch it, and it delegates them to Remix.
import { PrefetchPageAnchors } from "remix-utils/use-delegated-anchors";
export async function loader() {
let content = await fetchContentFromCMS();
return json({ content });
}
export default function Component() {
let { content } = useLoaderData<typeof loader>();
return (
<PrefetchPageAnchors>
<article ref={ref} dangerouslySetInnerHTML={{ __html: content }} />
</PrefetchPageAnchors>
);
}
Now you can see in your DevTools that when the user hovers an anchor it will prefetch it, and when the user clicks it will do a client-side navigation.
Note This depends on
react
, and@remix-run/react
.
useDebounceFetcher
and useDebounceSubmit
are wrappers of useFetcher
and useSubmit
that add debounce support.
These hooks are based on @JacobParis' article.
import { useDebounceFetcher } from "remix-utils/use-debounce-fetcher";
export function Component({ data }) {
let fetcher = useDebounceFetcher<Type>();
function handleClick() {
fetcher.submit(data, { debounceTimeout: 1000 });
}
return (
<button type="button" onClick={handleClick}>
Do Something
</button>
);
}
Usage with useDebounceSubmit
is similar.
import { useDebounceSubmit } from "remix-utils/use-debounce-submit";
export function Component({ name }) {
let submit = useDebounceSubmit();
return (
<input
name={name}
type="text"
onChange={(event) => {
submit(event.target.form, {
navigate: false, // use a fetcher instead of a page navigation
fetcherKey: name, // cancel any previous fetcher with the same key
debounceTimeout: 1000,
});
}}
onBlur={() => {
submit(event.target.form, {
navigate: false,
fetcherKey: name,
debounceTimeout: 0, // submit immediately, canceling any pending fetcher
});
}}
/>
);
}
Note This depends on
@remix-route/react
.
Derive the value of the deprecated fetcher.type
from the fetcher and navigation data.
import { getFetcherType } from "remix-utils/fetcher-type";
function Component() {
let fetcher = useFetcher();
let navigation = useNavigation();
let fetcherType = getFetcherType(fetcher, navigation);
useEffect(() => {
if (fetcherType === "done") {
// do something once the fetcher is done submitting the data
}
}, [fetcherType]);
}
You can also use the React Hook API which let's you avoid calling useNavigation
.
import { useFetcherType } from "remix-utils/fetcher-type";
function Component() {
let fetcher = useFetcher();
let fetcherType = useFetcherType(fetcher);
useEffect(() => {
if (fetcherType === "done") {
// do something once the fetcher is done submitting the data
}
}, [fetcherType]);
}
If you need to pass the fetcher type around, you can also import FetcherType
type.
import { type FetcherType } from "remix-utils/fetcher-type";
function useCallbackOnDone(type: FetcherType, cb) {
useEffect(() => {
if (type === "done") cb();
}, [type, cb]);
}
If you're building a resource route and wants to send a different response based on what content type the client requested (e.g. send the same data as PDF or XML or JSON), you will need to implement content negotiation, this can be done with the respondTo
header.
import { respondTo } from "remix-utils/respond-to";
export async function loader({ request }: LoaderFunctionArgs) {
// do any work independent of the response type before respondTo
let data = await getData(request);
let headers = new Headers({ vary: "accept" });
// Here we will decide how to respond to different content types
return respondTo(request, {
// The handler can be a subtype handler, in `text/html` html is the subtype
html() {
// We can call any function only really need to respond to this
// content-type
let body = ReactDOMServer.renderToString(<UI {...data} />);
headers.append("content-type", "text/html");
return new Response(body, { headers });
},
// It can also be a highly specific type
async "application/rss+xml"() {
// we can do more async work inside this code if needed
let body = await generateRSSFeed(data);
headers.append("content-type", "application/rss+xml");
return new Response(body, { headers });
},
// Or a generic type
async text() {
// To respond to any text type, e.g. text/plain, text/csv, etc.
let body = generatePlain(data);
headers.append("content-type", "text/plain");
return new Response(body, { headers });
},
// The default will be used if the accept header doesn't match any of the
// other handlers
default() {
// Here we could have a default type of response, e.g. use json by
// default, or we can return a 406 which means the server can't respond
// with any of the requested content types
return new Response("Not Acceptable", { status: 406 });
},
});
}
Now, the respondTo
function will check the Accept
header and call the correct handler, to know which one to call it will use the parseAcceptHeader
function also exported from Remix Utils
import { parseAcceptHeader } from "remix-utils/parse-accept-header";
let parsed = parseAcceptHeader(
"text/html, application/xhtml+xml, application/xml;q=0.9, image/webp, image/*, */*;q=0.8",
);
The result is an array with the type, subtype and extra params (e.g. the q
value). The order will be the same encountered in the header, in the example aabove text/html
will be the first, followed by application/xhtml+xml
.
This means that the respondTo
helper will prioritize any handler that match text/html
, in our example above, that will be the html
handler, but if we remove it then the text
handler will be called instead.67
Note This depends on
react
andcrypto-js
.
Honeypot is a simple technique to prevent spam bots from submitting forms. It works by adding a hidden field to the form that bots will fill, but humans won't.
There's a pair of utils in Remix Utils to help you implement this.
First, create a honeypot.server.ts
where you will instantiate and configure your Honeypot.
import { Honeypot } from "remix-utils/honeypot/server";
// Create a new Honeypot instance, the values here are the defaults, you can
// customize them
export const honeypot = new Honeypot({
randomizeNameFieldName: false,
nameFieldName: "name__confirm",
validFromFieldName: "from__confirm", // null to disable it
encryptionSeed: undefined, // Ideally it should be unique even between processes
});
Then, in your app/root
loader, call honeypot.getInputProps()
and return it.
// app/root.tsx
import { honeypot } from "~/honeypot.server";
export async function loader() {
// more code here
return json({ honeypotInputProps: honeypot.getInputProps() });
}
And in the app/root
component render the HoneypotProvider
component wrapping the rest of the UI.
import { HoneypotProvider } from "remix-utils/honeypot/react";
export default function Component() {
// more code here
return (
// some JSX
<HoneypotProvider {...honeypotInputProps}>
<Outlet />
</HoneypotProvider>
// end that JSX
);
}
Now, in every public form you want protect against spam (like a login form), render the HoneypotInputs
component.
import { HoneypotInputs } from "remix-utils/honeypot/react";
function SomePublicForm() {
return (
<Form method="post">
<HoneypotInputs label="Please leave this field blank" />
{/* more inputs and some buttons */}
</Form>
);
}
Note The label value above is the default one, use it to allow the label to be localized, or remove it if you don't want to change it.
Finally, in the action the form submits to, you can call honeypot.check
.
import { SpamError } from "remix-utils/honeypot/server";
import { honeypot } from "~/honeypot.server";
export async function action({ request }) {
let formData = await request.formData();
try {
honeypot.check(formData);
} catch (error) {
if (error instanceof SpamError) {
// handle spam requests here
}
// handle any other possible error here, e.g. re-throw since nothing else
// should be thrown
}
// the rest of your action
}
Note This depends on
zod
.
The Sec-Fetch
headers include information about the request, e.g. where is the data going to be used, or if it was initiated by the user.
You can use the remix-utils/sec-fetch
utils to parse those headers and get the information you need.
import {
fetchDest,
fetchMode,
fetchSite,
isUserInitiated,
} from "remix-utils/sec-fetch";
The Sec-Fetch-Dest
header indicates the destination of the request, e.g. document
, image
, script
, etc.
If the value is empty
it means it will be used by a fetch
call, this means you can differentiate between a request made with and without JS by checking if it's document
(no JS) or empty
(JS enabled).
import { fetchDest } from "remix-utils/sec-fetch";
export async function action({ request }: ActionFunctionArgs) {
let data = await getDataSomehow();
// if the request was made with JS, we can just return json
if (fetchDest(request) === "empty") return json(data);
// otherwise we redirect to avoid a reload to trigger a new submission
return redirect(destination);
}
The Sec-Fetch-Mode
header indicates how the request was initiated, e.g. if the value is navigate
it was triggered by the user loading the page, if the value is no-cors
it could be an image being loaded.
import { fetchMode } from "remix-utils/sec-fetch";
export async function loader({ request }: LoaderFunctionArgs) {
let mode = fetchMode(request);
// do something based on the mode value
}
The Sec-Fetch-Site
header indicates where the request is being made, e.g. same-origin
means the request is being made to the same domain, cross-site
means the request is being made to a different domain.
import { fetchSite } from "remix-utils/sec-fetch";
export async function loader({ request }: LoaderFunctionArgs) {
let site = fetchSite(request);
// do something based on the site value
}
The Sec-Fetch-User
header indicates if the request was initiated by the user, this can be used to differentiate between a request made by the user and a request made by the browser, e.g. a request made by the browser to load an image.
import { isUserInitiated } from "remix-utils/sec-fetch";
export async function loader({ request }: LoaderFunctionArgs) {
let userInitiated = isUserInitiated(request);
// do something based on the userInitiated value
}
The timers utils gives you a way to wait a certain amount of time before doing something or to run some code every certain amount of time.
Using the wait
combined with an AbortSignal we can cancel a timeout if the user navigates away from the page.
import { wait } from "remix-utils/timers";
export async function loader({ request }: LoaderFunctionArgs) {
await wait(1000, { signal: request.signal });
// do something after 1 second
}
Using the interval
combined with eventStream
we could send a value to the client every certain amount of time. And ensure the interval is cancelled if the connection is closed.
import { eventStream } from "remix-utils/sse/server";
import { interval } from "remix-utils/timers";
export async function loader({ request }: LoaderFunctionArgs) {
return eventStream(request.signal, function setup(send) {
async function run() {
for await (let _ of interval(1000, { signal: request.signal })) {
send({ event: "time", data: new Date().toISOString() });
}
}
run();
});
}
- MIT License