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remix-create-express-app

remix-create-express-app

All Contributors

All Contributors

This package contains a helper function that enables you to create your Express app directly from you entry.server.tsx. Since the Express app is built along with the rest of your Remix app, you may import app modules as needed. It also supports Vite HMR via the remix-express-dev-server plugin (which is required for this to function).

Remix Middleware (New in v0.3.0)

You can now add middleware to your routes. See below for more information.

Installation

Install the following npm package. NOTE: This is not a dev dependency, as it creates the Express app used in production. This is why the two packages are split. This way you can eliminate the dev tooling when building a production image.

npm install remix-create-express-app

Configuration

From your entry.server.tsx file, export the app from createExpressApp and name it app or the name you defined in expressDevServer({exportName}).

This helper function works differently depending on the environment.

For development, it creates an Express app that the Vite plugin will load via viteDevServer.ssrLoadModule('virtual:remix/server-build'). The actual server is controlled by Vite, and can be configured via _vite.config.ts_ server` options.

For production, it will create a standard node HTTP server listening at HOST:PORT. You can customize the production server using the createServer option defined below.

Options

export type CreateExpressAppArgs = {
  // configure the app to add additional express middleware
  configure?: async (app: Application) => void

  // get the remix AppLoadContext
  getLoadContext?: GetLoadContextFunction

  // the helper will automatically setup the remix request handler
  // but you can use this to wrap the default handler, for example sentry.
  customRequestHandler?: (
    defaultCreateRequestHandler: CreateRequestHandlerFunction,
  ) => CreateRequestHandlerFunction

  // by default, it will use a standard express object, but you can override
  // it for example to return one that handles http2
  getExpress?: async () => Application

  // this function can be used to create an https or http2 server
  createServer?: async (app: Application) => Server

  // set to true to use unstable middleware
  unstable_middleware?: boolean

  // remix build directory as defined in vite.config https://remix.run/docs/en/main/file-conventions/vite-config#builddirectory
  buildDirectory?: string

  // sever build file as defined in vite.config https://remix.run/docs/en/main/file-conventions/vite-config#serverbuildfile
  serverBuildFile?: string
}

You can add additional Express middleware with the configure function. If you do not provide a function, it will create a default Express app similar to the Remix App Server. The configure function can be async. If so, make sure to await createExpressApp().

If you want to set up the Remix AppLoadContext, pass in a function to getLoadContext. Modify the AppLoadContext interface used in your app.

Since the Express app is compiled in the same bundle as the rest of your Remix app, you can import app modules just like you normally would.

Example

// server/index.ts

import { createExpressApp } from 'remix-create-express-app'
import compression from 'compression'
import morgan from 'morgan'
import { sayHello } from '#app/hello.server.ts'

// update the AppLoadContext interface used in your app
declare module '@remix-run/node' {
  interface AppLoadContext {
    sayHello: () => string
  }
}

export const app = createExpressApp({
  configure: app => {
    // setup additional express middleware here
    app.use(compression())
    app.disable('x-powered-by')
    app.use(morgan('tiny'))
  },
  // eslint-disable-next-line @typescript-eslint/no-unused-vars
  getLoadContext: async (req, res) => {
    // custom load context should match the AppLoadContext interface defined above
    return { sayHello }
  },
})
// app/hello.server.ts
export const sayHello = () => 'Hello, World!'
// routes/test.tsx

export async function loader({ context }: LoaderFunctionArgs) {
  // get the context provided from `getLoadContext`
  return json({ message: context.sayHello() })
}

Advanced Configuration

HTTP/2

import http2 from 'node:http2'
import http2Express from 'http2-express-bridge'

export const app = createExpressApp({
  // ...
  getExpress: () => {
    // create a custom express app, needed for HTTP/2
    return http2Express(express)
  },
  createServer: app => {
    // create a custom server for production
    // use Vite config `server` to customize the dev server
    return http2.createSecureServer(
      {
        key: fs.readFileSync(process.cwd() + '/server/localhost-key.pem'),
        cert: fs.readFileSync(process.cwd() + '/server/localhost-cert.pem'),
      },
      app,
    )
  },
})

Sentry request handler

import { wrapExpressCreateRequestHandler } from '@sentry/remix'

export const app = createExpressApp({
  // ...
  customRequestHandler: defaultCreateRequestHandler => {
    // enables you to wrap the default request handler
    return process.env.NODE_ENV === 'production'
      ? wrapExpressCreateRequestHandler(defaultCreateRequestHandler)
      : defaultCreateRequestHandler // use default in dev
  },
})

Middleware

Middleware are functions that are called before Remix calls your loader/action. This implementation Unofficial, but is based on the Route Middleware RFC. So it should be mostly compatible once Remix implements Middleware directly.

This implementation is done strictly in user-land and does not modify the core Remix library. However, it does require the new Single Fetch API that was introduced in Remix v2.9.

In addition, this middleware implementation currently only supports the Express adapter. Once it stabilizes, I will look at supporting other adapters, namely Vercel and Cloudflare.

Configuration

As stated above, you will need to be on Remix v2.9+ and enable unstable_singleFetch:true in your vite.config.ts. We also need the envOnly plugin from vite-env-only. Since Remix doesn't know about the middleware export, it does not know to only include it in the server build. We'll wrap the export in serverOnly$ to ensure it only ends up in the server bundle.

// vite.config.ts
// we'll need serverOnly$ for the middleware export
import envOnly from 'vite-env-only'

// single fetch requires nativeFetch: true
installGlobals({ nativeFetch: true })

export default defineConfig({
  build: {
    target: 'esnext',
  },
  plugins: [
    expressDevServer(),
    // need the vite-env-only plugin for middleware export
    envOnly(),
    remix({
      // middleware requires unstable_singleFetch: true
      future: { unstable_singleFetch: true },
    }),
    tsconfigPaths(),
  ],
})

You will also need to enable the unstable_middleware setting in your createExpressApp call.

// entry.server.tsx

export const app = createExpressApp({
  //...
  unstable_middleware: true,
}

Creating Middleware

A middleware is any function that has the following signature:

export type MiddlewareFunctionArgs = {
  request: Request
  params: Record<string, string>
  context: AppLoadContext & ServerContext
  matches: ReturnType<typeof matchRoutes>
  next: () => Promise<Response>
}

export type MiddleWareFunction = (
  args: MiddlewareFunctionArgs,
) => Response | Promise<Response>

You can have multiple middleware functions for a given route. In your route, export the middleware array of functions.

// routes/some-route.tsx
export middleware = [middleware1, middleware2, middleware3]

When a URL is requested, the Express handler will first get the matching routes, the same way that Remix matches routes. It will get a list of routes from the root route to the leaf route.

It then checks each matching route for a middleware export. Finally, it combines all the middleware arrays for all the matching routes to create a single array of middleware functions (via flatMap). They will then be executed in the order they were defined from the root to the leaf route.

NOTE: These middleware functions are executed sequentially, unlike loaders. Once all the middleware are executed, Remix will then run the matching loaders and actions in parallel as usual.

ServerContext

Each middleware function receives the current context object initialized by the getLoadContext function in createExpressApp. This context object is mutable and passed along the middleware chain. This way, each middleware function can add additional data to the context or perform logic based on this data.

It also contains the ServerObject interface, which are two methods to get and set the context created by createContext

export type ServerContext = {
  get: <T>(contextType: ContextType<T>) => T
  set: <T>(contextType: ContextType<T>, value: T) => void
}

function createContext<T>(): ContextType<T>

When defining middleware that uses context, you can create a new context object by calling createContext. This context object is passed to by the set and get methods on the ServerContext object passed to both the middleware functions and your loaders and actions.

const UserContext = createContext<UserObject>()

// inside middleware
async function userMiddleware({ request, context }: MiddlewareFunctionArgs) {
  const cookies = cookie.parse(request.headers.get('Cookie') ?? '')
  const user = await getUserFromCookie(cookies.user)
  // set the user in the context from the cookie
  context.set(UserContext, user)
  return next()
}

// inside your loader
async function loader({ context }: LoaderFunctionArgs) {
  const user = context.get(UserContext)
  // ...
}

In addition, the middleware function can inspect the Request object. It can also modify the request by adding or removing headers.

A middleware function is responsible for calling the next function and returning the response.

The middleware function can inspect the response and update the headers. This response is passed back up the middleware chain, and then after the final middleware function returns, the response is sent to the client.

Here is an example middleware. It adds the session object to the context. In addition to making it easy to access the session, it will also commit the session if mutated. If you are using the cookie session storage, it will also add the set-cookie header automatically.

// entry.server.tsx
declare module '@remix-run/server-runtime' {
  export interface AppLoadContext {
    sayHello: () => string
    // add session to the context for type safety
    session: Session<SessionData, SessionFlashData>
  }
}

// -------------------
// root.tsx
import { session } from '#app/middleware/session.ts'
import { serverOnly$ } from 'vite-env-only'

// export your middleware as array of functions that Remix will call
// wrap middleware in serverOnly$ to prevent it from being bundled in the browser
// since remix doesn't know about middleware yet
export const middleware = serverOnly$([
  session({ isCookieSessionStorage: true }),
])

//---------------------
// routes/test.tsx
export async function loader({ context }: LoaderFunctionArgs) {
  // get the session object directly from context
  const count = Number(context.session.get('count') || 0)

  return { message: context.sayHello(), count }
}

export async function action({ request, context }: ActionFunctionArgs) {
  const formData = await request.formData()
  if (formData.has('inc')) {
    // you should only see set-cookie header when session is modified
    const count = Number(context.session.get('count') || 0)
    // mutate the session
    context.session.set('count', count + 1)
  }
  throw redirect('/test')
}

Here is a more complex chain of middleware

// root.tsx
// multiple middleware executed in sequence
export middleware = [middleware1, middleware2]

async function middleware1({ request, context, next }: MiddlewareFunctionArgs) {
  // modify request headers
  request.headers.set('x-some-header', 'root1')
  // update context
  context.root1 = 'added by root1 middleware'
  // call next middleware
  const response = await next()
  // update response headers
  response.headers.set('x-some-other-header', 'root1 middleware')
  // return the response
  return response
}

async function middleware2({ request, context, next }: MiddlewareFunctionArgs) {
  // get header set by previous middleware
  const header1 = request.headers.get('x-some-header')
  // add additional request headers
  request.headers.set('x-another-header', 'root2')
  // update context with more data
  context.root2 = 'added by root2 middleware'
  // access context data set by previous middleware
  const context1 = context.root1
    // call next middleware
  const response = await next()
  // check response status
  if (response.status === 404) {
    throw redirect('/another-page')   // note thrown responses/errors are still WIP
  }
  // update response headers
  response.headers.append('x-yet-another', 'root2 middleware')
  // return the response
  return response
}


//-----------------
// routes/child.tsx
//
export middleware = [middleware3]

async function middleware3({ request, context, next }: MiddlewareFunctionArgs) {
  // do more stuff with request headers and context

  // return the response from next
  return await next()
}

Here's how the middleware will execute

GET /test
--- middleware executed in sequence ---
execute root.middleware1
execute root.middleware2
execute child.middleware3

--- remix executes loaders in parallel ---
execute root.loader + child.loader

--- walk back up the chain return response ---
return response from child
return response from root
return response from child.middleware3
return response from root.middleware2
return response from root.middleware1

--- finally return resopnse to client ---
return response to client

Contributors ✨

Thanks goes to these wonderful people (emoji key):

Michael Carter
Michael Carter

💻
Justin Hall
Justin Hall

💻
Levi Thornton
Levi Thornton

💻
Thomas Welton
Thomas Welton

💻
Add your contributions

This project follows the all-contributors specification. Contributions of any kind welcome!