Security News
Weekly Downloads Now Available in npm Package Search Results
Socket's package search now displays weekly downloads for npm packages, helping developers quickly assess popularity and make more informed decisions.
react-pages
Advanced tools
A simple toolkit for building a React/Redux application: routing, loading page data, fetching data over HTTP, (optional) server-side rendering, etc.
A complete solution for building a React/Redux application
<title/>
, <meta/>
, social network sharing)$ yarn add redux react-redux
or:
$ npm install redux react-redux --save
Then, install react-pages
:
$ yarn add react-pages
or:
$ npm install react-pages --save
react-pages
configuration file.The configuration file:
import routes from './routes.js'
export default {
routes
}
The routes
:
import App from '../pages/App.js'
import Item from '../pages/Item.js'
import Items from '../pages/Items.js'
export default [{
Component: App,
path: '/',
children: [
{ Component: App },
{ Component: Items, path: 'items' },
{ Component: Item, path: 'items/:id' }
]
}]
The page components:
import React from 'react'
import { Link } from 'react-pages'
export default ({ children }) => (
<section>
<header>
Web Application
</header>
{children}
<footer>
Copyright
</footer>
</section>
)
import React from 'react'
export default () => <div> This is the list of items </div>
import React from 'react'
export default ({ params }) => <div> Item #{params.id} </div>
render()
in the main client-side javascript file of the app.The main client-side javascript file of the app:
import { render } from 'react-pages/client'
import settings from './react-pages.js'
// Render the page in a web browser.
render(settings)
The index.html
file of the app usually looks like this:
<html>
<head>
<title>Example</title>
<!-- Fix encoding. -->
<meta charset="utf-8">
<!-- Fix document width for mobile devices. -->
<meta name="viewport" content="width=device-width, initial-scale=1.0">
</head>
<body>
<script src="/bundle.js"></script>
</body>
</html>
Where bundle.js
is the ./src/index.js
file built with Webpack (or you could use any other javascript bundler).
The index.html
and bundle.js
files must be served over HTTP(S).
If you're using Webpack then add HtmlWebpackPlugin
to generate index.html
, and run webpack-dev-server
with historyApiFallback
to serve the generated index.html
and bundle.js
files over HTTP on localhost:8080
.
HtmlWebpackPlugin
configuration exampleconst HtmlWebpackPlugin = require('html-webpack-plugin')
const buildOutputPath = '...'
const devServerPort = 8080 // Any port number.
module.exports = {
output: {
path: buildOutputPath,
publicPath: `http://localhost:${devServerPort}`,
...
},
...,
plugins: [
new HtmlWebpackPlugin({
template: 'src/index.html' // Path to `index.html` file.
}),
...
],
devServer: {
port: devServerPort,
contentBase: buildOutputPath,
historyApiFallback : true
}
}
<html>
<head>
<title>Example</title>
<!-- Fix encoding. -->
<meta charset="utf-8">
<!-- Fix document width for mobile devices. -->
<meta name="viewport" content="width=device-width, initial-scale=1.0">
</head>
<body>
<!-- HtmlWebpackPlugin will insert a <script> tag here. -->
</body>
</html>
webpack-dev-server --hot --config webpack.config.js
Or see the Webpack example project.
If you're using Parcel instead of Webpack then see the basic example project for the setup required in order to generate and serve index.html
and bundle.js
files over HTTP on localhost:1234
.
So now the website should be fully working.
The website (index.html
, bundle.js
, CSS stylesheets and images, etc) can now be deployed as-is in a cloud (e.g. on Amazon S3) and served statically for a very low price. The API can be hosted "serverlessly" in a cloud (e.g. Amazon Lambda) which is also considered cheap. No running Node.js server is required.
Yes, it's not a Server-Side Rendered approach because a user is given a blank page first, then bundle.js
script is loaded by the web browser, then bundle.js
script is executed fetching some data from the API via an HTTP request, and only when that HTTP request comes back — only then the page is rendered (in the browser). Google won't index such websites, but if searchability is not a requirement (at all or yet) then that would be the way to go (e.g. startup "MVP"s or "internal applications"). Server-Side Rendering can be easily added to such setup should the need arise.
Adding server-side rendering to the setup is quite simple, although I'd consider it an "advanced" topic.
While client-side rendering could be done entirely in a web browser, server-side rendering would require running a Node.js process somewhere in a cloud which slightly increases the complexity of the whole setup.
So in case of server-side rendering, index.html
file is being generated on-the-fly by a page rendering server (a Node.js process) for each incoming HTTP request, so the index.html
file that was used previously for client-side rendering may be deleted now as it's of no longer use.
A Node.js script for running a "rendering server" process would look like this:
import webpageServer from 'react-pages/server'
import settings from './react-pages'
// Create webpage rendering server
const server = webpageServer(settings, {
// Pass `secure: true` flag to listen on `https://` rather than `http://`.
// secure: true,
// These are the URLs of the "static" javascript and CSS files
// which are injected into the resulting HTML webpage in the form of
// <script src="..."/> and <link rel="style" href="..."/> tags.
//
// The javascript file should be the javascript "bundle" of the website
// and the CSS file should be the CSS "bundle" of the website.
//
// P.S.: To inject other types of javascript or CSS files
// (for example, files of 3rd-party libraries),
// use a separate configuration parameter called `html`:
// https://gitlab.com/catamphetamine/react-pages/blob/master/README-ADVANCED.md#all-webpage-rendering-server-options)
//
assets() {
return {
// This should be the URL for the application's javascript bundle.
// In this case, the configuration assumes that the website is being run
// on `localhost` domain with "static file hosting" enabled for its files.
javascript: 'http://localhost:8080/bundle.js',
// (optional)
// This should be the URL for the application's CSS bundle.
style: 'http://localhost:8080/bundle.css'
}
}
})
// Start webpage rendering server on port 3000.
// Syntax: `server.listen(port, [host], [callback])`.
server.listen(3000, function(error) {
if (error) {
throw error
}
console.log(`Webpage rendering server is listening at http://localhost:3000`)
})
Run the rendering server:
$ npm install npx --global
$ npm install babel-cli
$ npx babel-node rendering-server.js
Now disable javascript in Chrome DevTools, go to localhost:3000
and the server should respond with a fully server-side-rendered page.
This concludes the introductory part of the README and the rest is the description of the various tools and techniques which come prepackaged with this library.
A working example illustrating Server-Side Rendering and all other things can be found here: webpack-react-redux-isomorphic-render-example.
Another minimalistic example using Parcel instead of Webpack can be found here: react-pages-basic-example.
react-pages
configuration file supports a rootComponent
parameter. It should be the root component of the application. It receives properties: children
and store
(Redux store).
The default (and minimal) rootComponent
is simply a Redux Provider
wrapped around the children
. The Redux Provider
enables Redux, because this library uses Redux internally.
import { Provider as ReduxProvider } from 'react-redux'
export default function DefaultRootComponent({ store, children }) {
return (
<ReduxProvider store={store}>
{children}
</ReduxProvider>
)
}
If you plan on using Redux in your application, provide a reducers
object in the react-pages
configuration file.
import routes from './routes.js'
// The `reducers` parameter should be an object containing
// Redux reducers that will be combined into a single Redux reducer
// using the standard `combineReducers()` function of Redux.
import * as reducers from './redux/index.js'
export default {
routes,
reducers
}
Where the reducers
object should be:
// For those who're unfamiliar with Redux concepts,
// a "reducer" is a function `(state, action) => state`.
//
// The main (or "root") "reducer" usually consists of "sub-reducers",
// in which case it's an object rather than a function,
// and each property of such object is a "sub-reducer" function.
//
// There's no official name for "sub-reducer".
// For example, Redux Toolkit [calls](https://redux.js.org/usage/structuring-reducers/splitting-reducer-logic) them "slices".
//
export { default as subReducer1 } from './subReducer1.js'
export { default as subReducer2 } from './subReducer2.js'
...
To add custom Redux "middleware", specify a reduxMiddleware
parameter in the react-pages
configuration file.
export default {
...,
// `reduxMiddleware` should be an array of custom Redux middlewares.
reduxMiddleware: [
middleware1,
middleware2
]
}
To "load" a page before it's rendered (both on server side and on client side), define a static load
property function on the page component.
The load
function receives a "utility" object as its only argument:
function Page({ data }) {
return (
<div>
{data}
</div>
)
}
Page.load = async (utility) => {
const {
// Can `dispatch()` Redux actions.
dispatch,
// Can be used to get a slice of Redux state.
useSelector,
// (optional)
//
// "Load Context" could hold any custom developer-defined variables
// that could then be accessed inside `.load()` functions.
//
// To define a "load context":
//
// * Pass `getLoadContext()` function as an option to the client-side `render()` function.
// The options are the second argument of that function.
// The result of the function will be passed to each `load()` function as `context` parameter.
// The result of the function will be reused within the scope of a given web browser tab,
// i.e. `getLoadContext()` function will only be called once for a given web browser tab.
//
// * (if also using server-side rendering)
// Pass `getLoadContext()` function as an option to the server-side `webpageServer()` function.
// The options are the second argument of that function.
// The result of the function will be passed to each `load()` function as `context` parameter.
// The result of the function will be reused within the scope of a given HTTP request,
// i.e. `getLoadContext()` function will only be called once for a given HTTP request.
//
// `getLoadContext()` function recevies an argument object: `{ dispatch }`.
// `getLoadContext()` function should return a "load context" object.
//
// Miscellaneous: `context` parameter will also be passed to `onPageRendered()`/`onBeforeNavigate()` functions.
//
context,
// (optional)
// A `context` parameter could be passed to the functions
// returned from `useNavigation()` hooks. When passed, that parameter
// will be available inside the `.load()` function of the page as `navigationContext` parameter.
navigationContext,
// Current page location (object).
location,
// Route URL parameters.
// For example, for route "/users/:id" and URL "/users/barackobama",
// `params` will be `{ id: "barackobama" }`.
params,
// Navigation history.
// Each entry is an object having properties:
// * `route: string` — Example: "/user/:userId/post/:postId".
// * `action: string` — One of: "start", "push", "redirect", "back", "forward".
history,
// Is this server-side rendering?
server,
// (utility)
// Returns a cookie value by name.
getCookie
} = utility
// Send HTTP request and wait for response.
// For example, it could just be using the standard `fetch()` function.
const data = await fetch(`https://data-source.com/data/${params.id}`)
// Optionally return an object containing page component `props`.
// If returned, these props will be available in the page component,
// same way it works in Next.js in its `getServerSideProps()` function.
return {
// `data` prop will be available in the page component.
props: {
data
}
}
}
The load
property function could additionally be defined on the application's root React component. In that case, the application would first execute the load
function of the application's root React component, and then, after it finishes, it would proceed to executing the page component's load
function. This behavior allows the root React component's load
function to perform the "initialization" of the application: for example, it could authenticate the user.
load
functionTo catch all errors originating in load()
functions, specify an onLoadError()
parameter in react-pages.js
settings file.
{
onLoadError: (error, { url, location, redirect, useSelector, server }) => {
redirect(`/error?url=${encodeURIComponent(url)}&error=${error.status}`)
}
}
load
functionTo redirect from a load
function, return an object with redirect
property, similar to how it works in Next.js in its getServerSideProps()
function.
UserPage.load = async ({ params }) => {
const user = await fetch(`/api/users/${params.id}`)
if (user.wasDeleted) {
return {
redirect: {
url: '/not-found'
}
}
}
return {
props: {
user
}
}
}
To permanently redirect from one URL to another URL, specify a permanentRedirectTo
parameter on the "from" route.
{
path: '/old-path/:id',
permanentRedirectTo: '/new-path/:id'
}
load
indication (during navigation).While the application is performing a load
as a result of navigating to another page, a developer might prefer to show some kind of a loading indicator. Such loading indicator could be implemented as a React component that listens to the boolean
value returned from useLoading()
hook.
import { useLoading } from 'react-pages'
import LoadingIndicator from './LoadingIndicator.js'
export default function PageLoading() {
const isLoading = useLoading()
return (
<LoadingIndicator show={isLoading}/>
)
}
export default function App({ children }) {
return (
<div>
<PageLoading/>
{children}
</div>
)
}
load
indication (initial).Initial client-side (non-server-side) load
is different from client-side load
during navigation: during the initial client-side load
, the <App/>
element is not rendered yet. Therefore, while the application is performing an initial client-side load
, a blank screen is shown.
There're two possible workarounds for that:
To show a loading indicator instead of a blank screen during the initial load, one could specify some additional react-pages
configuration parameters:
InitialLoadComponent
— A React component that shows an initial page loading indicator. Receives properties:
initial: true
— This is just a flag that is always true
.show: boolean
— Is true
when the component should be shown. Is false
when the component should no longer be shown.
false
is passed, the component could either hide itself immediately or show some kind of a hiding animation (for example, fade out). The duration of such hiding animation should be passed as initialLoadHideAnimationDuration: number
parameter (see below) so that the library knows when can it unmount the InitialLoadComponent
.hideAnimationDuration: number
— This is just a copy of initialLoadHideAnimationDuration: number
parameter (see below) for convenience.initialLoadShowDelay: number
— When supplying InitialLoadComponent
, one should also specify the delay before showing the InitialLoadComponent
. For example, such delay could be used to only show InitialLoadComponent
for initial loads that aren't fast enough. For "no delay", the value should be 0
.
initialLoadHideAnimationDuration: number
— When supplying InitialLoadComponent
, one should also specify the duration of the hide animation of InitialLoadComponent
, if it has a hide animation. If there's no hide animation, the value should be 0
.
On client side, in order for load
to work, all links must be created using the <Link/>
component imported from react-pages
package. Upon a click on a <Link/>
, first it waits for the next page to load, and then, when the next page is fully loaded, the navigation itself takes place.
load
also works for Back/Forward navigation. To disable page load
on Back navigation, pass instantBack
property to a <Link/>
.For example, consider a search results page loading some data (could be search results themselves, could be anything else unrelated). A user navigates to this page, waits for load
to finish and then sees a list of items. Without instantBack
if the user clicks on an item he's taken to the item's page. Then the user clicks "Back" and is taken back to the search results page but has to wait for that load
again. With instantBack
though the "Back" transition occurs instantly without having to wait for that load
again. Same goes then for the reverse "Forward" navigation from the search results page back to the item's page, but that's just a small complementary feature. The main benefit is the instantaneous "Back" navigation creating a much better UX where a user can freely explore a list of results without getting penalized for it with a waiting period on each click.
import React from 'react'
import { useSelector } from 'react-redux'
import { Link } from 'react-pages'
function SearchResultsPage() {
const results = useSelector(state => state.searchPage.results)
return (
<ul>
{ results.map((item) => (
<li>
<Link to="/items/{item.id}" instantBack>
{item.name}
</Link>
</li>
))) }
</ul>
)
}
SearchResultsPage.load = async () => await fetchSomeData()
There's also instantBack: true
option that could be passed to navigate(location, options)
function which is returned from useNavigate()
hook. The behavior of the option is the same.
instantBack
is ignored when navigating to the same route: for example, if there's an <Article/>
page component having a <Link instantBack/>
to another <Article/>
then instantBack
is ignored — this feature was originally added for Redux because it made sense that way (in Redux there's only one slot for data of a route that gets rewritten every time the route is navigated to). For other data fetching frameworks like Relay I guess it would make sense to turn that off. Create an issue if that's the case.
One can also use the exported wasInstantNavigation()
function (on client side) to find out if the current page was navigated to "instantly". This can be used, for example, to restore a "state" of a widget on instant "Back" navigation so that it renders immediately with the previously cached "results" or something.
There's also a canGoBackInstantly()
function (on client side) that tells if the currently page can be navigated "Back" from instantly. This function can be used to render a custom "Go Back" button on a page only when an instant "Back" transition could be performed.
There's also a canGoForwardInstantly()
function (analogous to canGoBackInstantly()
).
Fetching data in an application could be done using several approaches:
fetch()
for making HTTP requests and then storing the result in React Component state using useState()
hook setter.fetch()
for making HTTP requests and then storing the result in Redux state by dispatch()
-ing a "setter" action.Implementing synchronous actions in Redux is straightforward. But what about asynchronous actions like HTTP requests? Redux itself doesn't provide any built-in solution for that leaving it to 3rd party middlewares. Therefore this library provides one.
This is the lowest-level approach to asynchronous actions. It is described here just for academic purposes and most likely won't be used directly in any app.
If a Redux "action creator" returns an object with a promise
(function) and events
(array) then dispatch()
ing such an action results in the following steps:
type = events[0]
is dispatchedpromise
function gets called and returns a Promise
Promise
succeeds then an event of type = events[1]
is dispatched having result
property set to the Promise
resultPromise
fails then an event of type = events[2]
is dispatched having error
property set to the Promise
errorfunction asynchronousAction() {
return {
promise: () => Promise.resolve({ success: true }),
events: ['PROMISE_PENDING', 'PROMISE_SUCCESS', 'PROMISE_ERROR']
}
}
dispatch(asynchronousAction())
call returns the Promise
itself:
Page.load = async ({ dispatch }) => {
await dispatch(asynchronousAction())
}
Because in almost all cases dispatching an "asynchronous action" in practice means "making an HTTP request", the promise
function used in asynchronousAction()
s always receives an { http }
argument: promise: ({ http }) => ...
.
The http
utility has the following methods:
head
get
post
put
patch
delete
Each of these methods returns a Promise
and takes three arguments:
url
of the HTTP requestdata
object (e.g. HTTP GET query
or HTTP POST body
)options
(described further)So, API endpoints can be queried using http
and ES6 async/await
syntax like so:
function fetchFriends(personId, gender) {
return {
promise: ({ http }) => http.get(`/api/person/${personId}/friends`, { gender }),
events: ['GET_FRIENDS_PENDING', 'GET_FRIENDS_SUCCESS', 'GET_FRIENDS_FAILURE']
}
}
The possible options
(the third argument of all http
methods) are
headers
— HTTP Headers JSON object.authentication
— Set to false
to disable sending the authentication token as part of the HTTP request. Set to a String to pass it as an Authorization: Bearer ${token}
token (no need to supply the token explicitly for every http
method call, it is supposed to be set globally, see below).progress(percent, event)
— Use for tracking HTTP request progress (e.g. file upload).onResponseHeaders(headers)
– Use for examining HTTP response headers (e.g. Amazon S3 file upload).Content-Type
For that use the http.onRequest(request, { url, originalUrl, useSelector })
setting in ./react-pages.js
where:
request
is a superagent
request
that can be modified. For example, to set an HTTP header: request.set(headerName, headerValue)
.originalUrl
is the URL argument of the http
utility call.url
is the originalUrl
transformed by http.transformUrl()
settings function. If no http.transformUrl()
is configured then url
is the same as the originalUrl
.Once one starts writing a lot of promise
/http
Redux actions it becomes obvious that there's a lot of copy-pasting and verbosity involved. To reduce those tremendous amounts of copy-pasta "redux module" tool may be used which:
http
.${actionName}_PENDING
, ${actionName}_SUCCESS
, ${actionName}_ERROR
).${actionName}Pending
: true
/false
, ${actionName}Error: Error
) in Redux state.For example, the fetchFriends()
action from the previous section can be rewritten as:
Before:
// ./actions/friends.js
function fetchFriends(personId, gender) {
return {
promise: ({ http }) => http.get(`/api/person/${personId}/friends`, { gender }),
events: ['FETCH_FRIENDS_PENDING', 'FETCH_FRIENDS_SUCCESS', 'FETCH_FRIENDS_FAILURE']
}
}
// ./reducers/friends.js
export default function(state = {}, action = {}) {
switch (action.type) {
case 'FETCH_FRIENDS_PENDING':
return {
...state,
fetchFriendsPending: true,
fetchFriendsError: null
}
case 'FETCH_FRIENDS_SUCCESS':
return {
...state,
fetchFriendsPending: false,
friends: action.value
}
case 'FETCH_FRIENDS_ERROR':
return {
...state,
fetchFriendsPending: false,
fetchFriendsError: action.error
}
default
return state
}
}
After:
import { ReduxModule } from 'react-pages'
const redux = new ReduxModule('FRIENDS')
export const fetchFriends = redux.action(
'FETCH_FRIENDS',
(personId, gender) => http => {
return http.get(`/api/person/${personId}/friends`, { gender })
},
// The fetched friends list will be placed
// into the `friends` Redux state property.
'friends'
//
// Or write it like this:
// { friends: result => result }
//
// Or write it as a Redux reducer:
// (state, result) => ({ ...state, friends: result })
)
// This is the Redux reducer which now
// handles the asynchronous action defined above.
export default redux.reducer()
Much cleaner.
Also, when the namespace or the action name argument is omitted it is autogenerated, so this
const redux = new ReduxModule('FRIENDS')
...
redux.action('FETCH_ITEM', id => http => http.get(`/items/${id}`), 'item')
could be written as
const redux = new ReduxModule()
...
redux.action(id => http => http.get(`/items/${id}`), 'item')
and in this case redux
will autogenerate the namespace and the action name, something like REACT_WEBSITE_12345
and REACT_WEBSITE_ACTION_12345
.
import { ReduxModule } from 'react-pages'
const redux = new ReduxModule('BLOG_POST')
// Post comment Redux "action creator"
export const postComment = redux.action(
// 'POST_COMMENT',
(userId, blogPostId, commentText) => async http => {
// The original action call looks like:
// `dispatch(postComment(1, 12345, 'bump'))`
return await http.post(`/blog/posts/${blogPostId}/comment`, {
userId: userId,
text: commentText
})
}
)
// Get comments Redux "action creator"
export const getComments = redux.action(
// 'GET_COMMENTS',
(blogPostId) => async http => {
return await http.get(`/blog/posts/${blogPostId}/comments`)
},
// The fetched comments will be placed
// into the `comments` Redux state property.
'comments'
//
// Or write it like this:
// { comments: result => result }
//
// Or write it as a Redux reducer:
// (state, result) => ({ ...state, comments: result })
)
// A developer can listen to any Redux event via
// `redux.on('EVENT_NAME', (state, action) => state)`.
//
// In this case, it listens to a "success" event of a `redux.action()`.
// There's a section in this document describing this feature in more detail:
// "Redux module can also listen for events from other redux modules via <code>redux.on()</code>"
//
redux.on('BLOG_POST', 'CUSTOM_EVENT', (state, action) => ({
...state,
reduxStateProperty: action.value
}))
// This is the Redux reducer which now
// handles the asynchronous actions defined above
// (and also the `handler.on()` events).
// Export it as part of the "main" reducer.
export default redux.reducer()
// The "main" reducer is composed of various reducers.
export { default as blogPost } from './blogPost'
...
The React Component would look like this
import React from 'react'
import { getBlogPost, getComments, postComment } from './redux/blogPost'
export default function BlogPostPage() {
const userId = useSelector(state => state.user.id)
const blogPost = useSelector(state => state.blogPost.blogPost)
const comments = useSelector(state => state.blogPost.comments)
return (
<div>
<article>
{ blogPost.text }
</article>
<ul>
{ comments.map(comment => <li>{comment}</li>) }
</ul>
<button onClick={() => postComment(userId, blogPost.id, 'text')}>
Post comment
</button>
</div>
)
}
// Load blog post and comments before showing the page
// (see "Page loading" section of this document)
BlogPostPage.load = async ({ dispatch, params }) => {
// `params` are the URL parameters in route `path`.
// For example, "/blog/:blogPostId".
await dispatch(getBlogPost(params.blogPostId))
await dispatch(getComments(params.blogPostId))
}
export const action = redux.simpleAction()
A simple Redux action that simply updates Redux state.
action = redux.simpleAction((state, actionArgument) => newState)
import { ReduxModule } from 'react-pages'
const redux = new ReduxModule('NOTIFICATIONS')
// Displays a notification.
//
// The Redux "action" creator is gonna be:
//
// function(text) {
// return {
// type : 'NOTIFICATIONS:NOTIFY',
// message : formatMessage(text)
// }
// }
//
// And the corresponding reducer is gonna be:
//
// case 'NOTIFICATIONS:NOTIFY':
// return {
// ...state,
// message: action.message
// }
//
// Call it as `dispatch(notify(text))`.
//
export const notify = redux.simpleAction(
// (optional) Redux event name.
'NOTIFY',
// The Redux reducer:
(state, message) => ({ ...state, message }),
// The Redux reducer above could be also defined as:
// 'message'
)
// This is the Redux reducer which now
// handles the actions defined above.
export default redux.reducer()
dispatch(notify('Test'))
redux.on()
// A developer can listen to any Redux event via
// `redux.on('EVENT_NAME', (state, action) => state)`.
//
// If one string argument is passed then it will listen for
// an exact Redux `action.type`.
//
// If two string arguments are passed then the first argument should be
// a `ReduxModule` namespace (the argument to `ReduxModule()` function)
// and the second argument should be a name of an asynchronous `redux.action()`.
// In that case, it will listen only for a "success" event of that `redux.action()`.
//
// To listen for a non-"success" event of a `redux.action()`,
// specify the full Redux event name.
// Example for a "pending" event: 'BLOG_POST: CUSTOM_EVENT_PENDING'.
//
redux.on('BLOG_POST', 'CUSTOM_EVENT', (state, action) => ({
...state,
reduxStateProperty: action.value
}))
To enable sending and receiving cookies when making cross-domain HTTP requests, specify http.useCrossDomainCookies()
function in react-pages.js
configuration file. If that function returns true
, then it has the same effect as changing credentials: "same-origin"
to credentials: "include"
in a fetch()
call.
When enabling cross-domain cookies on front end, don't forget to make the relevant backend changes:
Access-Control-Allow-Origin
HTTP header from *
to an explict comma-separated list of the allowed domain names.Access-Control-Allow-Credentials: true
HTTP header.{
http: {
// Allows sending cookies to and receiving cookies from
// "trusted.com" domain or any of its sub-domains.
useCrossDomainCookies({ getDomain, belongsToDomain, url, originalUrl }) {
return belongsToDomain('trusted.com')
}
}
}
In order to send an authentication token in the form of an Authorization: Bearer ${token}
HTTP header, specify http.authentication.accessToken()
function in react-pages.js
configuration file.
{
http: {
authentication: {
// If a token is returned from this function, it gets sent as
// `Authorization: Bearer {token}` HTTP header.
accessToken({ useSelector, getCookie }) {
return localStorage.getItem('accessToken')
}
}
}
}
{
http: {
authentication: {
// If a token is returned from this function, it gets sent as
// `Authorization: Bearer {token}` HTTP header.
accessToken({ useSelector, getCookie, url, originalUrl }) {
// It's recommended to check the URL to make sure that the access token
// is not leaked to a third party: only send it to your own servers.
//
// `originalUrl` is the URL argument of the `http` utility call.
// `url` is the `originalUrl` transformed by `http.transformUrl()` settings function.
// If no `http.transformUrl()` is configured then `url` is the same as the `originalUrl`.
//
if (url.indexOf('https://my.api.com/') === 0) {
return localStorage.getItem('accessToken')
}
}
}
}
}
The accessToken
is initially obtained when a user signs in: the web browser sends HTTP POST request to /sign-in
API endpoint with { email, password }
parameters and gets { userInfo, accessToken }
as a response, which is then stored in localStorage
(or in Redux state
, or in a cookie
) and all subsequent HTTP requests use that accessToken
to call the API endpoints. The accessToken
itself is usually a JSON Web Token signed on the server side and holding the list of the user's priviliges ("roles"). Hence authentication and authorization are completely covered. Refresh tokens are also supported.
This kind of an authentication and authorization scheme is self-sufficient and doesn't require "restricting" any routes: if a route's load
uses http
utility for querying an API endpoint then this API endpoint must check if the user is signed in and if the user has the necessary priviliges. If yes then the route is displayed. If not then the user is redirected to either a "Sign In Required" page or "Access Denied" page.
A real-world (advanced) example for handling "Unauthenticated"/"Unauthorized" errors happening in load
s and during http
calls:
{
...,
// Catches errors thrown from page `load()` functions.
onLoadError(error, { url, location, redirect, dispatch, useSelector, server }) {
// Not authenticated
if (error.status === 401) {
return handleUnauthenticatedError(error, url, redirect);
}
// Not authorized
if (error.status === 403) {
return redirect('/unauthorized');
}
// Not found
if (error.status === 404) {
return redirect('/not-found');
}
// Redirect to a generic error page in production
if (process.env.NODE_ENV === 'production') {
// Prevents infinite redirect to the error page
// in case of overall page rendering bugs, etc.
if (location.pathname !== '/error') {
// Redirect to a generic error page
return redirect(`/error?url=${encodeURIComponent(url)}`);
}
} else {
// Report the error
console.error('--------------------------------');
console.error(`Error while loading "${url}"`);
console.error('--------------------------------');
console.error(error.stack);
}
},
http: {
// Catches all HTTP errors that weren't thrown from `load()` functions.
onError(error, { url, location, redirect, dispatch, useSelector }) {
// JWT token expired, the user needs to relogin.
if (error.status === 401) {
handleUnauthenticatedError(error, url, redirect);
// `return true` indicates that the error has been handled by the developer
// and it shouldn't be re-thrown as an "Unhandled rejection".
return true
}
},
...
}
}
function handleUnauthenticatedError(error, url, redirect) {
// Prevent double redirection to `/unauthenticated`.
// (e.g. when two parallel `Promise`s load inside `load`
// and both get Status 401 HTTP Response)
if (typeof window !== 'undefined' && window.location.pathname === '/unauthenticated') {
return;
}
let unauthenticatedURL = '/unauthenticated';
let parametersDelimiter = '?';
if (url !== '/') {
unauthenticatedURL += `${parametersDelimiter}url=${encodeURIComponent(url)}`;
parametersDelimiter = '&';
}
switch (error.message) {
case 'TokenExpiredError':
return redirect(`${unauthenticatedURL}${parametersDelimiter}expired=✔`);
case 'AuthenticationError':
return redirect(`${unauthenticatedURL}`);
default:
return redirect(unauthenticatedURL);
}
}
This library doesn't force one to dispatch "asynchronous" Redux actions using the http
utility in order to fetch data over HTTP. For example, one could use the standard fetch()
function instead. But if one chooses to use the http
utility, default error handlers for it could be set up.
To listen for http
errors, one may specify two functions in react-pages.js
configuration file:
onLoadError()
— Catches all errors thrown from page load()
functions.http.onError()
— Catches all HTTP errors that weren't thrown from load()
functions. Should return true
if the error has been handled successfully and shouldn't be printed to the console.{
http: {
// (optional)
// Catches all HTTP errors that weren't thrown from `load()` functions.
onError(error, { url, location, redirect, dispatch, useSelector }) {
if (error.status === 401) {
redirect('/not-authenticated')
// `return true` indicates that the error has been handled by the developer
// and it shouldn't be re-thrown as an "Unhandled rejection".
return true
} else {
// Ignore the error.
}
},
// (optional)
// (advanced)
//
// Creates a Redux state `error` property from an HTTP `Error` instance.
//
// By default, returns whatever JSON data was returned in the HTTP response,
// if any, and adds a couple of properties to it:
//
// * `message: string` — `error.message`.
// * `status: number?` — The HTTP response status. May be `undefined` if no response was received.
//
getErrorData(error) {
return { ... }
}
}
}
http
utility it is recommended to set up http.transformUrl(url)
configuration setting to make the code a bit cleaner.Before:
// Actions.
export const getUser = redux.action(
(id) => http => http.get(`https://my-api.cloud-provider.com/users/${id}`),
'user'
)
export const updateUser = redux.action(
(id, values) => http => http.put(`https://my-api.cloud-provider.com/users/${id}`, values)
)
After:
// Actions.
export const getUser = redux.action(
(id) => http => http.get(`api://users/${id}`),
'user'
)
export const updateUser = redux.action(
(id, values) => http => http.put(`api://users/${id}`, values)
)
// Settings.
{
...
http: {
transformUrl: url => `https://my-api.cloud-provider.com/${url.slice('api://'.length)}`
}
}
On server side, user's cookies are attached to all relative "original" URLs so http.transformUrl(originalUrl)
must not transform relative URLs into absolute URLs, otherwise user's cookies would be leaked to a third party.
The http
utility will also upload files if they're passed as part of data
(see example below). The files passed inside data
must have one of the following types:
File
it will be a single file upload.FileList
with a single File
inside it would be treated as a single File
.FileList
with multiple File
s inside a multiple file upload will be performed.<input type="file"/>
DOM element all its .files
will be taken as a FileList
parameter.File upload progress can be metered by passing progress
option as part of the options
.
// React component.
function ItemPage() {
const dispatch = useDispatch()
const onFileSelected = (event) => {
const file = event.target.files[0]
// Could also pass just `event.target.files` as `file`
dispatch(uploadItemPhoto(itemId, file))
// Reset the selected file
// so that onChange would trigger again
// even with the same file.
event.target.value = null
}
return (
<div>
...
<input type="file" onChange={onFileSelected}/>
</div>
)
}
// Redux action creator
function uploadItemPhoto(itemId, file) {
return {
promise: ({ http }) => http.post(
'/item/photo',
{ itemId, file },
{ progress(percent) { console.log(percent) } }
),
events: ['UPLOAD_ITEM_PHOTO_PENDING', 'UPLOAD_ITEM_PHOTO_SUCCESS', 'UPLOAD_ITEM_PHOTO_FAILURE']
}
}
By default, when using http
utility all JSON responses get parsed for javascript Date
s which are then automatically converted from String
s to Date
s.
This has been a very convenient feature that is also safe in almost all cases because such date String
s have to be in a very specific ISO format in order to get parsed (year-month-dayThours:minutes:seconds[timezone]
, e.g. 2017-12-22T23:03:48.912Z
).
Looking at this feature now, I wouldn't advise enabling it because it could potentially lead to a bug when it accidentally mistakes a string for a date. For example, some user could write a comment with the comment content being an ISO date string. If, when fetching that comment from the server, the application automatically finds and converts the comment text from a string to a Date
instance, it will likely lead to a bug when the application attempts to access any string-specific methods of such Date
instance, resulting in a possible crash of the application.
Therefore, currenly I'd advise setting http.findAndConvertIsoDateStringsToDateInstances
flag to false
in react-pages.js
settings file to opt out of this feature.
{
...
http: {
...
findAndConvertIsoDateStringsToDateInstances: false
}
}
Server-Side Rendering is good for search engine indexing but it's also heavy on CPU not to mention the bother of setting up a Node.js server itself and keeping it running.
In many cases data on a website is "static" (doesn't change between redeployments), e.g. a personal blog or a portfolio website, so in these cases it will be beneficial (much cheaper and faster) to host a statically generated version a website on a CDN as opposed to hosting a Node.js application just for the purpose of real-time webpage rendering. In such cases one should generate a static version of the website by snapshotting it on a local machine and then host the snapshotted pages in a cloud (e.g. Amazon S3) for a very low price.
First run the website in production mode (for example, on localhost
).
Then run the following Node.js script which is gonna snapshot the currently running website and put it in a folder which can then be hosted anywhere.
# If the website will be hosted on Amazon S3
npm install @auth0/s3 --save
import path from 'path'
import {
// Snapshots website pages.
snapshot,
// Uploads files.
upload,
// Uploads files to Amazon S3.
S3Uploader,
// Copies files/folders into files/folders.
// Same as Linux `cp [from] [to]`.
copy,
// Downloads data from a URL into an object
// of shape `{ status: Number, content: String }`.
download
} from 'react-pages/static-site-generator'
import configuration from '../configuration'
// Temporary generated files path.
const generatedSitePath = path.resolve(__dirname, '../static-site')
async function run() {
// Snapshot the website.
await snapshot({
// The host and port on which the website
// is currently running in production mode.
// E.g. `localhost` and `3000`.
host: configuration.host,
port: configuration.port,
pages: await generatePageList(),
outputPath: generatedSitePath,
//
// Set this flag to `true` to re-run all `load`s on page load.
// For example, if the data used on the page can be updated
// in-between the static site deployments.
// reloadData: true
})
// Copy assets (built by Webpack).
await copy(path.resolve(__dirname, '../build/assets'), path.resolve(generatedSitePath, 'assets'))
await copy(path.resolve(__dirname, '../robots.txt'), path.resolve(generatedSitePath, 'robots.txt'))
// Upload the website to an Amazon S3 bucket.
await upload(generatedSitePath, S3Uploader({
// Setting an `ACL` for the files being uploaded is optional.
// Alternatively a bucket-wide policy could be set up instead:
//
// {
// "Version": "2012-10-17",
// "Statement": [{
// "Sid": "AddPerm",
// "Effect": "Allow",
// "Principal": "*",
// "Action": "s3:GetObject",
// "Resource": "arn:aws:s3:::[bucket-name]/*"
// }]
// }
//
// If not setting a bucket-wide policy then the ACL for the
// bucket itself should also have "List objects" set to "Yes",
// otherwise the website would return "403 Forbidden" error.
//
ACL: 'public-read',
bucket: confiugration.s3.bucket,
accessKeyId: configuration.s3.accessKeyId,
secretAccessKey: configuration.s3.secretAccessKey,
region: configuration.s3.region
}))
console.log('Done');
}
run().catch((error) => {
console.error(error)
process.exit(1)
})
// Get the list of all page URLs.
async function generatePageList() {
const pages = [
'/',
'/about',
// Error pages need a `status` property
// to indicate that it shouldn't throw on such errors
// and should proceed with snapshotting the next pages.
{ url: '/unauthenticated', status: 401 },
{ url: '/unauthorized', status: 403 },
{ url: '/not-found', status: 404 },
{ url: '/error', status: 500 }
]
// (optional) Add some dynamic page URLs, like `/items/123`.
// Query the database for the list of items.
const { status, content } = JSON.parse(await download(`https://example.com/api/items`))
if (status !== 200) {
throw new Error('Couldn\'t load items')
}
// Add item page URLs.
const items = JSON.parse(content)
return pages.concat(items.map(item => `/items/${item.id}`))
}
The snapshot()
function snapshots the list of pages
to .html
files and then the upload()
function uploads them to the cloud (in this case to Amazon S3). The snapshot()
function also snapshots a special base.html
page which is an empty page that should be used as the "fallback", i.e. the cloud should respond with base.html
file contents when the file for the requested URL is not found: in this case base.html
will see the current URL and perform all the routing neccessary on the client side to show the correct page. If the snapshot()
function isn't passed the list of pages
to snapshot (e.g. if pages
argument is null
or undefined
) then it will only snapshot base.html
. The static website will work with just base.html
, the only point of snapshotting other pages is for Google indexing.
If the website is hosted on Amazon S3 then the IAM policy should allow:
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Action": [
"s3:ListBucket"
],
"Resource": [
"arn:aws:s3:::<bucket-name>"
]
},
{
"Effect": "Allow",
"Action": [
"s3:PutObject",
"s3:DeleteObject"
],
"Resource": [
"arn:aws:s3:::<bucket-name>/*"
]
}
]
}
The snapshotting approach works not only for classical web "documents" (a blog, a book, a portfolio, a showcase) but also for dynamic applications. Consider an online education portal where users (students) can search for online courses and the prices are different for each user (student) based on their institution. Now, an online course description itself is static (must be indexed by Google) and the actual course price is dynamic (must not be indexed by Google).
load
s for the course page: one for static data (which runs while snapshotting) and another for dynamic data (which runs only in a user's web browser).import React from 'react'
export default function CoursePage() {
...
}
CoursePage.load = [
async ({ dispatch }) => await dispatch(loadCourseInfo()),
{
load: async ({ dispatch }) => await dispatch(loadCoursePrice()),
client: true
}
]
In this example loadCourseInfo()
will be executed while snapshotting and therefore course info will be present on the snapshotted page. But course price won't be present on the snapshotted page because it's being loaded inside the client: true
load
that only gets called in a user's web browser. When a user opens the course page in his web browser it will show the snapshotted page with course info with a "loading" spinner on top of it as it is loading the course price. After the course price has been loaded the "loading" spinner disappears and the user sees the fully rendered course page.
To set a custom HTTP response status code for a specific route set the status
property of that route.
export default [{
path: '/',
Component: Application,
children: [
{ Component: Home },
{ path: 'blog', Component: Blog },
{ path: 'about', Component: About },
{ path: '*', Component: PageNotFound, status: 404 }
]
}]
<title/>
and <meta/>
tagsTo add <title/>
and <meta/>
tags to a page, define meta: (...) => object
static function on a page component:
function Page() {
return (
<section>
...
</section>
)
}
Page.load = async ({ params }) => {
return {
props: {
bodyBuilder: await getBodyBuilderInfo(params.id)
}
}
}
Page.meta = ({ props, useSelector, usePageStateSelector }) => {
const notificationsCount = useSelector(state => state.user.notificationsCount)
const { bodyBuilder } = props
return {
// `<meta property="og:site_name" .../>`
siteName: 'International Bodybuilders Club',
// Webpage `<title/>` will be replaced with this one
// and also `<meta property="og:title" .../>` will be added.
title: `(${notificationsCount}) ${bodyBuilder.name}`,
// `<meta property="og:description" .../>`
description: 'Muscles',
// `<meta property="og:image" .../>`
// https://iamturns.com/open-graph-image-size/
image: 'https://cdn.google.com/logo.png',
// Objects are expanded.
//
// `<meta property="og:image" content="https://cdn.google.com/logo.png"/>`
// `<meta property="og:image:width" content="100"/>`
// `<meta property="og:image:height" content="100"/>`
// `<meta property="og:image:type" content="image/png"/>`
//
image: {
_: 'https://cdn.google.com/logo.png',
width: 100,
height: 100,
type: 'image/png'
},
// Arrays are expanded (including arrays of objects).
image: [{...}, {...}, ...],
// `<meta property="og:audio" .../>`
audio: '...',
// `<meta property="og:video" .../>`
video: '...',
// `<meta property="og:locale" content="ru_RU"/>`
locale: state.user.locale,
// `<meta property="og:locale:alternate" content="en_US"/>`
// `<meta property="og:locale:alternate" content="fr_FR"/>`
locales: ['ru_RU', 'en_US', 'fr_FR'],
// `<meta property="og:url" .../>`
url: 'https://google.com/',
// `<meta property="og:type" .../>`
type: 'profile',
// `<meta charset="utf-8"/>` tag is added automatically.
// The default "utf-8" encoding can be changed
// by passing custom `charset` parameter.
charset: 'utf-16',
// `<meta name="viewport" content="width=device-width, initial-scale=1.0"/>`
// tag is added automatically
// (prevents downscaling on mobile devices).
// This default behaviour can be changed
// by passing custom `viewport` parameter.
viewport: '...',
// All other properties will be transformed directly to
// either `<meta property="{property_name}" content="{property_value}/>`
// or `<meta name="{property_name}" content="{property_value}/>`
}
})
The parameters of a meta
function are:
props
— Any props
returned from the load()
function.useSelector
— A hook that could be used to access Redux state.usePageSelector
— A hook that could be used to access "page-specific" Redux state.If the root route component also has a meta
function, the result of the page component's meta
function will be merged on top of the result of the root route component's meta
function.
The meta
will be applied on the web page and will overwrite any existing <meta/>
tags. For example, if there were any <meta/>
tags written by hand in index.html
template then all of them will be dicarded when this library applies its own meta
, so any "base" <meta/>
tags should be moved from the index.html
file to the root route component's meta
function:
function App({ children }) {
return (
<div>
{children}
</div>
)
}
App.meta = ({ useSelector }) => {
return {
siteName: 'WebApp',
description: 'A generic web application',
locale: 'en_US'
}
}
The meta
function behaves like a React "hook": <meta/>
tags will be updated if the values returned from useSelector()
function calls do change.
In some advanced cases, the meta()
function might need to access some state that is local to the page component and is not stored in global Redux state. That could be done by setting metaComponentProperty
property of a page component to true
and then rendering the <Meta/>
component manually inside the page component, where any properties passed to the <Meta/>
component will be available in the props
of the meta()
function.
function Page({ Meta }) {
const [number, setNumber] = useState(0)
return (
<>
<Meta number={number}/>
<button onClick={() => setNumber(number + 1)}>
Increment
</button>
</>
)
}
Page.metaComponentProperty = true
Page.meta = ({ props }) => {
return {
title: String(props.number)
}
}
If the application would like to listen to navigation changes — for example, to report the current location to Google Analytics — it might supply onPageRendered()
function option to the client-side render()
function:
import { render } from 'react-pages/client'
await render(settings, {
// Runs on the initial page load, and then after each navigation to some page.
onPageRendered({
// Relative URL.
url,
// `location` object.
location,
// URL pathname parameters.
params,
// (optional) If `getLoadContext()` function is defined,
// this will be the result of calling that function.
context,
// Redux `dispatch()` function.
dispatch,
// Mimicks Redux `useSelector()` hook.
useSelector
}) {
if (process.env.NODE_ENV === 'production') {
// Set up Google Analytics via `gtag`.
gtag('config', configuration.googleAnalytics.id, {
// Anonymize IP for all Google Analytics events.
// https://developers.google.com/analytics/devguides/collection/gtagjs/ip-anonymization
// This makes Google Analytics compliant with GDPR:
// https://www.jeffalytics.com/gdpr-ip-addresses-google-analytics/
'anonymize_ip': true,
// Google Analytics can get users' "Demographics" (age, sex)
// from "3rd party" data sources if "Advertising Reporting Features"
// are enabled in Google Analytics admin panel.
// Such data could be considered "Personal Identifiable Information"
// which falls under the terms of GDPR.
// There's also "Remarketing" feature that could also
// fall under the terms of GDPR.
'allow_display_features': false,
// Specifies what percentage of users should be tracked.
// This defaults to 100 (no users are sampled out) but
// large sites may need to use a lower sample rate
// to stay within Google Analytics processing limits.
// 'sample_rate': 1,
// Report "page view" event to Google Analytics.
// https://stackoverflow.com/questions/37655898/tracking-google-analytics-page-views-in-angular2
// https://developers.google.com/analytics/devguides/collection/gtagjs/single-page-applications
'page_path': location.pathname
})
}
}
})
onPageRendered()
function option only gets called after the navigation has finished. It also gets called at the initial page load when the user opens the website.
If navigation start events are of interest, one may supply onBeforeNavigate()
function option, which is basically the same as onPageRendered()
but runs before the navigation has started.
Inside a load
function: use the location
parameter.
Anywhere in a React component: use useLocation()
hook.
import { useLocation } from 'react-pages'
const location = useLocation()
One edge case is when an application is architectured in such a way that:
Component
handles a certain route.
Item
page component handles /items/:id
URLs./items/1
to /items/2
via a "Related items" links section.Component
has a .load()
function that puts data in Redux state.
Item
page component first fetch()
es item data and then puts it in Redux state via dispatch(setItem(itemData))
.Component
uses the loaded data from the Redux state.
Item
page component gets the item data via useSelector()
and renders it on the page.In the above example, when a user navigates from item A
to item B
, there's a short timeframe of inconsistency:
A
page renders item A
data from Redux state.B
.B
data is fetched and put into Redux state.A
page is still rendered. useSelector()
on it gets refreshed with the new data from Redux state and now returns item B
data while still being on item A
page.B
page is rendered. useSelector()
on it returns item B
data.In the steps above, there's a short window of data inconsistency at the step before the last one: the page component experiences a data update from item A
to item B
.
If the page component doesn't account for a possibility of such change, it may lead to tricky bugs. For example, each item could have a list of reviews and the page component can be showing one review at a time. To do that, the page component introduces its own local state — a shownReviewIndex
state variable — and then shows the review via <Review review={item.reviews[shownReviewIndex]}/>
. In such case, when a user navigates from item A
that has some reviews to item B
that has no reviews, the review
property value is gonna be undefined
which would break the <Review/>
component which would crash the whole page and display a blank screen to the user.
To work around such issues, any potentially unexpected updates to Redux state should be minimized inside page components. To do that, this package provides a parameter in the settings called pageStateReducerNames: string[]
and a set of two hooks that're meant to replace the standard useSelector()
hook for use in page components.
The standard route configuration usually has a "root" route and all other routes that branch out from it:
export default [{
path: "/",
Component: App,
children: [
{ path: 'not-found', Component: NotFound, status: 404 },
{ path: 'error', Component: Error, status: 500 },
...
]
}]
The pageStateReducerNames
parameter is specified in the settings and it should be a list of all Redux state keys that get modified from inside page .load()
functions:
export default {
routes,
reducers,
pageStateReducerNames: ['orderPage']
}
Those state keys become inaccessible via the standard useSelector()
hook and should be accessed via either usePageStateSelector()
hook or usePageStateSelectorOutsideOfPage()
hook, depending on where in the route component chain the hook is being called.
Using the hook somewhere inside a page component (or in its children):
import { usePageStateSelector } from 'react-pages'
export default function Page() {
// const order = useSelector(state => state.orderPage.order)
const order = usePageStateSelector('orderPage', state => state.orderPage.order)
...
}
Using the hook somewhere outside a page component:
export default function Page() {
// const order = useSelector(state => state.orderPage.order)
const order = usePageStateSelectorOutsideOfPage('orderPage', state => state.orderPage.order)
...
}
To access "page state" properties in page .meta()
functions, there's a parameter called usePageStateSelector
that work analogous to the usePageStateSelector()
exported hook.
useNavigationLocation
hook returns "navigation location" — the last location (so far) in the navigation chain:
Inside a load
function: you already know what route it is.
Anywhere in a React component: use useRoute()
hook.
import { useRoute } from 'react-pages'
const route = useRoute()
A route
has:
path
— Example: "/users/:id"
params
— Example: { id: "12345" }
location
— Same as useLocation()
To navigate to a different URL inside a React component, use useNavigation()
hook.
import { useNavigate, useRedirect } from 'react-pages'
// Usage example.
// * `navigate` navigates to a URL while adding a new entry in browsing history.
// * `redirect` does the same replacing the current entry in browsing history.
function Page() {
const navigate = useNavigate()
// const redirect = useRedirect()
const onClick = (event) => {
navigate('/items/1?color=red')
// redirect('/somewhere')
}
}
One could also pass a load: false
parameter in options
when calling navigate(location, options)
or redirect(location, options)
to skip the .load()
function of the target page.
One could also pass a navigation
parameter in options
when calling navigate(location, options)
or redirect(location, options)
to pass an additional parameter called navigationContext
to the .load()
function of the target page.
If the current location URL needs to be updated while still staying at the same page (i.e. no navigation should take place), then instead of redirect(location, options)
one should call locationHistory.replace(location)
.
import { useLocationHistory } from 'react-pages'
function Page() {
const locationHistory = useLocationHistory()
// * `locationHistory.push(location)`
// * `locationHistory.replace(location)`
// * `locationHistory.go(-1)`
const onSearch = (searchQuery) => {
dispatch(
locationHistory.replace({
pathname: '/'
query: {
searchQuery
}
})
)
}
return (
<input onChange={onSearch}/>
)
}
To go "Back" or "Forward", one could use useGoBack()
or useGoForward()
hooks.
import { useLocationHistory } from 'react-pages'
function Page() {
const goBack = useGoBack()
const goForward = useGoForward()
return (
<button onClick={() => goBack()}>
Back
</button>
)
}
Both goBack()
and goForward()
functions accept an optional delta
numeric argument that tells how far should it "go" in terms of the number of entries in the history. The default delta
is 1
.
If someone prefers to interact with found
router
directly then it could be accessed at any page: either as a router
property of a page component or via useRouter
hook.
import React from 'react'
import { useRouter } from 'react-pages'
export default function Component() {
const { match, router } = useRouter()
...
}
In places where React hooks can't be used, there're dispatch()
-able action creator alternatives to each navigation type. Those action creators are exported from this package: import { goto } from "react-pages"
.
dispatch(goto())
→ useNavigate()()
dispatch(redirect())
→ useRedirect()()
dispatch(pushLocation())
→ useLocationHistory().push()
dispatch(replaceLocation())
→ useLocationHistory().replace()
dispatch(goBack())
→ useGoBack()()
dispatch(goBackTwoPages())
→ 2x
useGoBack()()
dispatch(goForward())
→ useGoForward()()
import {
// These hooks can only be used in "leaf" route components.
useBeforeNavigateToAnotherPage,
useBeforeRenderAnotherPage,
useAfterRenderedThisPage,
// These hooks can only be used in a "root" route component.
useBeforeRenderNewPage,
useAfterRenderedNewPage
} from 'react-pages'
function Page() {
useBeforeNavigateToAnotherPage(({ location, route, params, instantBack, navigationContext }) => {
// Navigation to another page is about to start.
// It will start `.load()`ing another page.
// This is an appropriate time to snapshot the current page state.
})
useBeforeRenderAnotherPage(({ location, route, params, instantBack, navigationContext }) => {
// Navigation to another page is about to conclude.
// That other page has already been `.load()`ed and is about to be rendered.
// The current page is about to be unmounted.
})
useAfterRenderedThisPage(({ location, route, params, instantBack, navigationContext }) => {
// This page is currently rendered on screen.
// Is triggered at the initial render of the app and then after each navigation.
})
return (
<section>
<h1>
Page Title
</h1>
</section>
)
}
function Root({ children }) {
useBeforeRenderNewPage((newPage, prevPage?) => {
// Will render a new page on screen.
//
// const { location, route, params, instantBack, navigationContext } = newPage
})
useAfterRenderedNewPage((newPage, prevPage?) => {
// Has rendered a new page on screen.
// The initial render of the app also counts as "after rendered new page".
//
// const { location, route, params, instantBack, navigationContext } = newPage
})
return (
<main>
{children}
</main>
)
}
For each page being rendered stats are reported if stats()
parameter is passed as part of the rendering service settings.
{
...
stats({ url, route, time: { load } }) {
if (load > 1000) { // in milliseconds
db.query('insert into server_side_rendering_stats ...')
}
}
}
The arguments for the stats()
function are:
url
— The requested URL (without the protocol://host:port
part)route
— The route path (e.g. /user/:userId/post/:postId
)time.load
— The time for executing all load
s.Rendering a complex React page (having more than 1000 components) takes about 30ms (as of 2017).
{
...
stats({ url, route, time: { initialize, load, total } }) {
statsd.increment('count')
statsd.timing('initialize', initialize)
statsd.timing('load', load)
statsd.timing('total', total)
if (total > 1000) { // in milliseconds
db.query('insert into server_side_rendering_stats ...')
}
}
}
Where the metrics collected are
count
— rendered pages countinitialize
— server side initialize()
function execution time (if defined)load
— page loading timetime
- total time spent loading and rendering the pageSpeaking of StatsD itself, one could either install the conventional StatsD + Graphite bundle or, for example, use something like Telegraf + InfluxDB + Grafana.
Telegraf starter example:
# Install Telegraf (macOS).
brew install telegraf
# Generate Telegraf config.
telegraf -input-filter statsd -output-filter file config > telegraf.conf
# Run Telegraf.
telegraf -config telegraf.conf
# Request a webpage and see rendering stats being output to the terminal.
Webpack's Hot Module Replacement (aka Hot Reload) provides the ability to "hot reload" React components.
To enable hot reload for React components, one could use a combination of react-refresh/babel
Babel plugn and react-refresh-webpack-plugin
Webpack plugin.
npm install @pmmmwh/react-refresh-webpack-plugin react-refresh --save-dev
{
"presets": [
"react",
["env", { modules: false }]
],
"plugins": [
// React "Fast Refresh".
"react-refresh/babel"
]
}
import ReactRefreshWebpackPlugin from '@pmmmwh/react-refresh-webpack-plugin'
export default {
mode: 'development',
...,
plugins: [
new ReactRefreshWebpackPlugin(),
...
]
}
Then start webpack-dev-server
.
webpack serve --hot --module-strict-export-presence --stats-errors --stats-error-details true --config path-to-webpack.config.js"
P.S.: Hot reload won't work for page component's load
/meta
functions, so when a load
/meta
function code is updated, the page has to be refreshed in order to observe the changes.
Webpack's Hot Module Replacement (aka Hot Reload) provides the ability to "hot reload" Redux reducers and Redux action creators.
Enabling "hot reload" for Redux reducers and Redux action creators is slightly more complex and requires some additional "hacky" code. The following line:
import * as reducers from './redux/reducers.js'
Should be replaced with:
import * as reducers from './redux/reducers.with-hot-reload.js'
And a new file called reducers.with-hot-reload.js
should be created:
import { updateReducers } from 'react-pages'
import * as reducers from './reducers.js'
export * from './reducers.js'
if (import.meta.webpackHot) {
import.meta.webpackHot.accept(['./reducers.js'], () => {
updateReducers(reducers)
})
}
And then add some additional code in the file that calls the client-side render()
function:
import { render } from 'react-pages/client'
import settings from './react-pages.js'
export default async function() {
const { enableHotReload } = await render(settings)
if (import.meta.webpackHot) {
enableHotReload()
}
}
websocket()
helper sets up a WebSocket connection.
import { render } from 'react-pages/client'
import websocket from 'react-pages/websocket'
render(settings).then(({ store }) => {
websocket({
host: 'localhost',
port: 80,
// secure: true,
store,
token: localStorage.getItem('token')
})
})
If token
parameter is specified then it will be sent as part of every message (providing support for user authentication).
WebSocket will autoreconnect (with "exponential backoff") emitting open
event every time it does.
After the websocket()
call a global websocket
variable is created exposing the following methods:
listen(eventName, function(event, store))
onOpen(function(event, store))
– is called on open
eventonClose(function(event, store))
– is called on close
eventonError(function(event, store))
– is called on error
event (close
event always follows the corresponding error
event)onMessage(function(message, store))
send(message)
close()
The store
argument can be used to dispatch()
Redux "actions".
websocket.onMessage((message, store) => {
if (message.command) {
switch (message.command) {
case 'initialized':
store.dispatch(connected())
return console.log('Realtime service connected', message)
case 'notification':
return alert(message.text)
default:
return console.log('Unknown message type', message)
}
}
})
websocket.onOpen((event, store) => {
websocket.send({ command: 'initialize' })
})
websocket.onClose((event, store) => {
store.dispatch(disconnected())
})
The global websocket
object also exposes the socket
property which is the underlying robust-websocket
object (for advanced use cases).
As for the server-side counterpart I can recommend using uWebSockets
import WebSocket from 'uws'
const server = new WebSocket.Server({ port: 8888 })
const userConnections = {}
server.on('connection', (socket) => {
console.log('Incoming WebSocket connection')
socket.sendMessage = (message) => socket.send(JSON.stringify(message))
socket.on('close', async () => {
console.log('Client disconnected')
if (socket.userId) {
userConnections[socket.userId].remove(socket)
}
})
socket.on('message', async (message) => {
try {
message = JSON.parse(message)
} catch (error) {
return console.error(error)
}
try {
switch (message.command) {
case 'initialize':
// If a user connected (not a guest)
// then store `userId` for push notifications.
// Using an authentication token here
// instead of simply taking `userId` out of the `message`
// because the input can't be trusted (could be a hacker).
if (message.userAuthenticationToken) {
// (make sure `socket.userId` is a `String`)
// The token could be a JWT token (jwt.io)
// and `authenticateUserByToken` function could
// check the token's authenticity (by verifying its signature)
// and then extract `userId` out of the token payload.
socket.userId = authenticateUserByToken(message.userAuthenticationToken)
if (!userConnections[socket.userId]) {
userConnections[socket.userId] = []
}
userConnections[socket.userId].push(socket)
}
return socket.sendMessage({
command: 'initialized',
data: ...
})
default:
return socket.sendMessage({
status: 404,
error: `Unknown command: ${message.command}`
})
}
} catch (error) {
console.error(error)
}
})
})
server.on('error', (error) => {
console.error(error)
})
// Also an HTTP server is started and a REST API endpoint is exposed
// which can be used for pushing notifications to clients via WebSocket.
// The HTTP server must only be accessible from the inside
// (i.e. not listening on an external IP address, not proxied to)
// otherwise an attacker could push any notifications to all users.
// Therefore, only WebSocket connections should be proxied (e.g. using NginX).
httpServer().handle('POST', '/notification', ({ to, text }) => {
if (userConnections[to]) {
for (const socket of userConnections[to]) {
socket.sendMessage({
command: 'notification',
text
})
}
}
})
Feature: upon receiving a message
(on the client side) having a type
property defined such a message
is dispatch()
ed as a Redux "action" (this can be disabled via autoDispatch
option). For example, if { type: 'PRIVATE_MESSAGE', content: 'Testing', from: 123 }
is received on a websocket connection then it is automatically dispatch()
ed as a Redux "action". Therefore, the above example could be rewritten as
// Server side (REST API endpoint)
socket.sendMessage({
type: 'DISPLAY_NOTIFICATION',
text
})
// Client side (Redux reducer)
function reducer(state, action) {
switch (action.type) {
case 'DISPLAY_NOTIFICATION':
return {
...state,
notifications: state.notifications.concat([action.text])
}
default:
return state
}
}
If the application is being built with a bundler (most likely Webpack) and Server-Side Rendering is enabled then make sure to build the server-side code with the bundler too so that require()
calls for assets (images, styles, fonts, etc) inside React components don't break (see universal-webpack, for example).
Code splitting is supported. See README-CODE-SPLITTING
When server-side rendering is enabled, one can pass a getInitialState()
function as an option to the server-side rendering function.
That function should return an object — the initial Redux state — based on its parameters:
cookies
— Cookies JSON object.headers
— HTTP request headers JSON object.locales
— A list of locales parsed from Accept-Language
HTTP header and ordered by most-preferred ones first.For example, the application could set defaultLocale
initial state property based on the Accept-Language
HTTP header value, or it could set device
initial state property based on the User-Agent
HTTP header value.
Suppose there's a "forum" web application having <Thread/>
pages with URLs like /thread/:id
, and one thread could link to another thread. When a user navigates to a thread and clicks a link to another thread there, a navigation transition will start: the "current" thread page will still be rendered while the "new" thread page is loading. The issue is that both these URLs use the same Redux state subtree, so, after the "new" thread data has been loaded, but before the "new" thread page is rendered, the "current" thread page is gonna re-render with the updated Redux state subtree.
If a thread page doesn't use useState()
, then it wouldn't be an issue. But if it does, it could result in weird bugs. For example, if a <Thread/>
page had a fromIndex
state variable that would control the first shown comment index, then, when the "current" page is re-rendered with the updated Redux state subtree for the "new" thread, the fromIndex
might exceed the "new" thread's comments count resulting in an "out of bounds" exception and the page breaking.
To prevent such bugs, for all routes that could link to the same route, their page components should be rendered in a wrapper with a key
corresponding to all URL parameters:
function Thread() {
const [fromIndex, setFromIndex] = useState(0)
return ...
}
Thread.meta = ...
Thread.load = async ({ dispatch, params }) => {
await dispatch(loadThreadData(params.id))
}
// This is a workaround for cases when navigating from one thread
// to another thread in order to prevent bugs when the "new" thread data
// has already been loaded and updated in Redux state but the "old" thread
// page is still being rendered.
// https://github.com/4Catalyzer/found/issues/639#issuecomment-567084189
export default function Thread_() {
const thread = useSelector(state => state.thread.thread)
return <Thread key={thread.id}/>
}
Thread_.meta = Thread.meta
Thread_.load = Thread.load
At some point in time this README became huge so I extracted some less relevant parts of it into README-ADVANCED (including the list of all possible settings and options). If you're a first timer then just skip that one - you don't need it for sure.
FAQs
A simple toolkit for building a React/Redux application: routing, loading page data, fetching data over HTTP, (optional) server-side rendering, etc.
We found that react-pages demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 1 open source maintainer collaborating on the project.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
Security News
Socket's package search now displays weekly downloads for npm packages, helping developers quickly assess popularity and make more informed decisions.
Security News
A Stanford study reveals 9.5% of engineers contribute almost nothing, costing tech $90B annually, with remote work fueling the rise of "ghost engineers."
Research
Security News
Socket’s threat research team has detected six malicious npm packages typosquatting popular libraries to insert SSH backdoors.