The Publishing Project

One of the things I’ve always liked about WordPress is its flexibility. We can extend WordPress and create pretty much any type of content that we need for specific projects.

We can choose whether to build it inside a theme or a plugin. For the most part I would recommend building it in a plugin so that we will retain the capability even if we switch themes.

Like all plugins we first declare a preamble that looks like this. This is the block that makes it a plugin that we can load and use.

<?php
   /*
   Plugin Name: Awesomeness Creator
   Plugin URI: https://example.com
   description: a plugin to create awesomeness and spread joy
   Version: 1.0
   Author: Mr. Awesome
   Author URI: https://site.com
   License: GPL2
   */
?>

The actual meat of the plugin is the custom post type registration. As with all WordPress related code, it has two parts: a callback function and a hook that tells WordPress what to do with the callback.

<?php
function rivendellweb_custom_book_type() {
    $args = array(
      'public'       => true,
      'show_in_rest' => true,
      'rest_base'    => 'books',
      'label'        => 'Books'
    );
    register_post_type( 'book', $args );
}
add_action( 'init', 'rivendellweb_custom_book_type' );
?>

There are two arguments that are important when working with REST API routes.

show_in_rest tells WordPress that we want this custom post type to show in the REST API. When I activate the plugin it adds 4 additional books-related routes to the list of APIs available

rest_base allows us to rewrite the name of the route in the REST API. The default is the same name as the custom type but there may be cases where we want a different name. In our example I chose books instead of book (singular) for the name of the route.

We can also create one or more taxonomies for our custom post types and, with the show_in_rest attribute, we can use it from the REST API.

Because we’ve used a custom name in the route with base_rest we have to rewrite the taxonomy to match using the rewrite attribute in the custom taxonomy arguments.

The custom taxonomy declaration looks like this

<?php
function rivendellweb_custom_book_genre_taxonomy() {
  $labels => array(
    'name'          => __x('Genres'),
    'singular_name' => __x('Genre', 'taxonomy singular name'),
    'search_items'  => __('Search Genres'),
    'edit_item'     => __('Edit Genre'),
    'add_new_item'  => __('Add New Genre')
  );

  $args = array(
    'labels'       => $labels,
    'show_in_rest' => true,
    'hierarchical' => true,
    'query_var'    => true,
    'rewrite'      => array(
      'slug' => 'books/genre',
      'with_front' => false
    )
  );
  register_taxonomy( 'genre', 'book', $args );
}
add_action( 'init',
  'rivendellweb_custom_book_genre_taxonomy', 0 );

With this functionality plugin installed we’ve created a new custom post type, added an interface to it on the admin UI, and made sure we can access it through the REST API.

In the last posts we created a CRUD system for authenticated WordPress requests but it’s not complete. It currently only deals with the post content, it doesn’t provide an easy way to paginate content, and it doesn’t provide for how to access other parts of a WordPress site or app.

This post will discuss solutions to these problems.

Embedding content related to the post

When we load the data from the posts REST endpoint we get references to the post assets like featured image, author, and comments.

This is good when we’re exploring the API but it becomes troublesome when we are building the content out for displaying it to the user. We would have to make additional requests for these assets and we’re not guaranteed that they exist so these additional requests and delays may be for nothing.

Instead we can leverage the API and use the _embed query parameter to include the additional post resources when we fetch the posts. This makes the response larger but it guarantees that we will have all the data available to build post listings and individual posts.

TO make the embedded assets available to individual posts, we need to modify the init() function to add the _embed: "" parameter to the get Axios call

The modified code looks like this

export function init(event) {
  if (event) {
    event.preventDefault();
  }

  .get(state.restUrl + "wp/v2/posts/", {
    params: {
      _embed: "",
      // Set number of posts to get
      per_page: 10,
    }
  })
}

This code will embed all associate assets to each post on the response, making it easier to create posts the match what we get with a WordPress theme.

Paginating content for navigation

By default, the WordPress REST API will return ten items per request. We can change that using the per_page parameter to change the number of items that the API returns up to one hundred.

Creating the pages

But in and of itself this is not enough. Using per_page will always return the same data. We need to tell WordPress what page of the content we want.

The way to do it is to combine per_page, that will give us the number of items that we want the API to return, and page that provides the offset where to start the count of items to return.

For example the following request will return the second page of 5 items from the site’s REST API.

/wp-json/wp/v2/posts/?per_page=5&page=2

Both parameters are optional.

Leveraging X-WP-TotalPages

So we know how to create pages of content but how do we make sure that we don’t go over the last page?

WordPress’s REST API provides two custom headers: X-WP-Total that gives you the total number of the type’s items (post, pages, etc) in the collection and X-WP-TotalPages that gives the total number of pages available given the number of items per page we specify.

Using X-WP-TotalPages we can build page navigation links and we can build links to each page.

Accessing other elements of a WordPress site

So far we’ve only worked with posts and their embedded content but many other items make up a WordPress application.

The following table, taken from REST API Handbook Reference shows you the default routes available through the API.

Default endpoints available on the WordPress REST API

Resource	Base Route
Posts	/wp/v2/posts
Post Revisions	/wp/v2/posts/<id>/revisions
Categories	/wp/v2/categories
Tags	/wp/v2/tags
Pages	/wp/v2/pages
Page Revisions	/wp/v2/pages/<id>/revisions
Comments	/wp/v2/comments
Taxonomies	/wp/v2/taxonomies
Media	/wp/v2/media
Users	/wp/v2/users
Post Types	/wp/v2/types
Post Statuses	/wp/v2/statuses
Settings	/wp/v2/settings
Themes	/wp/v2/themes
Search	/wp/v2/search

This table does not include API routes added by plugins or generated outside the core API. Your overall API route table will certainly look different.

So far we’ve installed JWT in our WordPress instance and created a basic infrastructure for the app.

This post will take care of the rest of the CRUD system, we’ll create/save a post, update it and delete it.

All the functions we’ll discuss in this post require the user to be authenticated and will not work if there is no authentication token stored in a cookie on the user’s machine. A later iteration of this code may do better error handling.

Create

Creating a new post means, essentially, saving the content of a form into the database.

The code completes the following functions:

1. Gets a reference to the cookie storing the JWT authentication cookie
2. Writes a POST HTTP request to insert the data into the database and create the post
3. Does any cleanup necessary after the post was created. Some of those things may include
   • Clearing the editor
   • Notifying the user of the successful post creation
4. Catch any errors that are not related to the promise code in the catch statement

export function save(post) {
  const token = Cookies.get(state.token); // 1
  // Save post
  axios({
    method: "post",
    url: state.restUrl + "wp/v2/posts",
    data: post,
    headers: {
      "Content-Type": "application/json",
      Authorization: "Bearer " + token
    }
  }) // 2
    .then(response => {
      // do something
  }) // 3
    .catch(error => {
      console.error(error);
    }); // 4
}

Update

The update function is an almost exact copy of the save() function discussed in the previous section.

The HTTP method we use is different, rather than POST, we use PUT to update the content.

The request is made to a specific post indicated by ID rather than the general posts endpoint.

export function update(post) {
  const token = Cookies.get(state.token); // 1
  axios({
    method: "put",
    url: state.restUrl + "wp/v2/posts/" + post.id,
    data: post,
    headers: {
      "Content-Type": "application/json",
      Authorization: "Bearer " + token
    }
  }) // 2
    .then(response => {
      // Do something after the update
  }) // 3
    .catch(error => {
      console.error(error);
    }); // 4
}

Delete

The delete function is the most delicate operation to perform. Once the data is gone it’s impossible to recover it from WordPress unless you have backups.

The function will:

Create and display a prompt to confirm you want to delete the post

Get a reference to the cookie holding our JWT credentials

If we confirmed the removal, the function will create a delete request for the specified post

The then() portion of the promise handles any cleanup or post-deletion activities we need to do like showing the updated list of posts.

As usual, the catch() block will handle any errors that happen in our code.

export function deletePost(post) {
  const confirm = window.confirm(`Delete Post: "${post.title.rendered}"`); // 1
  const token = Cookies.get(state.token); // 2

  // If user confirms delete then proceed
  if (true === confirm) {
    axios({
      method: "delete",
      url: state.restUrl + "wp/v2/posts/" + post.id,
      headers: {
        "Content-Type": "application/json",
        Authorization: "Bearer " + token
      }
    }) // 3
      .then(response => {
        // Display the list of posts
        // without the post we deleted
      })
      .catch(error => {
        console.error(error);
      }); // 4
  }
}

And that’s it. We now have a very basic CRUD application that will talk to a WordPress installation with JWT support enabled.

The code can certainly be enhanced, either by incorporating it into a framework that will make it easier to create individual components or by using a templating engine like Handlebars or Nunjucks.

There are other items related to WordPress and its REST API that we’ll discuss in the next post.

The whole idea of the WordPress REST API is to allow developers to use whatever tools they choose to create front-ends for WordPress systems. We’re no longer limited to PHP and the Gutenberg editor and the possibilities are endless.

This post will cover authentication using JWT, listing pages of posts, viewing individual posts, and the basic CRUD operations: create, update, and delete. We covered setting up JWT authentication in WordPress in Adding JWT to WordPress

We will write this using ES Modules, so we’ll have to build a quick WebPack build system to convert it into something that works in browsers.

The build system

Because we will be working with modules we need to write a quick WebPack build script that will use Babel to convert this into something that browsers will read without having to inline scripts with type=module.

const path = require("path");
const TerserPlugin = require('terser-webpack-plugin');

module.exports = (env, arg) => {
  config = {
    entry: ["./src/index.js"],
    output: {
      filename: "bundle.min.js",
      path: path.resolve(__dirname, "dist")
    },
    devServer: {
      port: 3000,
      https: true,
      contentBase: path.join(__dirname, "dist")
    },
    module: {
      rules: [
        {
          test: /\.js$/,
          exclude: /(node_modules)/,
          use: {
            loader: "babel-loader",
            options: {
              presets: ["@babel/preset-modules"],
            }
          }
        }
      ]
    },
    optimization: {
      minimize: true,
      minimizer: [new TerserPlugin()],
    }
  };
  if (arg.mode === "development") {
    config.devtool = "source-map";
  }
  return config;
};

We then install the Node modules that we’ll need for WebPack to run.

The only module I’ll mention is @babel/preset-modules. It is an improvement over preset-env in that it fixes additional problems that would cause bundled code to be larger than necessary.

npm i -D @babel/cli \
@babel/core \
@babel/preset-modules \
babel-loader \
terser-webpack-plugin \
webpack webpack-cli \
webpack-dev-server

We will also install the packages that we’ll use directly in the code we write.

npm i axios \
form-urlencoded \
js-cookie

axios is the package that we’ll use to handle fetching data from the server.

form-urlencoded will serialize the data we send to the server

js-cookie provides a programmatic way to set and read cookies. We’ll store the JSON Web Token in a cookie that we’ll read in different parts of the code.

Create Initial State

We will create a sate constant where we’ll set initial values for our authentication, and data storage for the values we get from the API.

We also create a function to add elements to the state. This is a very simplified version of what a state management library would do and, if we use React or Vue it would be unnecessary.

// Set state object with values that are changed programatically
const state = {
  loggedIn: false,
  restUrl: "http://localhost:8888/wordpress/wp-json/",
  token: "wp-token",
};

const setState = (toSet, newValue) => {
  state[toSet] = newValue;
};

export { state, setState };

Authenticate

To authenticate we first import all the packages that we’ll use: Axios, js-cookie, and form-urlencoded. We also import our state script.

// Import libraries
import axios from "axios";
import Cookies from "js-cookie";
import formurlencoded from "form-urlencoded";

// Import configs
import { state, setState } from "../state";

We then check if the cookie with our JWT token exists, meaning that the user is authenticated.

If it does then we initiate the login process and display the log out button.

If we’re not logged in then we display the login form and initiate the logout process.

export function init() {
  if (Cookies.get(state.token) === undefined) {
    logout();
    initLogin();
  } else {
    login();
    initLogout();
  }
}

The code makes the following assumptions:

• We have a login form where the user will enter his username and password
• On successful login, the form will be replaced with a logout button

The code proceeds as follows:

1. Capture the username and password values from the form
2. Use Axios to make a POST request to the JWT token endpoint with the urlencoded credentials as the payload data
3. If we get back a 200 response code, and only then, we set a cookie with the token as the value
4. We call the init() function
5. If we do not receive a 200 code there was a problem and we tell the user that we couldn’t log her in
6. If there was an error with the promise, the catch() block is called and we tell the user what the error was

export function initLogin() {
  getEl(loginForm).addEventListener("submit", event =>
    event.preventDefault();
    const creds = {
      username: document.getElementById(username).value,
      password: document.getElementById(password).value
    }; // 1

    // Make request to authenticate
    axios({
      method: "post",
      url: state.restUrl + "jwt-auth/v1/token",
      data: formurlencoded(creds),
      headers: {
        "Content-Type": "application/x-www-form-urlencoded"
      }
    }) // 2
      .then(response => {
        if (200 === response.status) {
          Cookies.set(state.token, response.data.token, {
            expires: 1,
            secure: true
          }); // 3
          init(); // 4
        } else {
          // Executed when response code is not 200
          alert("Login failed, please check credentials and try again!");
        }
      }) // 5
      .catch(error => {
        // Also log the actual error
        console.error(error);
      }); // 6
  });
}

The login() function does housekeeping. It removes the login form, it shows the listing of posts and does any other task that you need to do once the user is logged in.

export function login() {
  // Set the loggedIn status to true
  setState("loggedIn", true);

  // Remove login form and replace it
  // with log out button

  // Show the listing of posts

  // Do whatever else you need to
}

The initLogout() function handles the logout functionality.

It is conceptually simpler than initLogin(). It removes the token cookie and it calls the logout() function.

export function initLogout() {
  // Setup event listeners for logout form
  getEl(logoutForm).addEventListener("click", event => {
    event.preventDefault();
    Cookies.remove(state.token, { secure: true });

    logout();
  });
}

The logout() function, like its login counterpart, does the housekeeping we need to do to make sure this works.

We set the loggedIn state to false so that the workflow will prompt for a login.

We swap the logout button for the login form and we show the posts available when the user is not logged in.

export function logout() {
  // Set the loggedIn statis to false
  setState("loggedIn", false);

  // Remove logout button and adds login form

  // Show unauthenticated posts listing
}

Read Content

To display the content of our WordPress blog we need to do two things: display a list of all posts, like what you’d see in a default WordPress home page, and display individual posts.

We’ll tackle these tasks separately.

Post Listing

To get a listing of the first posts on the database, 10 by default, we run code similar to the init function below.

We use Axios to make a GET request to the posts API endpoint. We save the posts data to our state object and call the render function.

export function init(event) {
  // If coming from an event,
  // prevent default behavior
  if (event) event.preventDefault();

  // Make API request with Axios
  axios
    .get(state.restUrl + "wp/v2/posts", {
      params: {
        per_page: 10
      }
    })
    .then(({ data: posts }) => {
      setState("posts", posts);
      render();
    });
}

The render() function is what creates the content that will create the content we display to the users. It is cumbersome and, for a production application, I would consider using Handlebars or some kind of templating solution but in this case I’m more concerned with the authentication and how it works.

For each post that we get from the database via ou state object we do the following:

1. We create an article element
2. We add the post class to the article we just created
3. We then create the content using the article’s innerHTML attribute with a Template Literal
   • The template literal interpolates values from the posts we store in our state object
4. We add an event listener to the post title to link to the post and then call the post() function

export function render() {
  // Map through the posts
  state.posts.map(post => {
    // Setup the post article element
    const article = createEl("article"); // 1
    article.classList.add("post"); // 2
    article.innerHTML = `
      <h2 class="entry-title">
        <a href="#${post.slug}">
          ${post.title.rendered}
        </a>
      </h2>
      <div class="entry-content">
        ${post.excerpt.rendered}
      </div>
    `; // 3

  article.querySelector(".entry-title a")
    .addEventListener("click", event => {
      event.preventDefault();
      setState("post", post);
      Post();
  }); // 4

Single Post

The single post render function does as the title says, it renders the content of a single post on the screen and, if the user is logged in, displays links to edit and delete the current post.

The function does the following:

1. Create the article and a
2. Attach the post CSS class to it.
3. Add the content using innerHTML.
   • The content includes a link to go back to the post listing; we’ll attach an event to the link later
   • We also use the rendered versions of the title and the content for the post
4. We attach a click event to the back link so that clicking on the link will display a list of the available posts
5. If the user is logged in, provide links to edit and delete the post

export function render(event) {
  // Setup the post article element
  const article = createEl("article"); // 1
  article.classList.add("post"); // 2
  article.innerHTML = `
    <p><a id="${backBtn}" href="#">
    &lt; Back to Posts</a></p>
    <h1 class="entry-title">
      ${state.post.title.rendered}
    </h1>
    <div class="entry-content">
      ${state.post.content.rendered}
    </div>
  `; // 3

  // Attach event listeners to back button
  article.querySelector(`#${backBtn}`).addEventListener("click", event => {
    event.preventDefault();
    setState("post", null);
    Posts();
  }); .// 4

  // If logged in, display edit link
  if (state.loggedIn) {
    article.append(editLink(state.post));
    article.append(deleteLink(state.post));
  } // 5

  // Clear the posts from the page

  // Add the single post to the page
}

The last two functions of this section, editLink() and deleteLink() wor similarly so we’ll describe them together.

They will create a link element and add the respective class (edit and delete) and content text.

They will add a click event handler that will call the appropriate function, loadPost() for editLink() and deletePost() for deleteLink().

export function editLink(post) {
  // Setup the edit link
  const link = document.createElement("a");
  link.href = "#edit-post";
  link.classList.add("edit");
  link.innerText = "Edit";

  link.addEventListener("click", () => {
    setState("editorPost", post.id);
    loadPost();
  });

  // Return the link element
  return link;
}

export function deleteLink(post) {
  // Setup the delete link
  const link = document.createElement("a");
  link.href = "#delete-post";
  link.classList.add("delete-post");
  link.innerText = "Delete";

  link.addEventListener("click", event => {
    event.preventDefault();
    deletePost(post);
  });

  // Return the delete link
  return link;
}

With the code so far we have the basic authentication structure and a way listing of posts and individual posts.

We’ll explore more details in the next post.

One of the things I’ve struggled with when working with headless WordPress is getting stuff that I need to be authenticated to accomplish; for example, I can get a list of posts and get an individual post but I can’t create, update and delete posts from a remote client.

While reviewing a Udemy Course on the subject (Zach Gordon’s Headless WordPress REST API Authentication I discovered that the reason this happens is that WordPress doesn’t provide third-party clients authentication by default. SO if you want to authenticate you have to set up your authentication infrastructure in WordPress.

This post will cover how to implement JSON Web Token (JWT) authentication on a WordPress installation.

I chose JWT as my login solution not just because it’s what the course I took used but because other options are too cumbersome and do way more than what I need them to, opening too many potential security holes.

I will use the JWT Authentication for WP REST API plugin as suggested in Gordon’s course. It hasn’t been tested in about a year but it works, for now, so I’ll continue using it.

The first step is to download and install the plugin. You can do so from inside your WordPress installation by going to the Plugins menu and selecting add new, searching for JWT authentication, and then installing the plugin. Don’t activate it yet, we still need to configure it.

The next steps are done outside of the administrator’s GUI.

We first need to add

RewriteEngine on
RewriteCond %{HTTP:Authorization} ^(.*)
RewriteRule ^(.*) - [E=HTTP_AUTHORIZATION:%1]

CONFIGURATE THE SECRET KEY
The JWT needs a secret key to sign the token this secret key must be unique and never revealed.

To add the secret key edit your wp-config.php file and add JWT_AUTH_SECRET_KEY constant

define('JWT_AUTH_SECRET_KEY', 'your-top-secret-key');

You can use a string from the WordPress Salt Generator as the value for the key.

The wp-api-jwt-auth plugin has the option to activate CORS support.

To enable the CORs Support, edit your wp-config.php file and add a JWT_AUTH_CORS_ENABLE constant

define('JWT_AUTH_CORS_ENABLE', true);

Finally activate the plugin. The best way to test it is to point your browser to https://<your-server-ulr>/wp-json/jwt-auth/v1. It should return a list of the available endpoints.

We’re ready to begin working with WordPress as a headless CMS