In this tutorial, we’re going to look at managing user authentication in the MEAN stack. We’ll use the most common MEAN architecture of having an Angular single-page app using a REST API built with Node, Express and MongoDB
When thinking about user authentication, we need to tackle the following things:
Before we dive into the code, let’s take a few minutes for a high-level look at how authentication is going to work in the MEAN stack.
For more in-depth JavaScript knowledge, read our book, JavaScript: Novice to Ninja, 2nd Edition.
So what does authentication look like in the MEAN stack?
Still keeping this at a high level, these are the components of the flow:
JWTs are preferred over cookies for maintaining the session state in the browser. Cookies are better for maintaining state when using a server-side application.
The code for this tutorial is available on GitHub. To run the application, you’ll need to have Node.js installed, along with MongoDB. (For instructions on how to install, please refer to Mongo’s official documentation — Windows, Linux, macOS).
To keep the example in this tutorial simple, we’ll start with an Angular app with four pages:
The pages are pretty basic and look like this to start with:
The profile page will only be accessible to authenticated users. All the files for the Angular app are in a folder inside the Angular CLI app called /client
.
We’ll use the Angular CLI for building and running the local server. If you’re unfamiliar with the Angular CLI, refer to the Building a Todo App with Angular CLI tutorial to get started.
We’ll also start off with the skeleton of a REST API built with Node, Express and MongoDB, using Mongoose to manage the schemas. This API should initially have three routes:
/api/register
(POST), to handle new users registering/api/login
(POST), to handle returning users logging in/api/profile/USERID
(GET), to return profile details when given a USERID
Let’s set that up now. We can use the express-generator tool to create a lot of the boiler plate for us. If this is new for you, we have a tutorial on using it here.
Install it with npm i -g express-generator
. Then, create a new Express app, choosing Pug as the view engine:
express -v pug mean-authentication
When the generator has run, change into the project directory and install the dependencies:
cd mean-authentication
npm i
At the time of writing, this pulls in an outdated version of Pug. Let’s fix that:
npm i pug@latest
We can also install Mongoose while we’re at it:
npm i mongoose
Next, we need to create our folder structure.
public
folder: rm -rf public
.api
directory: mkdir api
.controllers
, a models
, and a routes
directory in the api
directory: mkdir -p api/{controllers,models,routes}
.authenication.js
file and a profile.js
file in the controllers
directory: touch api/controllers/{authentication.js,profile.js}
.db.js
file and a users.js
file in the models
directory: touch api/models/{db.js,users.js}
.index.js
file in the routes
directory: touch api/routes/index.js
.When you’re done, things should look like this:
.
└── api
├── controllers
│ ├── authentication.js
│ └── profile.js
├── models
│ ├── db.js
│ └── users.js
└── routes
└── index.js
Now let’s add the API functionality. Replace the code in app.js
with the following:
require('./api/models/db');
const cookieParser = require('cookie-parser');
const createError = require('http-errors');
const express = require('express');
const logger = require('morgan');
const path = require('path');
const routesApi = require('./api/routes/index');
const app = express();
// view engine setup
app.set('views', path.join(__dirname, 'views'));
app.set('view engine', 'pug');
app.use(logger('dev'));
app.use(express.json());
app.use(express.urlencoded({ extended: false }));
app.use(cookieParser());
app.use(express.static(path.join(__dirname, 'public')));
app.use('/api', routesApi);
// catch 404 and forward to error handler
app.use((req, res, next) => {
next(createError(404));
});
// error handler
app.use((err, req, res, next) => {
// set locals, only providing error in development
res.locals.message = err.message;
res.locals.error = req.app.get('env') === 'development' ? err : {};
// render the error page
res.status(err.status || 500);
res.render('error');
});
module.exports = app;
Add the following to api/models/db.js
:
require('./users');
const mongoose = require('mongoose');
const dbURI = 'mongodb://localhost:27017/meanAuth';
mongoose.set('useCreateIndex', true);
mongoose.connect(dbURI, {
useNewUrlParser: true,
useUnifiedTopology: true
});
mongoose.connection.on('connected', () => {
console.log(`Mongoose connected to ${dbURI}`);
});
mongoose.connection.on('error', (err) => {
console.log(`Mongoose connection error: ${err}`);
});
mongoose.connection.on('disconnected', () => {
console.log('Mongoose disconnected');
});
Add the following to api/routes/index.js
:
const ctrlAuth = require('../controllers/authentication');
const ctrlProfile = require('../controllers/profile');
const express = require('express');
const router = express.Router();
// profile
router.get('/profile/:userid', ctrlProfile.profileRead);
// authentication
router.post('/register', ctrlAuth.register);
router.post('/login', ctrlAuth.login);
module.exports = router;
Add the following to api/controllers/profile.js
:
module.exports.profileRead = (req, res) => {
console.log(`Reading profile ID: ${req.params.userid}`);
res.status(200);
res.json({
message : `Profile read: ${req.params.userid}`
});
};
Add the following to api/controllers/authentication.js
:
module.exports.register = (req, res) => {
console.log(`Registering user: ${req.body.email}`);
res.status(200);
res.json({
message : `User registered: ${req.body.email}`
});
};
module.exports.login = (req, res) => {
console.log(`Logging in user: ${req.body.email}`);
res.status(200);
res.json({
message : `User logged in: ${req.body.email}`
});
};
Ensure that Mongo is running and then, finally, start the server with npm run start
. If everything is configured properly, you should see a message in your terminal that Mongoose is connected to mongodb://localhost:27017/meanAuth
, and you should now be able to make requests to, and get responses from, the API. You can test this with a tool such as Postman.
Next, let’s add a schema to api/models/users.js
. It defines the need for an email address, a name, a hash and a salt. The hash and salt will be used instead of saving a password. The email
is set to unique as we’ll use it for the login credentials. Here’s the schema:
const mongoose = require('mongoose');
const userSchema = new mongoose.Schema({
email: {
type: String,
unique: true,
required: true
},
name: {
type: String,
required: true
},
hash: String,
salt: String
});
mongoose.model('User', userSchema);
Saving user passwords is a big no-no. Should a hacker get a copy of your database, you want to make sure they can’t use it to log in to accounts. This is where the hash and salt come in.
The salt is a string of characters unique to each user. The hash is created by combining the password provided by the user and the salt, and then applying one-way encryption. As the hash can’t be decrypted, the only way to authenticate a user is to take the password, combine it with the salt and encrypt it again. If the output of this matches the hash, the password must have been correct.
To do the setting and the checking of the password, we can use Mongoose schema methods. These are essentially functions that you add to the schema. They’ll both make use of the Node.js Crypto module.
At the top of the users.js
model file, require crypto so that we can use it:
const crypto = require('crypto');
Nothing needs installing, as crypto ships as part of Node. Crypto itself has several methods; we’re interested in randomBytes to create the random salt and pbkdf2Sync to create the hash.
To save the reference to the password, we can create a new method called setPassword
on the userSchema
schema that accepts a password parameter. The method will then use crypto.randomBytes
to set the salt, and crypto.pbkdf2Sync
to set the hash:
userSchema.methods.setPassword = function(password) {
this.salt = crypto.randomBytes(16).toString('hex');
this.hash = crypto
.pbkdf2Sync(password, this.salt, 1000, 64, 'sha512')
.toString('hex');
};
We’ll use this method when creating a user. Instead of saving the password to a password
path, we’ll be able to pass it to the setPassword
function to set the salt
and hash
paths in the user document.
Checking the password is a similar process, but we already have the salt from the Mongoose model. This time we just want to encrypt the salt and the password and see if the output matches the stored hash.
Add another new method to the users.js
model file, called validPassword
:
userSchema.methods.validPassword = function(password) {
const hash = crypto
.pbkdf2Sync(password, this.salt, 1000, 64, 'sha512')
.toString('hex');
return this.hash === hash;
};
One more thing the Mongoose model needs to be able to do is generate a JWT, so that the API can send it out as a response. A Mongoose method is ideal here too, as it means we can keep the code in one place and call it whenever needed. We’ll need to call it when a user registers and when a user logs in.
To create the JWT, we’ll use a package called jsonwebtoken, which needs to be installed in the application, so run this on the command line:
npm i jsonwebtoken
Then require this in the users.js
model file:
const jwt = require('jsonwebtoken');
This module exposes a sign
method that we can use to create a JWT, simply passing it the data we want to include in the token, plus a secret that the hashing algorithm will use. The data should be sent as a JavaScript object, and include an expiry date in an exp
property.
Adding a generateJwt
method to userSchema
in order to return a JWT looks like this:
userSchema.methods.generateJwt = function() {
const expiry = new Date();
expiry.setDate(expiry.getDate() + 7);
return jwt.sign(
{
_id: this._id,
email: this.email,
name: this.name,
exp: parseInt(expiry.getTime() / 1000)
},
'MY_SECRET'
); // DO NOT KEEP YOUR SECRET IN THE CODE!
};
Note: it’s important that your secret is kept safe: only the originating server should know what it is. It’s best practice to set the secret as an environment variable, and not have it in the source code, especially if your code is stored in version control somewhere.
And that’s everything we need to do with the database.
Passport is a Node module that simplifies the process of handling authentication in Express. It provides a common gateway to work with many different authentication “strategies”, such as logging in with Facebook, Twitter or Oauth. The strategy we’ll use is called “local”, as it uses a username and password stored locally.
To use Passport, first install it and the strategy, saving them in package.json
:
npm i passport passport-local
Inside the api
folder, create a new folder config
and create a file in there called passport.js
. This is where we define the strategy:
mkdir -p api/config
touch api/config/passport.js
Before defining the strategy, this file needs to require Passport, the strategy, Mongoose and the User
model:
const mongoose = require('mongoose');
const passport = require('passport');
const LocalStrategy = require('passport-local').Strategy;
const User = mongoose.model('User');
For a local strategy, we essentially just need to write a Mongoose query on the User
model. This query should find a user with the email address specified, and then call the validPassword
method to see if the hashes match.
There’s just one curiosity of Passport to deal with. Internally, the local strategy for Passport expects two pieces of data called username
and password
. However, we’re using email
as our unique identifier, not username
. This can be configured in an options object with a usernameField
property in the strategy definition. After that, it’s over to the Mongoose query.
So all in, the strategy definition will look like this:
passport.use(
new LocalStrategy(
{
usernameField: 'email'
},
function(username, password, done) {
User.findOne({ email: username }, function(err, user) {
if (err) {
return done(err);
}
// Return if user not found in database
if (!user) {
return done(null, false, {
message: 'User not found'
});
}
// Return if password is wrong
if (!user.validPassword(password)) {
return done(null, false, {
message: 'Password is wrong'
});
}
// If credentials are correct, return the user object
return done(null, user);
});
}
)
);
Note how the validPassword
schema method is called directly on the user
instance.
Now Passport just needs to be added to the application. So in app.js
we need to require the Passport module, require the Passport config and initialize Passport as middleware. The placement of all of these items inside app.js
is quite important, as they need to fit into a certain sequence.
The Passport module should be required at the top of the file with the other general require
statements:
const cookieParser = require('cookie-parser');
const createError = require('http-errors');
const express = require('express');
const logger = require('morgan');
const passport = require('passport');
const path = require('path');
The config should be required after the model is required, as the config references the model.
require('./api/models/db');
require('./api/config/passport');
Finally, Passport should be initialized as Express middleware just before the API routes are added, as these routes are the first time that Passport will be used:
app.use(passport.initialize());
app.use("/api", routesApi);
We’ve now got the schema and Passport set up. Next, it’s time to put these to use in the routes and controllers of the API.
With the API we’ve got two things to do:
/api/profile
route so that only authenticated users can access itIn the example app, the register and login controllers are in /api/controllers/authentication.js. In order for the controllers to work, the file needs to require Passport, Mongoose and the user model:
const mongoose = require('mongoose');
const passport = require('passport');
const User = mongoose.model('User');
The register controller needs to do the following:
setPassword
method we created earlier to add the salt and the hash to the instanceIn code, all of that looks like this. This should replace the dummy register
function we coded earlier:
module.exports.register = (req, res) => {
const user = new User();
user.name = req.body.name;
user.email = req.body.email;
user.setPassword(req.body.password);
user.save(() => {
const token = user.generateJwt();
res.status(200);
res.json({
token: token
});
});
};
This makes use of the setPassword
and generateJwt
methods we created in the Mongoose schema definition. See how having that code in the schema makes this controller easier to read and understand.
Don’t forget that, in reality, this code would have a number of error traps, validating form inputs and catching errors in the save
function. They’re omitted here to highlight the main functionality of the code, but if you’d like a refresher, check out “Forms, File Uploads and Security with Node.js and Express”.
The login controller hands over pretty much all control to Passport, although you could (and should) add some validation beforehand to check that the required fields have been sent.
For Passport to do its magic and run the strategy defined in the config, we need to call the authenticate
method as shown below. This method will call a callback with three possible parameters err
, user
and info
. If user
is defined, it can be used to generate a JWT to be returned to the browser. This should replace the dummy login
method we defined earlier:
module.exports.login = (req, res) => {
passport.authenticate('local', (err, user, info) => {
// If Passport throws/catches an error
if (err) {
res.status(404).json(err);
return;
}
// If a user is found
if (user) {
const token = user.generateJwt();
res.status(200);
res.json({
token: token
});
} else {
// If user is not found
res.status(401).json(info);
}
})(req, res);
};
The final thing to do in the back end is make sure that only authenticated users can access the /api/profile
route. The way to validate a request is to ensure that the JWT sent with it is genuine, by using the secret again. This is why you should keep it a secret and not place it in the code.
First we need to install a piece of middleware called express-jwt:
npm i express-jwt
Then we need to require it and configure it in the file where the routes are defined. In the sample application, this is /api/routes/index.js. Configuration is a case of telling it the secret, and — optionally — the name of the property to create on the req
object that will hold the JWT. We’ll be able to use this property inside the controller associated with the route. The default name for the property is user
, but this is the name of an instance of our Mongoose User
model, so we’ll set it to payload
to avoid confusion:
// api/routes/index.js
const jwt = require('express-jwt');
const auth = jwt({
secret: 'MY_SECRET',
userProperty: 'payload'
});
...
Again, don’t keep the secret in the code!
To apply this middleware, simply reference the function in the middle of the route to be protected, like this:
router.get('/profile', auth, ctrlProfile.profileRead);
Notice that we’ve changed /profile/:userid
to /profile
, as the ID will be obtained from the JWT.
If someone tries to access that route now without a valid JWT, the middleware will throw an error. To make sure our API plays nicely, catch this error and return a 401 response by adding the following into the error handlers section of the main app.js
file:
// catch 404 and forward to error handler
app.use((req, res, next) => { ... });
// Catch unauthorised errors
app.use((err, req, res) => {
if (err.name === 'UnauthorizedError') {
res.status(401);
res.json({ message: `${err.name}: ${err.message}` });
}
});
At this point you can attempt to GET the /api/profile
endpoint using a tool such as Postman, or in your browser, and you should see a 401 response.
In this example, we only want people to be able to view their own profiles, so we get the user ID from the JWT and use it in a Mongoose query.
The controller for this route is in /api/controllers/profile.js. The entire contents of this file look like this:
const mongoose = require('mongoose');
const User = mongoose.model('User');
module.exports.profileRead = (req, res) => {
// If no user ID exists in the JWT return a 401
if (!req.payload._id) {
res.status(401).json({
message: 'UnauthorizedError: private profile'
});
} else {
// Otherwise continue
User.findById(req.payload._id).exec(function(err, user) {
res.status(200).json(user);
});
}
};
Naturally, this should be fleshed out with some more error trapping — for example, if the user isn’t found — but this snippet is kept brief to demonstrate the key points of the approach.
And that’s it for the back end. The database is configured, we have API endpoints for registering and logging in that generate and return a JWT, and also a protected route.
On to the front end!
We’re going to use the Angluar CLI in this section, so before you go any further, make sure it’s installed globally:
npm install -g @angular/cli
Then, in the project’s root directory, run:
ng new client
? Would you like to add Angular routing? Yes
? Which stylesheet format would you like to use? CSS
...
✔ Packages installed successfully.
Successfully initialized git.
This generates a new client
directory with an AppModule
and AppRoutingModule
. By answering “Yes” to “Would you like to add Angular routing”, the AppRoutingModule
is automatically created and imported into AppModule
for us.
Because we’ll make use of Angular forms and Angular’s HTTP client, we need to import Angular’s FormsModule and HttpClientModule. Change the contents of client/src/app/app.module.ts
like so:
import { BrowserModule } from "@angular/platform-browser";
import { NgModule } from "@angular/core";
import { AppRoutingModule } from "./app-routing.module";
import { AppComponent } from "./app.component";
import { FormsModule } from "@angular/forms";
import { HttpClientModule } from "@angular/common/http";
@NgModule({
declarations: [
AppComponent
],
imports: [BrowserModule, AppRoutingModule, FormsModule, HttpClientModule],
providers: [],
bootstrap: [AppComponent]
})
export class AppModule {}
Most of the work in the front end can be put into an Angular service, creating methods to manage:
We’ll need to create a new service called AuthenticationService
. With the CLI, this can be done by running:
$ cd client
$ ng generate service authentication
CREATE src/app/authentication.service.spec.ts (397 bytes)
CREATE src/app/authentication.service.ts (143 bytes)
In the example app, this is in the file /client/src/app/authentication.service.ts:
import { Injectable } from "@angular/core";
@Injectable({
providedIn: "root"
})
export class AuthenticationService {
constructor() {}
}
To keep a user logged in between visits, we use localStorage
in the browser to save the JWT. An alternative is to use sessionStorage
, which will only keep the token during the current browser session.
First, we want to create a few interfaces to handle the data types. This is useful for type checking our application. The profile returns an object formatted as UserDetails
, and the login and register endpoints expect a TokenPayload
during the request and return a TokenResponse
object:
export interface UserDetails {
_id: string;
email: string;
name: string;
exp: number;
iat: number;
}
interface TokenResponse {
token: string;
}
export interface TokenPayload {
email: string;
password: string;
name?: string;
}
This service uses the HttpClient
service from Angular to make HTTP requests to our server application (which we’ll use in a moment) and the Router
service to navigate programmatically. We must inject them into our service constructor:
constructor(private http: HttpClient, private router: Router) {}
Then we define four methods that interact with the JWT token. We implement saveToken
to handle storing the token into localStorage
and onto the token
property, a getToken
method to retrieve the token from localStorage
or from the token
property, and a logout
function that removes the JWT token and redirects to the home page.
It’s important to note that this code doesn’t run if you’re using server-side rendering, because APIs like localStorage
and window.atob
aren’t available. There are details about solutions to address server-side rendering in the Angular documentation.
So far, this gives us:
import { Injectable } from "@angular/core";
import { HttpClient } from "@angular/common/http";
import { Router } from "@angular/router";
import { Observable } from "rxjs";
import { map } from "rxjs/operators";
export interface UserDetails {
_id: string;
email: string;
name: string;
exp: number;
iat: number;
}
interface TokenResponse {
token: string;
}
export interface TokenPayload {
email: string;
password: string;
name?: string;
}
@Injectable({
providedIn: "root"
})
export class AuthenticationService {
private token: string;
constructor(private http: HttpClient, private router: Router) {}
private saveToken(token: string): void {
localStorage.setItem("mean-token", token);
this.token = token;
}
private getToken(): string {
if (!this.token) {
this.token = localStorage.getItem("mean-token");
}
return this.token;
}
public logout(): void {
this.token = "";
window.localStorage.removeItem("mean-token");
this.router.navigateByUrl("/");
}
}
Now let’s add a method to check for this token — and the validity of the token — to find out if the visitor is logged in.
When we set the data for the JWT (in the generateJwt
Mongoose method) we included the expiry date in an exp
property. But if you look at a JWT, it seems to be a random string, like this following example:
eyJ0eXAiOiJKV1QiLCJhbGciOiJIUzI1NiJ9.eyJfaWQiOiI1NWQ0MjNjMTUxMzcxMmNkMzE3YTRkYTciLCJlbWFpbCI6InNpbW9uQGZ1bGxzdGFja3RyYWluaW5nLmNvbSIsIm5hbWUiOiJTaW1vbiBIb2xtZXMiLCJleHAiOjE0NDA1NzA5NDUsImlhdCI6MTQzOTk2NjE0NX0.jS50GlmolxLoKrA_24LDKaW3vNaY94Y9EqYAFvsTiLg
So how do you read a JWT?
A JWT is actually made up of three separate strings, separated by a dot (.
). These three parts are:
It’s the second part we’re interested in here — the payload. Note that this is encoded rather than encrypted, meaning that we can decode it.
There’s a function called atob that’s native to modern browsers, and which will decode a Base64 string like this.
So we need to get the second part of the token, decode it and parse it as JSON. Then we can check that the expiry date hasn’t passed.
At the end of it, the getUserDetails
function should return an object of the UserDetails
type or null
, depending on whether a valid token is found or not. Put together, it looks like this:
public getUserDetails(): UserDetails {
const token = this.getToken();
let payload;
if (token) {
payload = token.split(".")[1];
payload = window.atob(payload);
return JSON.parse(payload);
} else {
return null;
}
}
The user details that are provided include the information about the user’s name, email, and the expiration of the token, which we’ll use to check if the user session is valid.
Add a new method called isLoggedIn
to the service. It uses the getUserDetails
method to get the token details from the JWT token and checks if the expiration hasn’t passed yet:
public isLoggedIn(): boolean {
const user = this.getUserDetails();
if (user) {
return user.exp > Date.now() / 1000;
} else {
return false;
}
}
If the token exists, the method will return if the user is logged in as a Boolean value. Now we can construct our HTTP requests to load data, using the token for authorization.
To facilitate making API calls, add the request
method to the AuthenticationService
, which is able to construct and return the proper HTTP request observable depending on the specific type of request. It’s a private method, since it’s only used by this service, and exists just to reduce code duplication. This will use the Angular HttpClient
service. Remember to inject this into the AuthenticationService
if it’s not already there:
private request(
method: "post" | "get",
type: "login" | "register" | "profile",
user?: TokenPayload
): Observable<any> {
let base$;
if (method === "post") {
base$ = this.http.post(`/api/${type}`, user);
} else {
base$ = this.http.get(`/api/${type}`, {
headers: { Authorization: `Bearer ${this.getToken()}` }
});
}
const request = base$.pipe(
map((data: TokenResponse) => {
if (data.token) {
this.saveToken(data.token);
}
return data;
})
);
return request;
}
It does require the map
operator from RxJS in order to intercept and store the token in the service if it’s returned by an API login or register call. Now we can implement the public methods to call the API.
Just three methods to add. We’ll need an interface between the Angular app and the API, to call the login
and register
endpoints and save the returned token, or the profile
endpoint to get the user details:
public register(user: TokenPayload): Observable<any> {
return this.request("post", "register", user);
}
public login(user: TokenPayload): Observable<any> {
return this.request("post", "login", user);
}
public profile(): Observable<any> {
return this.request("get", "profile");
}
Each method returns an observable that will handle the HTTP request for one of the API calls we need to make. That finalizes the service; now it’s time to tie everything together in the Angular app.
We can use the AuthenticationService
inside the Angular app in a number of ways to give the experience we’re after:
/profile
route/api/profile
API routeTo get started, we first generate the components we need using Angular CLI:
$ ng generate component register
CREATE src/app/register/register.component.css (0 bytes)
CREATE src/app/register/register.component.html (23 bytes)
CREATE src/app/register/register.component.spec.ts (642 bytes)
CREATE src/app/register/register.component.ts (283 bytes)
UPDATE src/app/app.module.ts (458 bytes)
$ ng generate component profile
CREATE src/app/profile/profile.component.css (0 bytes)
CREATE src/app/profile/profile.component.html (22 bytes)
CREATE src/app/profile/profile.component.spec.ts (635 bytes)
CREATE src/app/profile/profile.component.ts (279 bytes)
UPDATE src/app/app.module.ts (540 bytes)
$ ng generate component login
CREATE src/app/login/login.component.css (0 bytes)
CREATE src/app/login/login.component.html (20 bytes)
CREATE src/app/login/login.component.spec.ts (621 bytes)
CREATE src/app/login/login.component.ts (271 bytes)
UPDATE src/app/app.module.ts (614 bytes)
$ ng generate component home
CREATE src/app/home/home.component.css (0 bytes)
CREATE src/app/home/home.component.html (19 bytes)
CREATE src/app/home/home.component.spec.ts (614 bytes)
CREATE src/app/home/home.component.ts (267 bytes)
UPDATE src/app/app.module.ts (684 bytes)
Now that our components have been created, let’s have a look at the register and login forms.
First, let’s create the registration form. It has NgModel
directives attached to the fields, all bound to properties set on the credentials
controller property. The form also has a (submit)
event binding to handle the submission. In the example application, it’s in /client/src/app/register/register.component.html and looks like this:
<form (submit)="register()">
<div class="form-group">
<label for="name">Full name</label>
<input
type="text"
class="form-control"
name="name"
placeholder="Enter your name"
[(ngModel)]="credentials.name"
/>
</div>
<div class="form-group">
<label for="email">Email address</label>
<input
type="email"
class="form-control"
name="email"
placeholder="Enter email"
[(ngModel)]="credentials.email"
/>
</div>
<div class="form-group">
<label for="password">Password</label>
<input
type="password"
class="form-control"
name="password"
placeholder="Password"
[(ngModel)]="credentials.password"
/>
</div>
<button type="submit" class="btn btn-default">Register!</button>
</form>
The first task in the controller is to ensure our AuthenticationService
and the Router
are injected and available through the constructor. Next, inside the register
handler for the form submit, make a call to auth.register
, passing it the credentials from the form.
The register
method returns an observable, which we need to subscribe to in order to trigger the request. The observable will emit success or failure, and if someone has successfully registered, we’ll set the application to redirect them to the profile page or log the error in the console.
In the sample application, the controller is in /client/src/app/register/register.component.ts and looks like this:
import { Component } from "@angular/core";
import { AuthenticationService, TokenPayload } from "../authentication.service";
import { Router } from "@angular/router";
@Component({
templateUrl: "./register.component.html",
styleUrls: ["./register.component.css"]
})
export class RegisterComponent {
credentials: TokenPayload = {
email: "",
name: "",
password: ""
};
constructor(private auth: AuthenticationService, private router: Router) {}
register() {
this.auth.register(this.credentials).subscribe(
() => {
this.router.navigateByUrl("/profile");
},
err => {
console.error(err);
}
);
}
}
The login page is very similar in nature to the register page, but in this form we don’t ask for the name, just email and password. In the sample application, it’s in /client/src/app/login/login.component.html and looks like this:
<form (submit)="login()">
<div class="form-group">
<label for="email">Email address</label>
<input
type="email"
class="form-control"
name="email"
placeholder="Enter email"
[(ngModel)]="credentials.email"
/>
</div>
<div class="form-group">
<label for="password">Password</label>
<input
type="password"
class="form-control"
name="password"
placeholder="Password"
[(ngModel)]="credentials.password"
/>
</div>
<button type="submit" class="btn btn-default">Sign in!</button>
</form>
Once again, we have the form submit handler and NgModel
attributes for each of the inputs. In the controller, we want the same functionality as the register controller, but this time to call the login
method of the AuthenticationService
.
In the sample application, the controller is in /client/src/app/login/login.component.ts and look like this:
import { Component } from "@angular/core";
import { AuthenticationService, TokenPayload } from "../authentication.service";
import { Router } from "@angular/router";
@Component({
templateUrl: "./login.component.html",
styleUrls: ["./login.component.css"]
})
export class LoginComponent {
credentials: TokenPayload = {
email: "",
password: ""
};
constructor(private auth: AuthenticationService, private router: Router) {}
login() {
this.auth.login(this.credentials).subscribe(
() => {
this.router.navigateByUrl("/profile");
},
err => {
console.error(err);
}
);
}
}
Now users can register and sign in to the application. Note that, again, there should be more validation in the forms to ensure that all required fields are filled before submitting. These examples are kept to the bare minimum to highlight the main functionality.
In the navigation, we want to show the Sign in link if a user isn’t logged in, and their username with a link to the profile page if they are logged in. The navbar is found in the App
component.
First, we’ll look at the App
component controller. We can inject the AuthenticationService
into the component and call it directly in our template. In the sample app, the file is in /client/src/app/app.component.ts and looks like this:
import { Component } from "@angular/core";
import { AuthenticationService } from "./authentication.service";
@Component({
selector: "app-root",
templateUrl: "./app.component.html",
styleUrls: ["./app.component.css"]
})
export class AppComponent {
constructor(public auth: AuthenticationService) {}
}
Now, in the associated template we can use auth.isLoggedIn()
to determine whether to display the sign-in link or the profile link. To add the user’s name to the profile link, we can access the name property of auth.getUserDetails()?.name
. Remember that this is getting the data from the JWT. The ?.
operator is a special way to access a property on an object that may be undefined, without throwing an error.
In the sample app, the file is in /client/src/app/app.component.html and the updated part looks like this:
<ul class="nav navbar-nav navbar-right">
<li *ngIf="!auth.isLoggedIn()"><a routerLink="/login">Sign in</a></li>
<li *ngIf="auth.isLoggedIn()">
<a routerLink="/profile">{{ auth.getUserDetails()?.name }}</a>
</li>
<li *ngIf="auth.isLoggedIn()"><a (click)="auth.logout()">Logout</a></li>
</ul>
<router-outlet></router-outlet>
In this step, we’ll see how to make a route accessible only to logged-in users, by protecting the /profile
path.
Angular allows you to define a route guard, which can run a check at several points of the routing life cycle to determine if the route can be loaded. We’ll use the CanActivate
hook to tell Angular to load the profile route only if the user is logged in.
To do, this we need to create a route guard:
$ ng generate guard auth
? Which interfaces would you like to implement? CanActivate
CREATE src/app/auth.guard.spec.ts (331 bytes)
CREATE src/app/auth.guard.ts (456 bytes)
It must implement the CanActivate
interface, and the associated canActivate
method. This method returns a Boolean value from the AuthenticationService.isLoggedIn
method (basically checks if the token is found, and still valid), and if the user is not valid also redirects them to the home page.
In auth.guard.ts
:
import { Injectable } from "@angular/core";
import {
CanActivate,
ActivatedRouteSnapshot,
RouterStateSnapshot,
UrlTree,
Router
} from "@angular/router";
import { Observable } from "rxjs";
import { AuthenticationService } from "./authentication.service";
@Injectable({
providedIn: "root"
})
export class AuthGuard implements CanActivate {
constructor(private auth: AuthenticationService, private router: Router) {}
canActivate(
next: ActivatedRouteSnapshot,
state: RouterStateSnapshot
):
| Observable<boolean | UrlTree>
| Promise<boolean | UrlTree>
| boolean
| UrlTree {
if (!this.auth.isLoggedIn()) {
this.router.navigateByUrl("/");
return false;
}
return true;
}
}
To enable this guard, we have to declare it on the route configuration. There’s a route property called canActivate
, which takes an array of services that should be called before activating the route. The routes are defined in the AppRoutingModule, which contains the routes like you see here:
const routes: Routes = [
{ path: "", component: HomeComponent },
{ path: "login", component: LoginComponent },
{ path: "register", component: RegisterComponent },
{ path: "profile", component: ProfileComponent, canActivate: [AuthGuard] }
];
The whole file should look like this:
import { NgModule } from "@angular/core";
import { RouterModule, Routes } from "@angular/router";
import { HomeComponent } from "./home/home.component";
import { LoginComponent } from "./login/login.component";
import { RegisterComponent } from "./register/register.component";
import { ProfileComponent } from "./profile/profile.component";
import { AuthGuard } from "./auth.guard";
const routes: Routes = [
{ path: "", component: HomeComponent },
{ path: "login", component: LoginComponent },
{ path: "register", component: RegisterComponent },
{ path: "profile", component: ProfileComponent, canActivate: [AuthGuard] }
];
@NgModule({
imports: [RouterModule.forRoot(routes)],
exports: [RouterModule]
})
export class AppRoutingModule {}
With that route guard in place, now if an unauthenticated user tries to visit the profile page, Angular will cancel the route change and redirect to the home page, thus protecting it from unauthenticated users.
The /api/profile
route has been set up to check for a JWT in the request. Otherwise, it will return a 401 unauthorized error.
To pass the token to the API, it needs to be sent through as a header on the request, called Authorization
. The following snippet shows the main data service function, and the format required to send the token. The AuthenticationService
already handles this, but you can find this in /client/src/app/authentication.service.ts:
base$ = this.http.get(`/api/${type}`, {
headers: { Authorization: `Bearer ${this.getToken()}` }
});
Remember that the back-end code is validating that the token is genuine when the request is made, by using the secret known only to the issuing server.
To make use of this in the profile page, we just need to update the controller, in /client/src/app/profile/profile.component.ts in the sample app. This will populate a details
property when the API returns some data, which should match the UserDetails
interface:
import { Component, OnInit } from "@angular/core";
import { AuthenticationService, UserDetails } from "../authentication.service";
@Component({
templateUrl: "./profile.component.html",
styleUrls: ["./profile.component.css"]
})
export class ProfileComponent implements OnInit {
details: UserDetails;
constructor(private auth: AuthenticationService) {}
ngOnInit() {
this.auth.profile().subscribe(
user => {
this.details = user;
},
err => {
console.error(err);
}
);
}
}
Then, of course, it’s just a case of updating the bindings in the view (/src/app/profile/profile.component.html). Again, the ?.
is a safety operator for binding properties that don’t exist on first render (since data has to load first):
<div class="form-horizontal">
<div class="form-group">
<label class="col-sm-3 control-label">Full name</label>
<p class="form-control-static">{{ details?.name }}</p>
</div>
<div class="form-group">
<label class="col-sm-3 control-label">Email</label>
<p class="form-control-static">{{ details?.email }}</p>
</div>
</div>
To run the Angular app, we’re going to need to route any requests to /api
to our Express server running on http://localhost:3000/
. To do this, create a proxy.conf.json
file in the client
directory:
touch proxy.conf.json
Also add the following content:
{
"/api": {
"target": "http://localhost:3000",
"secure": false
}
}
Finally, update the start
script in client/package.json
:
"start": "ng serve --proxy-config proxy.conf.json",
Now, make sure Mongo is running, start the Express app from within the root of our project using npm start
and start the Angular app from within the client
directory using the same command.
Then, visit http://localhost:4200, to see the (almost) finished product. Attempt to register an account at http://localhost:4200/register and to log in, to assure yourself that everything is working as it should.
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