This project aims to represent an online ecommerce platform APIs to validate / test the LoopBack 4 framework readiness for GA. See loopbackio/loopback-next#1476 for more information.
Node.js >= 8.9.0 and running instances of a MongoDB and Redis server are required for the app to start. The Redis server is used for the shopping cart, while MongoDB is used for the rest of the models in the app.
Docker is required for running tests, make sure it is running if you want to run the tests.
Do the following to clone and start the project.
In case you have Docker installed on your system and don't want to manually
install MongoDB and Redis, you can run npm run docker:start
to download their
images and start the servers. Otherwise, you can skip this command.
$ git clone https://github.com/loopbackio/loopback4-example-shopping.git
$ cd loopback4-example-shopping
$ npm i
$ npm run docker:start
$ npm start
The main app will be running at http://localhost:3000. The shopping website (Shoppy) is at http://localhost:3000/shoppy.html, and the API Explorer at http://localhost:3000/explorer/.
You will also see Recommendation server is running at http://localhost:3001.
,
it is the server to which the services/recommender.service
service will
connect to get the recommendations for a user.
The app will be pre-populated with some products and users when it starts; and
all existing products, users, shopping cart and orders will be deleted too. If
you don't want to reset the database, set databaseSeeding
to false
in the
application configuration object.
This repository comes with integration, unit, acceptance and end-to-end (e2e) tests. To execute these, see instructions below.
Note
: prior to running the e2e tests the application must be running. On a
different terminal do:
$ npm start
then on another terminal do the following to execute e2e tests:
$ npm run test:ui
For other tests:
$ npm test
This app has the following models:
User
- representing the users of the system.UserCredentials
- representing sensitive credentials like a password.Product
- a model which is mapped to a remote service byservices/recommender.service
.ShoppingCartItem
- a model for representing purchases.ShoppingCart
- a model to represent a user's shopping cart, can contain many items (items
) of the typeShoppingCartItem
.Order
- a model to represent an order by user, can have many products (products
) of the typeShoppingCartItem
.KeyAndPassword
- a model to represent the user's password reset requestEmailTemplate
- a model to represent the email request template for NodemailerNodeMailer
- a model to represent the response from Nodemailer after sending reset password emailEnvelope
- a model to represent the envelope portion of the response from Nodemailer after sending reset password emailResetPasswordInit
- a model to represent the request for initial password reset step
ShoppingCart
and Order
are marked as belonging to the User
model by the
use of the @belongsTo
model decorator. Correspondingly, the User
model is
marked as having many Order
s using the @hasMany
model decorator. Although
possible, a hasMany
relation for User
to ShoppingCart
has not be created
in this particular app to limit the scope of the example.
User
is also marked as having one UserCredentials
model using the @hasOne
decorator. The belongsTo
relation for UserCredentials
to User
has not been
created to keep the scope smaller.
Controllers expose API endpoints for interacting with the models and more.
In this app, there are four controllers:
ping
- a simple controller to checking the status of the app.user-management
- controller for creating user, fetching user info, updating user info, and logging in.shopping-cart
- controller for creating, updating, deleting shopping carts, and getting the details about a shopping cart.user-order
- controller for creating, updating, deleting orders, and getting the details about an order.product
- controller for managing products catalog
Services are modular components that can be plugged into a LoopBack application in various locations to contribute additional capabilities and features to the application.
This app has five services:
services/recommender.service
- responsible for connecting to a "remote" server and getting recommendations for a user. The API endpoint atGET /users/{userId}/recommend
, is made possible by this service.services/user-management.service
- responsible for verifying if user exists and the submitted password matches that of the existing user.services/hash.password.bcryptjs
- responsible for generating and comparing password hashes.services/validator
- responsible for validating email and password when a new user is created.services/jwt.service
- responsible for generating and verifying JSON Web Token.services/email.service
- responsible for sending reset password email
Note: This app contains a login
endpoint for the purpose of spike and demo,
the authentication for the CRUD operations and navigational endpoints of model
User is still in progress.
The endpoint for logging in a user is a POST
request to /users/login
.
Once the credentials are extracted, the logging-in implementation at the
controller level is just a four step process. This level of simplicity is made
possible by the use of the UserService
service provided by
@loopback/authentication
.
const user = await this.userService.verifyCredentials(credentials)
- verify the credentials.const userProfile = this.userService.convertToUserProfile(user)
- generate user profile object.const token = await this.jwtService.generateToken(userProfile)
- generate JWT based on the user profile object.return {token}
- send the JWT.
You can see the details in
packages/shopping/src/controllers/user-management.controller.ts
.
Endpoint authorization is done using
@loopback/authorization.
Use the @authorize
decorator to protect access to controller methods.
All controller methods without the @authorize
decorator will be accessible to
everyone. To restrict access, specify the roles in the allowedRoles
property.
Here are two examples to illustrate the point.
Unprotected controller method (no @authorize
decorator), everyone can access
it:
async find(
@param.query.object('filter', getFilterSchemaFor(Product))
filter?: Filter<Product>,
): Promise<Product[]> {
...
}
Protected controller method, only admin
and customer
can access it:
@authorize({
allowedRoles: ['admin', 'customer'],
voters: [basicAuthorization],
})
async set(
@inject(SecurityBindings.USER)
currentUserProfile: UserProfile,
@param.path.string('userId') userId: string,
@requestBody({description: 'update user'}) user: User,
): Promise<void> {
...
}
There are three roles in this app: admin
, support
, and customer
. You can
go through the controller methods in
user-controller.ts
and
shopping-cart.controller.ts
to see which roles are given access to which methods.
The authorization implementation is done via voter functions. In this app, there is just a single voter function - 'basicAuthorization'. It implements the following rules:
- No access if the user was created without a
roles
property. - No access if the user's role in not in the
allowedRoles
authorization metadata. - User can access only model's belonging to themselves.
admin
andsupport
roles bypass model ownership check.
For more details about authorization in LoopBack 4, refer to https://loopback.io/doc/en/lb4/Loopback-component-authorization.html.
By default, the JWTs will be signed using HS256 with a 64 character long string of random hex digits as secret. To use your own secret, set environment variable JWT_SECRET to the value of your own secret. You will want to use your own secret if running multiple instances of the application or want to generate or validate the JWTs in a different application.
You can see the details in
packages/shopping/src/application.ts
.
This repository includes a forgot password and reset password functionality that
illustrates how shoppers can reset their password in the case they forgot them.
Shoppers can either reset their password while logged in or locked out of the
application. For this functionality we use Nodemailer. Please see
https://nodemailer.com/usage/using-gmail/ if you're planning to use Nodemailer
with Gmail. Additionally, to manage environment variables we use dotenv
,
therefore, you must create a .env
file in the root of the project with the
below contents:
SMTP_PORT=587
SMTP_SERVER=smtp.gmail.com
APPLICATION_URL=http://localhost:3000/ <endpoint-to-the-page-with-reset-password-form>
SMTP_USERNAME=<gmail-username-for-account-used-to-send-email>
SMTP_PASSWORD=<gmail-password-for-account-used-to-send-email>
PASSWORD_RESET_EMAIL_LIMIT=2
There is a tutorial which shows how to apply the JWT strategy to secure your
endpoint with @loopback/authentication@2.x
. You can check more details in
https://loopback.io/doc/en/lb4/Authentication-tutorial.html
Please check the try it out section in the tutorial.
The example application can be packaged as multiple Docker containers and deployed to a cloud environment as a Kubernetes cluster.
Please check out Deploy Shopping Application as Cloud-native Microservices.
You can find instructions, Dockerfiles and resource definition files for building and deploying on Red Hat OpenShift Container Platform in the openshift directory.
This project uses DCO. Be sure to sign off
your commits using the -s
flag or adding Signed-off-By: Name<Email>
in the
commit message.
Example
git commit -s -m "feat: my commit message"
Other LoopBack 4 Guidelines apply. See the following resources to get you started:
See all contributors.