Tsmart is a Personalized Education and E-Learning microservice app that empowers educational institutions and online learning platforms to deliver personalized content and learning experiences to their users. The app provides a set of microservices that enable seamless integration of personalized learning features into existing educational platforms.
To install and use Tsmart, follow these steps:
git clone https://github.com/tsmart-app/tsmart.git
npm install
.env.example
to .env
and set the necessary configuration parameters.npm start
Tsmart provides a RESTful API for communication with the microservices. Here’s a basic example of how to use Tsmart in your application:
import axios from 'axios';
const baseURL = 'https://api.tsmart.com';
// Example API call to get personalized content recommendations
async function getRecommendations(studentId) {
try {
const response = await axios.get(`${baseURL}/recommendations/${studentId}`);
return response.data;
} catch (error) {
console.error('Error fetching recommendations:', error);
throw error;
}
}
For more detailed usage instructions and API endpoints, please refer to the API Documentation.
For detailed information on the available API endpoints and their usage, please refer to the API documentation.
We welcome contributions from the community! To contribute to Tsmart, follow these steps:
git checkout -b feature-name
git commit -m "Add feature"
git push origin feature-name
Please ensure that you’ve read and adhered to our Code of Conduct before contributing.
Tsmart is open-source software licensed under the MIT License.
Tsmart can be deployed on a cloud service or on-premises server. For easy scalability and maintenance, we recommend using a cloud-based solution like AWS, Google Cloud, or Azure. You can deploy the microservices using containerization technologies like Docker and Kubernetes.
Before deploying to a production environment, ensure that you have configured the necessary environment variables with appropriate values, such as API keys, database connection strings, and other sensitive information.
Tsmart is built using modern technologies and frameworks to ensure optimal performance and maintainability. The main components of our tech stack include:
Tsmart includes a comprehensive test suite to ensure the reliability and functionality of the microservices. We employ unit testing, integration testing, and end-to-end testing to validate the app’s behavior.
To run the tests, use the following command:
npm test
We encourage contributors to write tests for new features and bug fixes to maintain code quality and prevent regressions.
Security is a top priority at Tsmart. We implement various security measures, including data encryption, input validation, and role-based access control, to safeguard user data and ensure a secure learning environment.
As part of our commitment to security, we conduct regular security audits and follow best practices in the industry to address potential vulnerabilities proactively.
For any questions, feedback, or support inquiries, join our community on our Discord server or visit our website for additional resources and documentation.
You can also report bugs or request new features through our GitHub repository. We value your feedback, and our team actively monitors the repository.
We would like to express our appreciation to the open-source community for their valuable contributions and inspiring projects that have influenced the development of Tsmart.
Tsmart was founded in 2023 with a mission to revolutionize personalized education and provide learners with tailored learning experiences. Our team is dedicated to leveraging cutting-edge technologies to shape the future of e-learning.
Connect with us:
Feel free to continue customizing the README file to provide more specific information about your app’s features, development process, and any other relevant details. If you have any other specific requests or need further assistance, let me know! I’m here to help. Best of luck with your Tsmart project!
Node is required for generation and recommended for development. package.json
is always generated for a better development experience with prettier, commit hooks, scripts and so on.
In the project root, JHipster generates configuration files for tools like git, prettier, eslint, husky, and others that are well known and you can find references in the web.
/src/*
structure follows default Java structure.
.yo-rc.json
- Yeoman configuration file
JHipster configuration is stored in this file at generator-jhipster
key. You may find generator-jhipster-*
for specific blueprints configuration..yo-resolve
(optional) - Yeoman conflict resolver
Allows to use a specific action when conflicts are found skipping prompts for files that matches a pattern. Each line should match [pattern] [action]
with pattern been a Minimatch pattern and action been one of skip (default if ommited) or force. Lines starting with #
are considered comments and are ignored..jhipster/*.json
- JHipster entity configuration files
npmw
- wrapper to use locally installed npm.
JHipster installs Node and npm locally using the build tool by default. This wrapper makes sure npm is installed locally and uses it avoiding some differences different versions can cause. By using ./npmw
instead of the traditional npm
you can configure a Node-less environment to develop or test your application./src/main/docker
- Docker configurations for the application and services that the application depends onBefore you can build this project, you must install and configure the following dependencies on your machine:
After installing Node, you should be able to run the following command to install development tools. You will only need to run this command when dependencies change in package.json.
npm install
We use npm scripts and Angular CLI with Webpack as our build system.
Run the following commands in two separate terminals to create a blissful development experience where your browser auto-refreshes when files change on your hard drive.
./mvnw
npm start
Npm is also used to manage CSS and JavaScript dependencies used in this application. You can upgrade dependencies by
specifying a newer version in package.json. You can also run npm update
and npm install
to manage dependencies.
Add the help
flag on any command to see how you can use it. For example, npm help update
.
The npm run
command will list all of the scripts available to run for this project.
JHipster ships with PWA (Progressive Web App) support, and it’s turned off by default. One of the main components of a PWA is a service worker.
The service worker initialization code is disabled by default. To enable it, uncomment the following code in src/main/webapp/app/app.module.ts
:
ServiceWorkerModule.register('ngsw-worker.js', { enabled: false }),
For example, to add Leaflet library as a runtime dependency of your application, you would run following command:
npm install --save --save-exact leaflet
To benefit from TypeScript type definitions from DefinitelyTyped repository in development, you would run following command:
npm install --save-dev --save-exact @types/leaflet
Then you would import the JS and CSS files specified in library’s installation instructions so that Webpack knows about them: Edit src/main/webapp/app/app.module.ts file:
import 'leaflet/dist/leaflet.js';
Edit src/main/webapp/content/scss/vendor.scss file:
@import 'leaflet/dist/leaflet.css';
Note: There are still a few other things remaining to do for Leaflet that we won’t detail here.
For further instructions on how to develop with JHipster, have a look at Using JHipster in development.
Microservices doesn’t contain every required backend feature to allow microfrontends to run alone. You must start a pre-built gateway version or from source.
Start gateway from source:
cd gateway
npm run docker:db:up # start database if necessary
npm run docker:others:up # start service discovery and authentication service if necessary
npm run app:start # alias for ./(mvnw|gradlew)
Microfrontend’s build-watch
script is configured to watch and compile microfrontend’s sources and synchronizes with gateway’s frontend.
Start it using:
cd microfrontend
npm run docker:db:up # start database if necessary
npm run build-watch
It’s possible to run microfrontend’s frontend standalone using:
cd microfrontend
npm run docker:db:up # start database if necessary
npm watch # alias for `npm start` and `npm run backend:start` in parallel
You can also use Angular CLI to generate some custom client code.
For example, the following command:
ng generate component my-component
will generate few files:
create src/main/webapp/app/my-component/my-component.component.html
create src/main/webapp/app/my-component/my-component.component.ts
update src/main/webapp/app/app.module.ts
JHipster Control Center can help you manage and control your application(s). You can start a local control center server (accessible on http://localhost:7419) with:
docker compose -f src/main/docker/jhipster-control-center.yml up
Congratulations! You’ve selected an excellent way to secure your JHipster application. If you’re not sure what OAuth and OpenID Connect (OIDC) are, please see What the Heck is OAuth?
To log in to your app, you’ll need to have Keycloak up and running. The JHipster Team has created a Docker container for you that has the default users and roles. Start Keycloak using the following command.
docker compose -f src/main/docker/keycloak.yml up
The security settings in src/main/resources/config/application.yml
are configured for this image.
spring:
...
security:
oauth2:
client:
provider:
oidc:
issuer-uri: http://localhost:9080/realms/jhipster
registration:
oidc:
client-id: web_app
client-secret: web_app
scope: openid,profile,email
Some of Keycloak configuration is now done in build time and the other part before running the app, here is the list of all build and configuration options.
Before moving to production, please make sure to follow this guide for better security and performance.
Also, you should never use start-dev
nor KC_DB=dev-file
in production.
When using Kubernetes, importing should be done using init-containers (with a volume when using db=dev-file
).
If you’d like to use Okta instead of Keycloak, it’s pretty quick using the Okta CLI. After you’ve installed it, run:
okta register
Then, in your JHipster app’s directory, run okta apps create
and select JHipster. This will set up an Okta app for you, create ROLE_ADMIN
and ROLE_USER
groups, create a .okta.env
file with your Okta settings, and configure a groups
claim in your ID token.
Run source .okta.env
and start your app with Maven or Gradle. You should be able to sign in with the credentials you registered with.
If you’re on Windows, you should install WSL so the source
command will work.
If you’d like to configure things manually through the Okta developer console, see the instructions below.
First, you’ll need to create a free developer account at https://developer.okta.com/signup/. After doing so, you’ll get your own Okta domain, that has a name like https://dev-123456.okta.com
.
Modify src/main/resources/config/application.yml
to use your Okta settings.
spring:
...
security:
oauth2:
client:
provider:
oidc:
issuer-uri: https://{yourOktaDomain}/oauth2/default
registration:
oidc:
client-id: {clientId}
client-secret: {clientSecret}
security:
Create an OIDC App in Okta to get a {clientId}
and {clientSecret}
. To do this, log in to your Okta Developer account and navigate to Applications > Add Application. Click Web and click the Next button. Give the app a name you’ll remember, specify http://localhost:8080
as a Base URI, and http://localhost:8080/login/oauth2/code/oidc
as a Login Redirect URI. Click Done, then Edit and add http://localhost:8080
as a Logout redirect URI. Copy and paste the client ID and secret into your application.yml
file.
Create a ROLE_ADMIN
and ROLE_USER
group and add users into them. Modify e2e tests to use this account when running integration tests. You’ll need to change credentials in src/test/javascript/e2e/account/account.spec.ts
and src/test/javascript/e2e/admin/administration.spec.ts
.
Navigate to API > Authorization Servers, click the Authorization Servers tab and edit the default one. Click the Claims tab and Add Claim. Name it “groups”, and include it in the ID Token. Set the value type to “Groups” and set the filter to be a Regex of .*
.
After making these changes, you should be good to go! If you have any issues, please post them to Stack Overflow. Make sure to tag your question with “jhipster” and “okta”.
If you’d like to use Auth0 instead of Keycloak, follow the configuration steps below:
dev-xxx.us.auth0.com
Regular Web Applications
. Switch to the Settings
tab, and configure your application settings like:
http://localhost:8080/login/oauth2/code/oidc
http://localhost:8080/
ROLE_ADMIN
, and ROLE_USER
.Empty rule
template. Provide a meaningful name like JHipster claims
and replace Script
content with the following and Save.function (user, context, callback) {
user.preferred_username = user.email;
const roles = (context.authorization || {}).roles;
function prepareCustomClaimKey(claim) {
return `https://www.jhipster.tech/${claim}`;
}
const rolesClaim = prepareCustomClaimKey('roles');
if (context.idToken) {
context.idToken[rolesClaim] = roles;
}
if (context.accessToken) {
context.accessToken[rolesClaim] = roles;
}
callback(null, user, context);
}
JHipster
application, modify src/main/resources/config/application.yml
to use your Auth0 application settings:spring:
...
security:
oauth2:
client:
provider:
oidc:
# make sure to include the ending slash!
issuer-uri: https://{your-auth0-domain}/
registration:
oidc:
client-id: {clientId}
client-secret: {clientSecret}
scope: openid,profile,email
jhipster:
...
security:
oauth2:
audience:
- https://{your-auth0-domain}/api/v2/
OpenAPI-Generator is configured for this application. You can generate API code from the src/main/resources/swagger/api.yml
definition file by running:
./mvnw generate-sources
Then implements the generated delegate classes with @Service
classes.
To edit the api.yml
definition file, you can use a tool such as Swagger-Editor. Start a local instance of the swagger-editor using docker by running: docker compose -f src/main/docker/swagger-editor.yml up -d
. The editor will then be reachable at http://localhost:7742.
Refer to Doing API-First development for more details.
To build the final jar and optimize the Tsmart application for production, run:
./mvnw -Pprod clean verify
This will concatenate and minify the client CSS and JavaScript files. It will also modify index.html
so it references these new files.
To ensure everything worked, run:
java -jar target/*.jar
Then navigate to http://localhost:8081 in your browser.
Refer to Using JHipster in production for more details.
To package your application as a war in order to deploy it to an application server, run:
./mvnw -Pprod,war clean verify
To launch your application’s tests, run:
./mvnw verify
Unit tests are run by Jest. They’re located in src/test/javascript/ and can be run with:
npm test
Performance tests are run by Gatling and written in Scala. They’re located in src/test/java/gatling/simulations.
You can execute all Gatling tests with
./mvnw gatling:test
For more information, refer to the Running tests page.
Sonar is used to analyse code quality. You can start a local Sonar server (accessible on http://localhost:9001) with:
docker compose -f src/main/docker/sonar.yml up -d
Note: we have turned off forced authentication redirect for UI in src/main/docker/sonar.yml for out of the box experience while trying out SonarQube, for real use cases turn it back on.
You can run a Sonar analysis with using the sonar-scanner or by using the maven plugin.
Then, run a Sonar analysis:
./mvnw -Pprod clean verify sonar:sonar -Dsonar.login=admin -Dsonar.password=admin
If you need to re-run the Sonar phase, please be sure to specify at least the initialize
phase since Sonar properties are loaded from the sonar-project.properties file.
./mvnw initialize sonar:sonar -Dsonar.login=admin -Dsonar.password=admin
Additionally, Instead of passing sonar.password
and sonar.login
as CLI arguments, these parameters can be configured from sonar-project.properties as shown below:
sonar.login=admin
sonar.password=admin
For more information, refer to the Code quality page.
You can use Docker to improve your JHipster development experience. A number of docker-compose configuration are available in the src/main/docker folder to launch required third party services.
For example, to start a postgresql database in a docker container, run:
docker compose -f src/main/docker/postgresql.yml up -d
To stop it and remove the container, run:
docker compose -f src/main/docker/postgresql.yml down
You can also fully dockerize your application and all the services that it depends on. To achieve this, first build a docker image of your app by running:
npm run java:docker
Or build a arm64 docker image when using an arm64 processor os like MacOS with M1 processor family running:
npm run java:docker:arm64
Then run:
docker compose -f src/main/docker/app.yml up -d
When running Docker Desktop on MacOS Big Sur or later, consider enabling experimental Use the new Virtualization framework
for better processing performance (disk access performance is worse).
For more information refer to Using Docker and Docker-Compose, this page also contains information on the docker-compose sub-generator (jhipster docker-compose
), which is able to generate docker configurations for one or several JHipster applications.
To configure CI for your project, run the ci-cd sub-generator (jhipster ci-cd
), this will let you generate configuration files for a number of Continuous Integration systems. Consult the Setting up Continuous Integration page for more information.
Tsmart by KOSASIH is licensed under Attribution 4.0 International