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A 2-month fulltime java training around an incremental project. Java / JSP / Servlet / Maven / JUnit / Mockito / Selenium / Spring / Hibernate / JPA / Hikari CP / Jackson / Spring MVC / Spring Security / Gatling

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Training: computer-database

Content

This training material holds a sequence of steps and features to implement in a Computer Database webapp.
Here is the macro-planning and timeline of all milestones:

  • t0 - Start of the project
  • t0+2 - Base Architecture, CLI (Add / Edit features), Logging
  • t0+8 - Web UI, Maven, Unit Tests, jQuery Validation, Backend Validation
  • t0+11 - Search, OrderBy, Transactions, Connection-Pool
  • t0+14 - Threadlocal, Java Performance contest
  • t0+19 - Continuous delivery (Jenkins, Docker, Dockerhub, Glazer)
  • t0+21 - Spring integration
  • t0+24 - Spring MVC integration, JDBC Template, i18n
  • t0+30 - Maven Multi-modules, Spring Security, Hibernate ORM (JPA, Criteria, QueryDSL, Spring Data JPA)
  • t0+32 - Web Services, end of java project
  • t0+37 - End of angular.js project
  • t0+38 - Project presentation to sales & tech audience

Installation

##1. Database Create a local MySQL server.
Execute scripts 1-SCHEMA.sql, 2-PRIVILEGES.sql and 3-ENTRIES.sql in config/db.
Schema created: computer-database-db Tables created: company, computer
User created: admincdb with password: qwerty1234

Bonus

If you already know about Docker:
Create a Dockerfile and wrap your mysql server instance inside a docker image. Create a container, and create a run script to load the database each time it runs (or use tmpfs).
Use the container instead of the local MySQL server instance.

NOTE: Docker containers are very useful when it comes to bootstrapping your development environment. We entered the era of micro-services, which means it is not uncommon to have multiple containers running at the same time necessary to run your module.

2. IDE

2.1. Eclipse

  • Add your project to the current workspace: File -> Import -> Existing projects into workspace
  • Create a new Tomcat 8.0 Server: Follow steps HERE
  • In your project properties, select Project facets, convert your project to faceted form, and tick Dynamic Web Module (3.0) and Java (1.8)
  • Select Runtime tab (in the previous project facets menu) and check the Tomcat 8.0 Server created above as your project runtime

2.2. IntelliJ IDEA

  • Add your project to the current workspace: Import Project, select Create project from existing sources
  • Create a new Tomcat 8.0 Server: Run -> Edit Configurations and point it to your local Tomcat directory (button Configure...)
  • Set project structure: In File -> Project Structure, add an Artifact with default options (Artifact tab)

3. Git repository

  • Create your own github account, and initialize a new git repository called "training-java".
  • After the initial commit, add and commit a meaningful .gitignore file.

You are ready to start coding.

4. Start coding

4.1. Layout

Your customer requested to build a computer database application. He owns about 500+ computers made by different manufacturers (companies such as Apple, Acer, Asus...).
Ideally, each computer would contain the following: a name, the date when it was introduced, eventually the date when it was discontinued, and the manufacturer. Obviously, for some reasons, the existing data is incomplete, and he requested that only the name should remain mandatory when adding a computer, the other fields being filled when possible. Furthermore, the date it was discontinued must be greater than the one he was introduced. The list of computers can be modified, meaning your customer should be able to list, add, delete, and update computers. The list of computers should also be pageable.
The list of companies should be exhaustive, and therefore will not require any update, deletion etc...

4.2. Command line interface client

The first iteration will be dedicated to implement a first working version of your computer database, with a Command-Line Interface.
The CLI will have the following features:

  • List computers
  • List companies
  • Show computer details (the detailed information of only one computer)
  • Create a computer
  • Update a computer
  • Delete a computer

4.2.1. Start

You will organize your project among several packages, such as model, persistence, service, ui, mapper...
Please use Singleton patterns where it makes sense, and implement your own Persistence management layer (for connections).

4.2.2. Pages

Now that your app's main features work, implement the pageable feature. We recommend the use of a Page class, containing your entities and the page information.

4.2.3. Code review, logging (t0 + 2 days)

Important Points: Architecture (daos, mappers, services, models, exceptions etc...)? Singleton, IOC patterns? Validation (dirty checking?)? Date API? Secure inputs?
Javadoc? Comments? Use Slf4j-api logging library, with the most common implementation: logback.

4.3. CLI + Web interface client

Now that your backend skeleton is working, we want to add a second more user-friendly UI, such as a Web-UI.
As it will require more and more libraries (more JARs to include in the build path etc...), we should consider using a build manager. Moreover, testing is a very important aspect of QA, and testing libraries should be implemented before going any further, the same for logging.
Then, you can work on implementing all features on the provided static pages, using JSTL, Tags, Servlets, JSPs...

4.3.1. Maven, Logging & Unit testing

Refactor your project tree to match maven standards. (Tip: you should exit eclipse, move folders around, and reimport your project using File -> Import -> Existing maven projects).
Include necessary libraries such as mysql-connector, JUnit, Mockito, Slf4j, and create the test classes for the backend you have already developed (N.B.: This is against TDD best practices. You should always code your tests simulteanously while developing your features).
Creating test classes implies to take into account ALL possibilities: Illegal calls, legal calls with invalid data, and legal calls with valid data.
Add and configure the Maven checktyle plugin with the checkstyle.xml and suppressions.xml provided in config/checkstyle/

NOTE: You don't need to test your Persistence layer. However, you will have to think about your SQL Database and how your database gets reset for each test. You may want to mock some of it using Mockito, and have sql-scripts populated before each test.

4.3.2. Implement listing and computer add features in the web-ui

Using the provided template https://github.com/resourcepool/training-java/tree/master/static, integrate the previous features using Servlets, JSPs, JSTL, and Tags.
Use DTOs (Data Transfer Object) to transport only relevant data to the JSPs.
Implement Computer listing (paginated), and add features.
Create two tags (In your own Taglib): one for the pagination module, one for links.
Example:

<mylib:link target="dashboard" page="${requestScope.page.current + 1}" limit="${requestScope.page.limit}" ... />   
<mylib:pagination page="${requestScope.page.current}" page-count="${requestScope.page.count}" ... />  

Warning: All features will be implemented and tested using Selenium automated with maven.

Bonus

If you already know about Docker: Use Docker to launch two selenium environments (firefox & chrome) and integrate it within your maven test

4.3.3. Secure through validation

Implement both frontend (jQuery) and backend validation in the web-ui.

4.3.4. Code review (t0 + 8 days)

Important Points: Maven structure? Library scopes? Architecture (daos, mappers, services, models, dtos, controllers, exceptions, validators)? Validation? Unit test coverage? What about selenium integration into maven? JSTL Tags and HTML documents structure.
Prepare a point about Threading (Connections, concurrency), and Transactions.

4.3.5. Connection pool, Transactions

Add a connection pool (HikariCP), put your credentials in an external properties file.
Implement a solid transaction handling model.

4.3.6. Implement all other features in the web-ui

Implement Computer edit, delete, total count features.
Warning: All features will be implemented and tested using Selenium automated with maven

4.3.7. Implement search and order by features

Search box can look for either computer or company objects.

4.3.8. Add Company deletion feature in cli

In the command line interface, add a feature which deletes a company, and all computers related to this company. Warning: Using SQL CASCADE is forbidden. This implies the use of a transaction.

4.3.9. Code review (t0 + 11 days)

Important Points: Maven structure? Library scopes? Architecture (daos, mappers, services, models, dtos, controllers, exceptions, validators)? Validation? Unit test coverage? Search and order by design choices? JSTL Tags and HTML documents structure.
Point about Threading (Connections, concurrency), and Transactions.

4.3.10. Threadlocal

Replace existing connection logic with a ThreadLocal object.

4.3.11. Performance Tuning Challenge

Now is the time to start evaluating your global application performance with a stress-test campain.
How does my application behave under load?
What is the memory footprint of my app?
Using Gatling, you have two days to perform ANY kind of improvement of your web application (gatling test and directions present in the folder gatling-test). The goal is to reach the highest score, see the relevant gatling-test/README file for more explanations.
For now, choose the simulation without Spring Security.

4.3.12. Code review (t0 + 14 days)

Important Points: What were the bottlenecks, what optimizations were done, for how much performance gain, which scores were reached.

4.4 Continuous Integration / Continuous Delivery

We want to setup a continuous integration system for our webapp with Jenkins and Docker.
Each time we push on master we want Jenkins to retrieve the changes, compile, test on a specific environment, build and push the new image to a registry, then automatically deploy the new image on a Cloud.

For now the use of docker-compose is discouraged.

4.4.1 Jenkins & Docker

Here we are going to create a build environment for your application. To do that we need to create two Docker images:

  • A builder for your webapp containing a jdk8 + maven. The goal of this container is just to compile test and package your application.
  • A database containing a MySQL feeded with your test entries.

During the test phase, the webapp builder needs to communicate with the MySQL database in order to perform its integration tests. Find a way to enable communication between containers.

Install and configure a Jenkins on your host. Create a job that starts the build process each time a push on master is performed, then display the JUnits results. Don't use Docker-in-Docker.

4.4.2 Continuous Delivery

Now it's time to dockerize your application.

  • Create a Docker image with a run environment for your webapp containing a Tomcat and your webapp war. Find a way to retrieve the war previously built by the webapp builder container.
  • Create an image for your MySQL database with your production data (schema/user/entries).

Push them to Docker Hub.

Adapt your Jenkins job to build and push to Docker Hub those two images.

4.4.3 Continuous Deployment

  • Connect with your login to Docker Cloud

  • Create a free account on Amazon Web Services.

  • Link your Amazon Web Services account to deploy node clusters and nodes using Docker Cloud’s dashboard. Be careful when choosing the type of node on Docker Cloud, select 't2.micro' under the conditions of free AWS account.

  • Observe the diagram below to properly configure the architecture of Docker containers to set up the continuous delivery: image

  • Below the activity diagram to figure out all the process: image

Bonus: Pipeline

Since Jenkins 1.6, a new configuration for your delivery pipeline appeared. The "plugin-workflow", later renamed "pipeline" in Jenkins 2.0, allows anyone to script your deployment pipeline from build to test, archive, and deploy.

You can use a JenkinsFile with your groovy pipeline script at the root of your repository.
Want to go further? Try Blue Ocean, the new UI for Jenkins.

Bonus 2: Travis-CI / Gitlab-CI

Try something else than Jenkins. Contrarily to Jenkins, Travis and Gitlab-CI were built with the concept of 'containers' in mind. In particular, Gitlab-CI has a dedicated Docker registry tied with your repositories. Integrate them in your own Continuous delivery pipeline.

4.4.4. Point overview: Continuous Integration (t0 + 19 days)

What is a container ? What is it used for ?
What is a Docker image ?
What about communication between Containers ?
DockerHub: automated build limitations ?

4.5. Embracing Spring Framework

4.5.1. Spring

Enable the use of Spring to manage your objects's lifecycle, and transactions. You will use the XML declaration (applicationContext.xml) instead of programmative Java Configuration.
Important: Be careful to use slf4j bridges to display spring logs. Do not forget to setup your logback configuration.
Replace your connection pool by a real datasource configured in the spring context.
Which problems did you encounter? Study and note all the possible ways of solving the dependency injection issue in servlets.
Warning: Do not replace your Servlets by another class. Your controllers should still extend HttpServlet.

4.5.2. Point overview: Spring integration (t0 + 21 days)

How a webapp is started, how spring initializes itself.
Explanation of the common problems encountered with the different contexts.
Roundtable of the solutions found, best practices.

4.5.3. JDBCTemplate

Change your DAO Implementation and use the JDBCTemplate from spring-jdbc to make your requests

4.5.4. Spring MVC

You can now forget about Servlets and use Spring MVC as Controller for your webapp.
Use Spring MVC validation annotations to validate your DTOs.
Add custom error pages.

4.5.5. i18n

Implement spring multilingual features (French/English).

4.5.6. Code Review (t0 + 24 days)

Important Points: How did you split your Spring / Spring MVC contexts? How to switch from a language to another? How about javascript translation? Did you use spring-mvc annotations, forms and models?

4.6. Multi module, ORM, and Security

4.6.1. Hibernate

Add the Hibernate ORM to your project (managed by spring). You can choose the following APIs to implement it. HQL, JPA/Criteria, QueryDSL, Spring data JPA.

4.6.2. Maven multi-module

Now that your app is getting dense, it makes sense to split it into modules.
Split your maven app into 6 different modules (we recommend exiting your IDE and making those changes by hand).
Warning: you need to also split your applicationContext files: indeed, each module should be able to work as a standalone.
Following modules can be created: core, persistence, service, binding, webapp, console.

4.6.3. Security

Add Spring Security to your project. Choose a stateless approach, and use an extra UserDAO and related SQL table to store and retrieve user login info.
Use Digest HTTP Auth.

4.6.4. Code Review (t0 + 30 days)

Important points: Which API was the most efficient for your queries? Limitations of those APIs. Maven and Spring contexts evaluation, unit tests evaluation.

4.7. Web Services, REST API

4.7.1. Jackson

Now, we want your webapp to also produce APIs so that clients could access the resources remotely.
To allow the creation of AngularJS, Mobile (Android/iOS) or third party clients, you should expose all features using Jackson and Spring RestController.

4.7.2. Jax WS / Jax RS

Refactor your CLI client to act as a remote client to your webapp, using either Jax-RS or Jax-WS libraries.

BONUS: Performance review with Gatling

Now that you have enabled Spring Security, you can use the second Gatling Simulation with Spring Security. See the README present in the gatling-test folder for more details.

4.7.4. Final Code Review (t0 + 32 days)

Steps to fix before final release, code quality overview and possible improvements. Point about UX

4.8. Final refactoring of webapp, UX (t0 + 33 days)

The final stage is your production release.

  • Refactor and clean your project, make sure your REST API is valid.
  • Refactor your UI looking for a greater User eXperience, challenge the technical choices of the base page template, and customize it to your standards.

4.9. Static Website with Angular.js

More and more, webapps need to be developed for multiple devices. Smartphones, tablets, browsers, etc... The need for exposing data through an API has increased and allowed for the rebirth of client-server approaches. Thanks to the most recent javascript engine performance improvements, developing client-side applications is not possible.

During this step, you will learn how to develop the computer-database static website with Angular.js (training-angularjs)[https://github.com/resourcepool/training-angularjs]

N.B.: This is when you need to think like a user, and not a developer. Look at what your favorite websites have. Take a look at design best practices, and be careful to facilitate the use of your product.

End of refactoring + UX (t0 + 38 days)

4.10. Final Presentation (t0 + 39 days)

The presentation will be made with the whole group, on one project of their choice.
It consists of 3 parts:
The product-presentation, from a user-centered perspective (non-technical). You are presenting your "Computer database" product, and telling us what it does and how it was made.
A live-demonstration. Be careful, the audience may interrupt your demo and ask you to try / show something else.
A technical review: you will reassure your client on what he paid for. Give him the necessary technical data and metrics which will allow him to think "they are competent and they did the job, and I am confident that it is maintainable and well coded".

Warning: this presentation is not a restitution of what you have done. It is a simulation of the presentation of a project you would deliver to your customer.

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A 2-month fulltime java training around an incremental project. Java / JSP / Servlet / Maven / JUnit / Mockito / Selenium / Spring / Hibernate / JPA / Hikari CP / Jackson / Spring MVC / Spring Security / Gatling

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