QA has been awarded the Red Hat Training Reseller of the Year 2020 for the EMEA region
To attend any Red Hat course or exam, you will need to provide us with your unique Red Hat Network ID. If you do not have a Red Hat Network ID you can create one online here. In order to confirm your place on this course QA must share several items of basic personal information with our Partner. For more information on this please visit our QA Partner data sharing page. Bookings cannot be confirmed without this. If you have any questions or concerns please contact your QA account manager.
If you attend a virtual event, Courseware will be in PDF format and available for download on the first day of the course. Joining Instructions will be sent on the Friday before start date directly from Red Hat which will include the live virtual classroom link.
Develop microservice-based applications in Java EE with MicroProfile and OpenShift
Building on Red Hat Application Development I: Programming in Java EE (AD183), the introductory course for Java EE application development, Red Hat Application Development II: Implementing Microservice Architectures (DO283) emphasizes learning architectural principles and implementing microservices in Java EE, primarily based on MicroProfile with WildFly Swarm and OpenShift.
This course is based on Red Hat® Enterprise Application Platform 7.4 and Wildfly Swarm 2018.3.3.
You will build on Java EE application development fundamentals and focus on how to develop, monitor, test, and deploy modern microservices applications. Many enterprises are looking for a way to take advantage of cloud-native architectures, but many do not know the best way to go about it. These enterprises have monolithic applications written in Java Enterprise Edition (JEE).
- Attend Introduction to OpenShift Applications (DO101) or demonstrate equivalent experience
- Attend Red Hat Application Development I: Programming in Java EE (AD183) or demonstrate equivalent experience
- Be proficient in using an integrated development environment such as Red Hat® Developer Studio or Eclipse
- Experience with Maven is recommended, but not required
- Deploy and monitor microservice-based applications.
- Implement a microservice with MicroProfile.
- Implement unit and integration tests for microservices.
- Use the config specification to inject data into a microservice.
- Create a health check for a microservice.
- Implement fault tolerance in a microservice.
- Secure a microservice using the JSON Web Token (JWT) specification.
- Audience for this course
- This course is designed for Java developers.
Impact on the organization
Many organizations are struggling with how to make the move from monolithic applications to applications based on microservices, as well as how to reorganize their development paradigm to reap the benefits of microservice development in a DevOps economy. In particular, many organizations are invested in Java programming frameworks and Red Hat® OpenShift Container Platform. This course exposes you to the Wildfly Swarm runtime for streamlined deployment on OpenShift clusters.
Red Hat has created this course in a way intended to benefit our customers, but each company and infrastructure is unique, and actual results or benefits may vary.
Impact on the individual
As a result of attending this course, you will understand how to develop, monitor, test, and deploy microservice-based Java EE applications using Wildfly Swarm and Red Hat OpenShift.
You should be able to demonstrate these skills:
- Design a microservices-based architecture for an enterprise application.
- Implement fault tolerance and health checks for microservices.
- Secure microservices to prevent unauthorized access.
- Recommended next exam or course
- Red Hat Certified Enterprise Microservices Developer Exam (EX283)
- Introduction to Containers, Kubernetes, and Red Hat OpenShift (DO180)
- Highly recommended for those who don’t have OpenShift experience
- Red Hat OpenShift Development I: Containerizing Applications (DO288)
Describe microservice architectures
Describe components and patterns of microservice-based application architectures.
Deploy microservice-based applications
Deploy portions of the course case study applications on an OpenShift cluster.
Implement a microservice with MicroProfile
Describe the specifications in MicroProfile, implement a microservice with some of the specifications, and deploy it to an OpenShift cluster.
Implement unit and integration tests for microservices.
Inject configuration data into a microservice
Inject configuration data from an external source into a microservice.
Create application health checks
Create a health check for a microservice.
Implement fault tolerance
Implement fault tolerance in a microservice architecture.
Develop an API gateway
Describe the API gateway pattern and develop an API gateway for a series of microservices.
Secure microservices with JWT
Secure a microservice using the JSON Web Token specification.
Monitor the operation of a microservice using metrics, distributed tracing, and log aggregation.
Note: Course outline is subject to change with technology advances and as the nature of the underlying job evolves. For questions or confirmation on a specific objective or topic, please contact a training specialist online.