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DO720 – Container Adoption Boot Camp for Developers

Course Summary:

Supporting the adoption of container technology through the development of container-native applications The Container Adoption Boot Camp for Developers (DO720) immerses you in intensive, hands-on development of container-native applications deployed on Red Hat's implementation of Kubernetes, Red Hat® OpenShift® Container Platform. As part of enrollment, you will receive one year of Red Hat Learning Subscription Standard, which gives you unlimited access to all of our courses online, plus up to five certification exams and two retakes. This boot camp is for those seeking to make a quantum leap in their journey toward digital transformation. Making this shift involves developing software in tight iterations so that business value can be realized sooner. In order to accomplish this goal, this offering can facilitate the adoption of container-native applications, including microservices. This collection of courses is based on Red Hat OpenShift Container Platform 4.10.

Course Duration: 10 Days


Course Content:

Outline

  • Introduction to container technology: Describe how software can run in containers orchestrated by OpenShift Container Platform.
  • Create containerized services: Provision a service using container technology.
  • Manage containers: Modify prebuilt container images to create and manage containerized services.
  • Manage container images: Manage the life cycle of a container image from creation to deletion.
  • Create custom container images: Design and code a Dockerfile to build a custom container image.
  • Deploy containerized applications: Deploy applications on OpenShift Container Platform.
  • Deploy multi-container applications: Deploy applications that are containerized using multiple container images.
  • Troubleshoot containerized applications: Troubleshoot a containerized application deployed on OpenShift.
  • Deploy and manage applications on an OpenShift cluster: Deploy applications using various application packaging methods to an OpenShift cluster and manage their resources.
  • Design containerized applications for OpenShift: Select a containerization method for an application and create a container to run on an OpenShift cluster.
  • Publish enterprise container images: Create an enterprise registry and publish container images to it.
  • Build applications: Describe the OpenShift build process, build triggers, and manage builds.
  • Create applications from OpenShift templates: Describe the elements of a template and create a multi-container application template.
  • Manage application deployments: Monitor application health and implement various deployment methods for cloud-native applications.
  • Implement continuous integration and continuous deployment pipelines in OpenShift: Create and deploy Jenkins pipelines to facilitate continuous integration and deployment with OpenShift.
  • Describe microservice architectures: Describe components and patterns of microservice-based application architectures.
  • Implement a microservice with Quarkus: Deploy Red Hat OpenShift Service Mesh on OpenShift Container Platform.
  • Test microservices: Implement unit and integration tests for microservices.
  • Deploy microservice-based applications: Deploy Quarkus microservice applications to an OpenShift cluster.
  • Build microservice applications with Quarkus: Build a persistent and configurable distributed quarkus microservices application.
  • Test microservices: Implement unit and integration tests for microservices.
  • Secure microservices: Secure a microservice using OAuth.
  • Monitor microservices: Monitor the operation of a microservice using metrics, distributed tracing, and log aggregation.
  • Introduction to Red Hat OpenShift Service Mesh: Describe the basic concepts of microservice architecture and OpenShift Service Mesh.
  • Observe a service mesh: Trace and visualize an OpenShift Service Mesh with Jaeger and Kiali.
  • Control service traffic: Manage and route traffic with OpenShift Service Mesh
  • Release applications with OpenShift Service Mesh: Release applications with canary and mirroring release strategies.
  • Test service resilience with chaos testing: Test the resiliency of an OpenShift Service Mesh with chaos testing.
  • Build resilient services: Use OpenShift Service Mesh strategies to create resilient services.
  • Secure an OpenShift Service Mesh: Secure and encrypt services in your application with OpenShift Service Mesh.