Custom policies in Red Hat 3scale API Management, Part 1: Overview

Custom policies in Red Hat 3scale API Management, Part 1: Overview

sjayanti
By Satya Jayanti

API management platforms such as Red Hat 3scale API Management provide an API gateway as a reverse proxy between API requests and responses. In this stage, most API management platforms optimize the request-response pathway and avoid introducing complex processing and delays. Such platforms provide minimal policy enforcement such as authentication, authorization, and rate-limiting. With the proliferation of API-based integrations, however, customers are demanding more fine-tuned capabilities.

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5 steps to manage your first API using Red Hat OpenShift API Management

5 steps to manage your first API using Red Hat OpenShift API Management

evanshortiss
By Evan Shortiss

Companies are increasingly using hosted and managed services to deliver on application modernization efforts and reduce the burden of managing cloud infrastructure. The recent release of Red Hat OpenShift API Management makes it easier than ever to get your own dedicated instance of Red Hat 3scale API Management running on Red Hat OpenShift Dedicated.

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X.509 user certificate authentication with Red Hat’s single sign-on technology

X.509 user certificate authentication with Red Hat’s single sign-on technology

orivat
By Olivier Rivat

This article illustrates how to configure a browser authentication flow using X.509 user-signed certificates. Once you have set up authentication using X.509 user-signed certificates, your users will not be required to enter a username and password when authenticating against Red Hat’s single sign-on technology (SSO). Instead, they will present an X.509 certificate to the SSO instance.

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Integrating Spring Boot with Red Hat Integration Service Registry

Integrating Spring Boot with Red Hat Integration Service Registry

rmartin
By Roman Martin Gil

Most of the new cloud-native applications and microservices designs are based on event-driven architecture (EDA), responding to real-time information by sending and receiving information about individual events. This kind of architecture relies on asynchronous, non-blocking communication between event producers and consumers through an event streaming backbone such as Red Hat AMQ Streams running on top of Red Hat OpenShift. In scenarios where many different events are being managed, defining a governance model where each event is defined as an API is critical. That way, producers and consumers can produce and consume checked and validated events. We can use a service registry as a datastore for events defined as APIs.

From my field experience working with many clients, I’ve found the most typical architecture consists of the following components:

In this article, you will learn how to easily integrate your Spring Boot applications with Red Hat Integration Service Registry, which is based on the open source Apicurio Registry.

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Developing your own custom devfiles for odo 2.0

Developing your own custom devfiles for odo 2.0

gorkeme
By Gorkem Ercan

Odo 2.0 introduces a configuration file named devfile.yaml. Odo uses this configuration file to set up cloud-native projects and determine the actions required for events such as building, running, and debugging a project. If you are an Eclipse Che user, devfile.yaml should sound familiar: Eclipse Che uses devfiles to express developer workspaces, and they have proven to be flexible to accommodate a variety of needs.

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Enhancing the development loop with Quarkus remote development

Enhancing the development loop with Quarkus remote development

danieloh30
By Daniel Oh

Kubernetes is an established foundation layer for cloud-native microservices and serverless architectures. By automating application deployment, scaling, and management, Kubernetes changes the developer’s daily workflow in terms of inner loop development (local coding, building, running, and testing the application) and outer loop development (integration testing, continuous deployment, and security). Developers using Kubernetes also must plan for containerization, debugging code inside pods, and automating test cases.

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Add standardized support information to your Node.js modules

Add standardized support information to your Node.js modules

lholmqui
By Lucas Holmquist

The Nodeshift team recently improved the consistency of the projects we use to maintain our Node.js modules. We made sure that the same linter and tests—ESLint and Tape, for those interested—were used on all projects. We also added support information for the modules we publish to the npm registry. We looked to the Node.js Package Maintenance Working Group for the standardized support information to add.

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