Release Notes for Red Hat Integration 2021.Q1
What's new in Red Hat Integration
fuse-docs-support@redhat.com
Abstract
Chapter 1. Red Hat Integration
Red Hat Integration is a comprehensive set of integration and event processing technologies for creating, extending, and deploying container-based integration services across hybrid and multicloud environments. Red Hat Integration provides an agile, distributed, and API-centric solution that organizations can use to connect and share data between applications and systems required in a digital world.
Red Hat Integration includes the following capabilities:
- API connectivity
- Data transformation
- Service composition and orchestration
- Real-time messaging
- Cross-datacenter message streaming
- API management
Additional resources
Chapter 2. New features in this release
This section provides a summary of the key new features in Red Hat Integration 2021.Q1 and provides links to more details on new features available in different components.
These release notes include details on components updated in Red Hat Integration 2021.Q1 only. For details on the latest versions of other components, such as Service Registry, see Red Hat Integration Release Notes for 2020-Q4.
2.1. New integration features
- Red Hat Integration Operator
- Install and upgrade the OpenShift Operators that manage your Red Hat Integration components with Red Hat Integration Operator 1.0
- Data integration
- Change data capture and real-time events, including new DB2 connector and integration with Service Registry in Debezium 1.4
- Serverless Camel K
- Cloud-native integration for serverless architectures based on Camel 3.7 with Red Hat Integration - Camel K (Technology Preview)
- Event-driven Camel Kafka connectors
- Camel components available as Kafka connectors to external systems with Camel Kafka Connector (Technology Preview)
2.2. New component features
For more details on what’s new in Red Hat Integration 2021.Q1 components:
Chapter 3. Debezium release notes
Red Hat Integration 2021.Q1 includes a General Availability release of Debezium on OpenShift based on the Debezium open source project. Debezium is a distributed change data capture platform that tracks database operations and streams data change events. Debezium is built on Apache Kafka and is deployed and integrated with AMQ Streams.
Debezium captures row-level changes to database tables and passes corresponding change event records to AMQ Streams. Applications can read these change event streams and access the change events in the order in which they occurred.
The following topics provide release details:
3.1. Debezium database connectors
Debezium provides connectors based on Kafka Connect for the following common databases:
- Db2
- MongoDB
- MySQL
- PostgreSQL
SQL Server
NoteThe Db2 connector requires the use of the abstract syntax notation (ASN) libraries, which are available as a standard part of Db2 for Linux.
- To use the ASN libraries, you must have a license for IBM InfoSphere Data Replication (IIDR).
- You do not have to install IIDR to use the libraries.
- Currently, you cannot use the transaction metadata feature of the Debezium MongoDB connector with MongoDB 4.2.
-
The Debezium PostgreSQL connector requires you to use the
pgoutput
logical decoding output plug-in, which is the default for PostgreSQL versions 10 and later.
Additional resources
3.2. Debezium supported configurations
For information about Debezium supported configurations, including information about supported database versions, see the Debezium 1.4 Supported configurations page.
3.3. Debezium installation options
You can install Debezium with AMQ Streams on OpenShift or RHEL:
Technology Preview features are not supported with Red Hat production service-level agreements (SLAs) and might not be functionally complete. Red Hat does not recommend implementing any Technology Preview features in production environments. This Technology Preview feature provides early access to upcoming product innovations, enabling you to test functionality and provide feedback during the development process. For more information about support scope, see Technology Preview Features Support Scope.
3.4. New Debezium features
Debezium 1.4 includes the following updates:
- Promoted to GA
The following features that were offered as Technology Previews in the previous release are now available for General Availability:
- Debezium Db2 connector
- Connector for IBM Db2 database (LUW)
- Content-based router
- Single message transformation (SMT) for re-routing data change event records to topics based on event content.
- Filter SMT
- Evaluates expressions for each change event and drops or emits the event based on the evaluation result.
- Avro serialization
- Support for configuring Debezium connectors to use Avro to serialize message keys and values.
- Technology Preview features
- CloudEvents converter
- Emits change event records that conform to the CloudEvents specification. Avro encoding type is now supported for the CloudEvents envelope structure.
- Outbox event router
- SMT that supports the outbox pattern for safely and reliably exchanging data between multiple (micro) services.
- Debezium documentation
- Information about how to enable and customize Kafka Connect automatic topic creation.
- Information about how the capture job configurations on Db2 and SQL Server affect server load and latency.
Chapter 4. Camel K release notes
Red Hat Integration - Camel K is available as a Technology Preview component in Red Hat Integration 2021.Q1. Camel K is a lightweight integration framework built from Apache Camel K that runs natively in the cloud on OpenShift. Camel K is specifically designed for serverless and microservice architectures. You can use Camel K to instantly run integration code written in Camel Domain Specific Language (DSL) directly on OpenShift.
Using Camel K with OpenShift Serverless and Knative, containers are automatically created only as needed and are autoscaled under load up and down to zero. This removes the overhead of server provisioning and maintenance and enables you to focus instead on application development.
Using Camel K with OpenShift Serverless and Knative Eventing, you can manage how components in your system communicate in an event-driven architecture for serverless applications. This provides flexibility and creates efficiencies using a publish/subscribe or event-streaming model with decoupled relationships between event producers and consumers.
Technology Preview features are not supported with Red Hat production service-level agreements (SLAs) and might not be functionally complete. Red Hat does not recommend implementing any Technology Preview features in production environments.
This Technology Preview feature provides early access to upcoming product innovations, enabling you to test functionality and provide feedback during the development process. For more information about support scope, see Technology Preview Features Support Scope.
4.1. New Camel K features
The Camel K Technology Preview provides cloud-native integration with the following main features:
4.1.1. Platform and core component versions
- OpenShift Container Platform 4.6 or 4.7
- OpenShift Serverless 1.13
- Quarkus 1.7 Java runtime
- Apache Camel K 1.3
- Apache Camel 3.7
- Apache Camel Quarkus 1.5
- OpenJDK 11
4.1.2. Technology Preview features
- Knative Serving for autoscaling and scale-to-zero
- Knative Eventing for event-driven architectures
- Performance optimizations using Quarkus runtime by default
- Camel integrations written in Java, XML, or YAML DSL
- Development tooling with Visual Studio Code
- Monitoring of integrations using Prometheus in OpenShift
- Quickstart tutorials, including new Transformations and SaaS
- Kamelet Catalog for source connectors to external systems such as AWS, Jira, and Salesforce
Additional resources
4.1.3. Camel K Operator metadata
The Camel K Technology Preview includes updated Operator metadata used to install Camel K from the OpenShift OperatorHub. This Operator metadata includes the Operator bundle format for release packaging, which is designed for use with OpenShift Container Platform 4.6 or later.
Additional resources
4.2. Camel K known issues
The following known issues apply to the Camel K Technology Preview:
ENTESB-15306 - CRD conflicts between Camel K and Fuse Online
If an older version of Camel K has ever been installed in the same OpenShift cluster, installing Camel K from the OperatorHub fails due to conflicts with custom resource definitions. For example, this includes older versions of Camel K previously available in Fuse Online.
For a workaround, you can install Camel K in a different OpenShift cluster, or enter the following command before installing Camel K:
$ oc get crds -l app=camel-k -o json | oc delete -f -
ENTESB-15787 - kamel run commmand does not work for remote files on Windows
On Windows, the kamel run
command raises an error when attempting to run remote Camel integration files. For example:
> kamel run https://raw.githubusercontent.com/apache/camel-k/b29333f0a878d5d09fb3965be8fe586d77dd95d0/e2e/common/files/yaml.yaml panic: runtime error: invalid memory address or nil pointer dereference...
ENTESB-15858 - Added ability to package and run Camel integrations locally or as container images
Packaging and running Camel integrations locally or as container images is not currently included in the Camel K Technology Preview and has community-only support.
For more details, see the Apache Camel K community.
ENTESB-15893 - Camel K catalog contains camel-quarkus-spark reference and cannot deploy integrations with Apache Spark
The Camel K catalog includes the camel-quarkus-spark
component, which is no longer included the in the Bill of Materials (BOM) for Camel Quarkus extensions. When you try to deploy a Camel K integration using the Spark component in Camel Quarkus, the integration cannot be compiled due to this missing dependency.
For more details, see the Spark component in Camel Quarkus.
ENTESB-15930 - Camel K dependency autoloading not working correctly with YAML format
When using the - route
attribute in Camel integrations written in YAML, Camel K dependency autoloading does not work correctly. However, Camel K dependency autoloading works correctly when using the - from
attribute instead.
For more details, see the Apache Camel K community.
4.3. Camel K fixed issues
The following issues have been fixed in the Camel K Technology Preview:
4.3.1. Fixed CVE security issues
ENTESB-14997 - CVE-2020-25649 jackson-databind: FasterXML DOMDeserializer insecure entity expansion is vulnerable to XML external entity
A flaw was found in FasterXML Jackson Databind, where it did not have entity expansion secured properly. This flaw allowed vulnerability to XML external entity (XXE) attacks. The highest threat from this vulnerability was data integrity.
Chapter 5. Camel Kafka Connector release notes
Camel Kafka Connector is available as a Technology Preview component in Red Hat Integration 2021.Q1.
Note: There are no plans for a release of Camel Kafka Connector beyond the unsupported Technology Preview release.
Using Camel Kafka Connector, you can configure standard Camel components as connectors in Kafka Connect. This widens the scope of possible integrations beyond the external systems supported by Kafka Connect alone.
Camel Kafka Connector provides a user-friendly way to configure Camel components directly in the Kafka Connect framework. You can leverage Camel components for integration with different systems by connecting to or from Camel Kafka sink or source connectors. You do not need to write any code, and can include the appropriate connector JARs in your Kafka Connect image and configure the connector options using custom resources.
Camel Kafka Connector is built on Apache Camel Kafka Connector, which is a subproject of the Apache Camel open source community. Camel Kafka Connector is fully integrated with OpenShift Container Platform, AMQ Streams, and Kafka Connect. Camel Kafka Connector is available with the Red Hat Integration - Camel K distribution for cloud-native integration on OpenShift.
Technology Preview features are not supported with Red Hat production service-level agreements (SLAs) and might not be functionally complete. Red Hat does not recommend implementing any Technology Preview features in production environments.
For more information about support scope, see Technology Preview Features Support Scope.
5.1. New Camel Kafka Connector features
The Camel Kafka Connector Technology Preview includes the following main features:
5.1.1. Platform and core component versions
- OpenShift Container Platform 4.6 or 4.7
- Red Hat Enterprise Linux 8.x
- AMQ Streams 1.6
- Apache Kafka Connect 2.6
- Apache Camel Kafka Connector 0.7.1
- Apache Camel 3.7
- OpenJDK 11
5.1.2. Technology Preview features
- Selected Camel Kafka connectors
- Marshaling/unmarshalling of Camel data formats for sink and source connectors
- Aggregation for sink connectors
- Maven archetypes for extending connectors
5.1.3. Technology Preview Camel Kafka connectors
Table 5.1. Camel Kafka connectors in Technology Preview
Connector | Sink/source |
---|---|
Amazon Web Services (AWS2) Kinesis | Sink and source |
Amazon Web Services (AWS2) S3 | Sink and source |
Amazon Web Services (AWS2) SNS | Sink only |
Amazon Web Services (AWS2) SQS | Sink and source |
Azure Storage Blob | Sink only |
Azure Storage Queue | Sink only |
Cassandra Query Language (CQL) | Sink and source |
Elasticsearch | Sink only |
File | Sink only |
Hadoop Distributed File System (HDFS) | Sink only |
Hypertext Transfer Protocol (HTTP) | Sink only |
Java Database Connectivity (JDBC) | Sink only |
Java Message Service (JMS) | Sink and source |
MongoDB | Sink and source |
RabbitMQ | Sink and source |
SQL | Sink and source |
SSH | Sink and source |
Syslog | Sink and source |
Timer | Source only |
Additional resources
5.2. Camel Kafka Connector fixed issues
The following issues have been fixed in the Camel Kafka Connector Technology Preview:
5.2.1. Fixed CVE security issues
ENTESB-14997 - CVE-2020-25649 jackson-databind: FasterXML DOMDeserializer insecure entity expansion is vulnerable to XML external entity
A flaw was found in FasterXML Jackson Databind, where it did not have entity expansion secured properly. This flaw allowed vulnerability to XML external entity (XXE) attacks. The highest threat from this vulnerability was data integrity.
Chapter 6. Red Hat Integration Operators
Red Hat Integration provides Operators to automate the deployment of Red Hat Integration components on OpenShift. You can use the Red Hat Integration Operator to manage multiple component Operators. Alternatively, you can manage each component Operator individually. This section introduces Operators and provides links to detailed information on how to use Operators to deploy Red Hat Integration components.
6.1. What Operators are
Operators are a method of packaging, deploying, and managing a Kubernetes application. They take human operational knowledge and encode it into software that is more easily shared with consumers to automate common or complex tasks.
In OpenShift Container Platform 4.x, the Operator Lifecycle Manager (OLM) helps users install, update, and generally manage the life cycle of all Operators and their associated services running across their clusters. It is part of the Operator Framework, an open source toolkit designed to manage Kubernetes native applications (Operators) in an effective, automated, and scalable way.
The OLM runs by default in OpenShift Container Platform 4.x, which aids cluster administrators in installing, upgrading, and granting access to Operators running on their cluster. The OpenShift Container Platform web console provides management screens for cluster administrators to install Operators, as well as grant specific projects access to use the catalog of Operators available on the cluster.
OperatorHub is the graphical interface that OpenShift cluster administrators use to discover, install, and upgrade Operators. With one click, these Operators can be pulled from OperatorHub, installed on the cluster, and managed by the OLM, ready for engineering teams to self-service manage the software in development, test, and production environments.
Additional resources
- For more information about Operators, see the OpenShift documentation.
6.2. Red Hat Integration Operator
You can use the Red Hat Integration Operator to install and upgrade multiple Red Hat Integration component Operators:
- 3scale
- 3scale APIcast
- AMQ Broker
- AMQ Interconnect
- AMQ Streams
- API Designer
- Camel K
- Fuse Console
- Fuse Online
- Service Registry
6.2.1. Support life cycle
To remain in a supported configuration, you must deploy the latest Red Hat Integration Operator version. Each Red Hat Integration Operator release version is only supported for 3 months.
Additional resources
- For more details on managing multiple Red Hat Integration component Operators, see Installing the Red Hat Integration Operator on OpenShift.
6.3. Red Hat Integration component Operators
You can install and upgrade each Red Hat Integration component Operator individually, for example, using the 3scale Operator, the Camel K Operator, and so on.
6.3.1. 3scale Operators
6.3.2. AMQ Operators
6.3.3. Camel K Operator
6.3.4. Fuse Operators
6.3.5. Service Registry Operator
Additional resources
- For details on managing multiple Red Hat Integration component Operators, see Installing the Red Hat Integration Operator on OpenShift.