Red Hat’s award-winning support organization and deep roots in the Java ecosystem position Red Hat as a valuable partner for organizations building and deploying business-critical Java applications wherever they choose to deploy them. Red Hat OpenShift, the industry’s most comprehensive enterprise Kubernetes platform, brings commercial support for OpenJDK to all major cloud providers, reinforcing Red Hat’s leadership and commitment to hybrid cloud and multicloud solutions.Ī Red Hat subscription provides the latest enterprise-ready software, trusted knowledge, enhanced product security, and technical support from engineers making software the open source way. Today, these applications are extending from the desktop and datacenter to the cloud, and span multiple operating systems and platforms. Unnamed classes and instance main methods (Preview feature)įor more information, see JEP 445: Unnamed Classes and Instance Main Methods (Preview).įor more information, see JEP 446: Scoped Values (Preview).įor more information, see JEP 448: Vector API (Sixth Incubator).įor more information, see JEP 452: Key Encapsulation Mechanism API.įor more information, see JEP 453: Structured Concurrency (Preview).As one of the most popular programming languages in use today, Java is used by developers across industries to create modern applications that are at the heart of digital infrastructure. Unnamed patterns and variables (Preview feature)įor more information, see JEP 443: Unnamed Patterns and Variables (Preview).įor more information, see JEP 444: Virtual Threads. ![]() ![]() Reimplement core reflection with method handlesįor more information, see JEP 416: Reimplement Core Reflection with Method Handles.įor more information, see JEP 418: Internet-Address Resolution SPI.įor more information, see JEP 422: Linux/RISC-V Port.įor more information, see JEP 429: Scoped Values (Preview).įor more information, see JEP 430: String Templates (Preview).įor more information, see JEP 431: Sequenced Collections.įor more information, see JEP 439: Generational ZGC.įor more information, see JEP 440: Record Patterns.įor more information, see JEP 441: Pattern Matching for switch.įoreign function and memory (FFM) API (Third preview)įor more information, see JEP 442: Foreign Function & Memory API (Third Preview). Red Hat build of OpenJDK on Microsoft Windows uses the latest available CA certificates from RHEL.įor more information, see JEP 400: UTF-8 by Default.įor more information, see JEP 408: Simple Web Server.įor more information, see JEP 413: Code Snippets in Java API Documentation. Red Hat build of OpenJDK on Microsoft Windows includes the latest available timezone data from RHEL. Red Hat build of OpenJDK on RHEL uses system-wide CA certificates. Red Hat build of OpenJDK on RHEL uses system-wide timezone data files as a source for timezone information. The src.zip file includes the source for all of the JAR libraries shipped with Red Hat build of OpenJDK. This change does not apply to Red Hat build of OpenJDK builds for Microsoft Windows. You can set different security profiles to balance safety and compatibility. ![]() These configuration components are used by the Transport Layer Security (TLS) encryption protocol, the certificate path validation, and any signed JARs. Red Hat build of OpenJDK 21 obtains the list of enabled cryptographic algorithms and key size constraints from the RHEL system configuration. This change does not apply to Red Hat build of OpenJDK builds for Microsoft Windows.Ĭryptographic policy support. Red Hat build of OpenJDK 21 automatically detects whether RHEL is in FIPS mode and automatically configures Red Hat build of OpenJDK 21 to operate in that mode.
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