{"results":[{"id":"database-packages-appstream","text":"Database server packages on RHEL 9 come from the AppStream repository using module streams for version selection.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"database-packages-from-appstream","text":"Database server packages on RHEL 9 are provided from the AppStream repository using module streams for version selection.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-aide-integrity-workflow","text":"AIDE provides a complete file integrity monitoring workflow: three operations (init/check/update), mandatory database rename after generation, AppStream package source, with the critical caveat that it is detection-only.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-aide-requires-appstream","text":"The `aide` package requires the AppStream repository for installation.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-application-runtime-platform","text":"RHEL 9 provides a managed application runtime platform with relational databases (MariaDB/MySQL/PostgreSQL via AppStream module streams), a controlled Python ecosystem (venv isolation, AppStream version selection, platform-python reserved), and RPM packaging tools for custom software distribution.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-appstream-initial-versions-plain-rpm","text":"In RHEL 9, initial Application Stream versions install as plain RPMs via `dnf install` without needing `dnf module enable` first.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-appstream-modules-multiple-versions","text":"AppStream uses modules to deliver multiple versions of the same software (e.g., different Python or Node.js streams); modularity is not present in BaseOS.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-appstream-rpm-and-modules","text":"The AppStream repository delivers additional applications, runtime languages, databases, and tools as both traditional RPMs and modules.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-appstream-shorter-lifecycles","text":"Some Application Streams have shorter support lifecycles than the base RHEL 9 OS.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-baseos-appstream-both-required","text":"Both BaseOS and AppStream repositories are required for a complete RHEL 9 installation.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-baseos-appstream-required-repos","text":"RHEL 9 content is split into two required repositories: BaseOS (core OS foundation) and AppStream (additional user-space applications, runtimes, databases).","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-baseos-vs-appstream-purpose","text":"BaseOS provides core OS functionality (full RHEL support lifecycle); AppStream provides additional user-space applications, runtime languages, and databases.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-boot-iso-requires-network","text":"The Boot ISO requires network access to BaseOS/AppStream repositories to install packages; the Installation ISO (Binary DVD) contains both repos.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-complete-system-lifecycle-management","text":"RHEL 9 manages the complete temporal system lifecycle: automated provisioning (Image Builder blueprints, Kickstart, Anaconda) for initial deployment, structured patch management (BaseOS/AppStream content split, DNF security update filtering, advisory-driven remediation) for day-2 operations, and dual upgrade paradigms (Leapp sequential in-place upgrades, bootc image-based atomic updates) for major version transitions.","truth_value":"OUT","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-content-delivery-architecture","text":"RHEL 9 content is architecturally split into two mandatory repositories: BaseOS (core OS foundation, RPMs only) and AppStream (user-space applications delivered as both RPMs and modules), with modules enabling multiple concurrent software versions and some Application Streams having shorter support lifecycles than the base OS.","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-content-gated-provisioning-pipeline","text":"RHEL 9 provisioning depends on a subscription-gated content chain: systems must first register (GUI/TUI, subscription-manager, or activation key) and establish repository access (CDN or Satellite) before the provisioning pipeline (Image Builder blueprints, Kickstart automation, Anaconda installation) can source packages from BaseOS and AppStream.","truth_value":"OUT","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-continuous-os-evolution-strategy","text":"RHEL 9 supports continuous OS evolution from routine security patches (DNF advisory-filtered updates across BaseOS/AppStream with severity filtering) through major version transitions (Leapp sequential in-place upgrades with mandatory preupgrade assessment) to image-based atomic updates (rpm-ostree/bootc with health-check rollback for Edge deployments).","truth_value":"IN","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-coordinated-platform-evolution","text":"RHEL 9 evolves the OS foundation (security patches, minor releases, Leapp major upgrades, rpm-ostree atomic updates) and application layer (deprecation-driven networking/virtualization/container modernization with AppStream versioning) as a coordinated platform evolution strategy.","truth_value":"OUT","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-full-lifecycle-infrastructure","text":"RHEL 9 supports full infrastructure lifecycle from image creation and automated deployment (Image Builder, Kickstart, Anaconda) through content delivery (BaseOS + AppStream repositories) to ongoing configuration management (Ansible system roles with dual naming, covering timesync, network, SELinux, storage, firewall, logging, and kdump).","truth_value":"OUT","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null},{"id":"rhel9-managed-application-workload-infrastructure","text":"RHEL 9 provides fully managed application workload infrastructure combining compute (KVM/QEMU/libvirt with Cockpit management), encrypted storage (LVM three-layer abstraction with LUKS2/NBDE automated decryption), and application runtimes (relational databases via AppStream, managed Python ecosystem, RPM packaging lifecycle) into a single integrated platform.","truth_value":"OUT","justification_count":0,"dependent_count":0,"challenges":[],"last_reviewed":null,"review_result":null}],"count":31,"limit":20,"offset":0}