Large updates add functionality to the operating system. Some patches fix issues with drivers and software running on the system. Patching also remediates bugs and adds functionality to software. Unpatched public-facing web servers are a critical issue for cybersecurity, but cybersecurity isn’t the only reason to patch Linux. Live patching adds to these benefits by eliminating the reboot process necessary after updating Linux. Integrating a patch management system will automatically detect updates, download them, and then deploy them to all servers. Patch management benefits administrators by automating the entire process. It’s also time consuming to manually patch when several patches are necessary. Human errors could lead to severely long downtimes when mistakes are made. Administrators could simply patch a Linux system manually, but this leads to human errors, and rollbacks due to issues after installation are tricky. How KernelCare Works with Patch Management Tools?īefore getting into patch automation, administrators should understand the importance of patching Linux regularly.How Live Patching Fits into the Patch Management Framework?.How Does Automated Linux Patch Management Software Work?.How to Patch Your Linux Systems Manually?.Instead of manual updates, administrators can free up time and organize patches using automation tools. In an enterprise environment, there could be hundreds of servers to manage, so the job of patch management becomes an all-day responsibility with the added risk of reboot fails after installation. To patch just one system, the administrator must identify that a patch is available, download it, and then deploy it to the system. Administrators responsible for patching Linux know that it’s practically a full-time job in a large enterprise environment.
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