Patch management is concerned with the identification, acquisition, distribution, and installation of patches to systems. Proper patch management can be a net productivity boost for the organization. Patches can be used to defend against and eliminate potential vulnerabilities of a system, so that no threats may exploit them. Problems that can arise during patch management, including buggy patches that either fail to fix their problem or introduce new issues. Patch management tools can help orchestrate all of the procedures involved in patch management.

Description

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Patch management is defined as a sub-practice of various disciplines including vulnerability management (part of security management), lifecycle management (with further possible sub-classification into application lifecycle management and release management), change management, and systems management. The practice is broadly concerned with the identification, acquisition, distribution, and installation of patches to systems. Some definitions of patch management are as a software-level practice,[1] while others are as a systems-level process: software, drivers, and firmware.[2][3][4]

Cost–benefit analysis

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While reserving time for patching takes up enterprise resources, there are balancing factors which can make proper patch management into a net productivity boost for the organization. Up-to-date systems often perform more efficiently, less expensively, with less errors, less security risks, and better user workflow. Additionally, compliance with changing local and federal regulations are more likely to be satisfied.[1][2][3][4]

Relation to security management

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Patches can be used to defend against and eliminate potential vulnerabilities of a system, so that no threats may exploit them; therefore, patch management can be considered a sub-discipline of vulnerability management. Every patchable device in a system presents an attack surface that must be secured.[4]

Challenges

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There are a multitude of problems that can arise during patch management. A common issue is buggy patches, which either fail to fix their problem or introduce new issues. Another issue is deployment synchronization, since various subsystems may receive instructions to update at different times. Similarly, the difficulty of patch management across many devices may grow at an uncontrollable rate depending on organizational size.[3]

One prominent demonstration of the challenges facing proper patch management was the buggy Falcon Sensor patch by CrowdStrike which caused one of the worst IT outages of all time.[5]

Implementations

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A patch management tool (alternatively patch manager, patch management system, patch management software, or centralized patch management) help orchestrate all of the procedures involved in patch management. Tools can be in-house (applied locally by local administrators), or external, as with managed service providers (applied externally by a provider).

Patch management software

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Managed service providers

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References

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  1. ^ a b "Patch Management: Definition & Best Practices". Rapid7. Retrieved 15 July 2024.
  2. ^ a b c "What Is Patch Management?". Intel. Retrieved 15 July 2024.
  3. ^ a b c d David Essex; Brien Posey. "What is patch management? Lifecycle, benefits and best practices". TechTarget. Retrieved 15 July 2024.
  4. ^ a b c "What is patch management?". IBM. 20 December 2022. Retrieved 15 July 2024.
  5. ^ Milmo, Dan; Kollewe, Julia; Quinn, Ben; Taylor, Josh; Ibrahim, Mimi (19 July 2024). "'Largest IT outage in history' hits Microsoft Windows and causes global chaos". The Guardian. Retrieved 19 July 2024.
  6. ^ Firch, Jason (30 March 2023). "Windows Patch Management Best Practices For 2023". PurpleSec. Retrieved 15 July 2024.