This article has multiple issues. Please help improve it or discuss these issues on the talk page. (Learn how and when to remove these messages)
|
Log management is the process for generating, transmitting, storing, accessing, and disposing of log data. A log data (or logs) is composed of entries (records), and each entry contains information related to a specific event that occur within an organization’s computing assets, including physical and virtual platforms, networks, services, and cloud environments.[1]
The process of log management generally breaks down into:[2]
- Log collection - a process of capturing actual data from log files, application standard output stream (stdout), network socket and other sources.
- Logs aggregation (centralization) - a process of putting all the log data together in a single place for the sake of further analysis or/and retention.
- Log storage and retention - a process of handling large volumes of log data according to corporate or regulatory policies (compliance).
- Log analysis - a process that helps operations and security team to handle system performance issues and security incidents
Overview
editThe primary drivers for log management implementations are concerns about security,[3] system and network operations (such as system or network administration) and regulatory compliance. Logs are generated by nearly every computing device, and can often be directed to different locations both on a local file system or remote system.
Effectively analyzing large volumes of diverse logs can pose many challenges, such as:
- Volume: log data can reach hundreds of gigabytes of data per day for a large organization. Simply collecting, centralizing and storing data at this volume can be challenging.
- Normalization: logs are produced in multiple formats. The process of normalization is designed to provide a common output for analysis from diverse sources.
- Velocity: The speed at which logs are produced from devices can make collection and aggregation difficult
- Veracity: Log events may not be accurate. This is especially problematic for systems that perform detection, such as intrusion detection systems.
Users and potential users of log management may purchase complete commercial tools or build their own log-management and intelligence tools, assembling the functionality from various open-source components, or acquire (sub-)systems from commercial vendors. Log management is a complicated process and organizations often make mistakes while approaching it.[4]
Logging can produce technical information usable for the maintenance of applications or websites. It can serve:
- to define whether a reported bug is actually a bug
- to help analyze, reproduce and solve bugs
- to help test new features in a development stage
Terminology
editSuggestions were made[by whom?] to change the definition of logging. This change would keep matters both purer and more easily maintainable:
- Logging would then be defined as all instantly discardable data on the technical process of an application or website, as it represents and processes data and user input.
- Auditing, then, would involve data that is not immediately discardable. In other words: data that is assembled in the auditing process, is stored persistently, is protected by authorization schemes and is, always, connected to some end-user functional requirement.
Deployment life-cycle
editOne view[citation needed] of assessing the maturity of an organization in terms of the deployment of log-management tools might use[original research?] successive levels such as:
- in the initial stages, organizations use different log-analyzers for analyzing the logs in the devices on the security perimeter. They aim to identify the patterns of attack on the perimeter infrastructure of the organization.
- with the increased use of integrated computing, organizations mandate logs to identify the access and usage of confidential data within the security perimeter.
- at the next level of maturity, the log analyzer can track and monitor the performance and availability of systems at the level of the enterprise — especially of those information assets whose availability organizations regard as vital.
- organizations integrate the logs of various business applications into an enterprise log manager for a better value proposition.
- organizations merge the physical-access monitoring and the logical-access monitoring into a single view.
See also
editReferences
edit- ^ NIST SP 800-92r1, Cybersecurity Log Management Planning Guide
- ^ Kent, Karen; Souppaya, Murugiah (September 2006). Guide to Computer Security Log Management (Report). NIST. doi:10.6028/NIST.SP.800-92. S2CID 221183642. NIST SP 800-92.
- ^ "Leveraging Log Data for Better Security". EventTracker SIEM, IT Security, Compliance, Log Management. Archived from the original on 28 December 2014. Retrieved 12 August 2015.
- ^ "Top 5 Log Mistakes - Second Edition". Docstoc.com. Retrieved 12 August 2015.
- Chris MacKinnon: "LMI In The Enterprise". Processor November 18, 2005, Vol.27 Issue 46, page 33. Online at http://www.processor.com/editorial/article.asp?article=articles%2Fp2746%2F09p46%2F09p46.asp, retrieved 2007-09-10
- MITRE: Common Event Expression (CEE) Proposed Log Standard. Online at http://cee.mitre.org, retrieved 2010-03-03