Difference between pages "BSD" and "Memory analysis"

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'''Berkeley Software Distribution''' ('''BSD''') is one of the three major derivates of the [[Unix]] [[operating system]] from which many versions have been created such as [[OpenBSD]], [[FreeBSD]], [[NetBSD]], [[Trusted BSD]], and very early versions of [[Sun]]’s [[Solaris]]. BSD was first released in the late 1970s and continues to have a strong following today exhibited in the continued existence of the above versions. The only exception is Sun who switched the design of their operating system over to [[System V]] Release 4.
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'''Memory Analysis''' is the science of using a [[Memory Imaging|memory image]] to determine information about running programs, the [[operating system]], and the overall state of a computer. Because the analysis is highly dependent on the operating system, it has been divded into the following pages:
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* [[Windows Memory Analysis]]
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* [[Linux Memory Analysis]]
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== OS-Independent Analysis ==
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At the IEEE Security and Privacy conference in May 2011, Brendan Dolan-Gavitt presented a novel system, [http://www.cc.gatech.edu/~brendan/Virtuoso_Oakland.pdf Virtuoso], that was able to perform operating-system independent memory analysis. Using virtual machine introspection accompanied by a number of formal program analysis techniques, his system was able to monitor the machine-level instructions and behavior of application actions (listing processes, network connections, etc) and then automatically generate Volatility plugins that replicated this analysis.
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== Encryption Keys ==
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Various types of encryption keys can be extracted during memory analysis.
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* [[AESKeyFinder]] extracts 128-bit and 256-bit [[AES]] keys and [[RSAKeyFinder]] and private and public [[RSA]] keys from a memory dump [http://citp.princeton.edu/memory/code/].
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* [http://jessekornblum.com/tools/volatility/cryptoscan.py cryptoscan.py], which is a [[List of Volatility Plugins|plugin for the Volatility framework]], scans a memory image for [[TrueCrypt]] passphrases
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== See Also ==
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* [[Memory Imaging]]
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* [[:Tools:Memory Imaging|Memory Imaging Tools]]
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* [[:Tools:Memory Analysis|Memory Analysis Tools]]
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== External Links ==
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=== Volatility Labs ===
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* [http://volatility-labs.blogspot.ch/2012/09/movp-11-logon-sessions-processes-and.html MoVP 1.1 Logon Sessions, Processes, and Images]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-12-window-stations-and-clipboard.html MoVP 1.2 Window Stations and Clipboard Malware]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-13-desktops-heaps-and-ransomware.html MoVP 1.3 Desktops, Heaps, and Ransomware]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-14-average-coder-rootkit-bash.html MoVP 1.4 Average Coder Rootkit, Bash History, and Elevated Processes]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-15-kbeast-rootkit-detecting-hidden.html MoVP 1.5 KBeast Rootkit, Detecting Hidden Modules, and sysfs]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-21-atoms-new-mutex-classes-and-dll.html MoVP 2.1 Atoms (The New Mutex), Classes and DLL Injection]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-22-malware-in-your-windows.html MoVP 2.2 Malware In Your Windows]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-23-event-logs-and-service-sids.html MoVP 2.3 Event Logs and Service SIDs]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-24-analyzing-jynx-rootkit-and.html MoVP 2.4 Analyzing the Jynx rootkit and LD_PRELOAD]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-25-investigating-in-memory-network.html MoVP 2.5: Investigating In-Memory Network Data with Volatility]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-31-detecting-malware-hooks-in.html MoVP 3.1 Detecting Malware Hooks in the Windows GUI Subsystem]
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* [http://volatility-labs.blogspot.ch/2012/09/howto-scan-for-internet-cachehistory.html HowTo: Scan for Internet Cache/History and URLs]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-32-shellbags-in-memory-setregtime.html MoVP 3.2 Shellbags in Memory, SetRegTime, and TrueCrypt Volumes]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-33-analyzing-user-handles-and.html MoVP 3.3 Analyzing USER Handles and the Win32k.sys Gahti]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-34-recovering-tagclipdata-whats-in.html MoVP 3.4: Recovering tagCLIPDATA: What's In Your Clipboard?]
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* [http://volatility-labs.blogspot.ch/2012/09/movp-35-analyzing-2008-dfrws-challenge.html MoVP 3.5: Analyzing the 2008 DFRWS Challenge with Volatility]
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=== Volatility Videos ===
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* [http://sketchymoose.blogspot.ch/2011/10/set-up-to-more-memory-forensics.html Set Up to More Memory Forensics!], October 2011
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* [http://www.youtube.com/watch?v=8HsZLge0wWc Using Volatility: Suspicious Process (1/2)]
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* [http://www.youtube.com/watch?v=XTZPNk-Esok Using Volatility: Suspicious Process (Part 2/2)]
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[[Category:Memory Analysis]]

Revision as of 01:21, 29 September 2012

Memory Analysis is the science of using a memory image to determine information about running programs, the operating system, and the overall state of a computer. Because the analysis is highly dependent on the operating system, it has been divded into the following pages:

OS-Independent Analysis

At the IEEE Security and Privacy conference in May 2011, Brendan Dolan-Gavitt presented a novel system, Virtuoso, that was able to perform operating-system independent memory analysis. Using virtual machine introspection accompanied by a number of formal program analysis techniques, his system was able to monitor the machine-level instructions and behavior of application actions (listing processes, network connections, etc) and then automatically generate Volatility plugins that replicated this analysis.

Encryption Keys

Various types of encryption keys can be extracted during memory analysis.

See Also

External Links

Volatility Labs

Volatility Videos