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Digital Forensics

Digital Forensics. Dr. Bhavani Thuraisingham The University of Texas at Dallas Lecture #5 Technology and Services September 9, 2009. Review of Lectures. Part 1 of the Course Reference: Part 1 of the Book + Links given in Lectures Lecture 1: Introduction to Digital Forensics

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Digital Forensics

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  1. Digital Forensics Dr. Bhavani Thuraisingham The University of Texas at Dallas Lecture #5 Technology and Services September 9, 2009

  2. Review of Lectures • Part 1 of the Course • Reference: Part 1 of the Book + Links given in Lectures • Lecture 1: Introduction to Digital Forensics • Lecture 2: Background on Cyber Security • Lecture 3: Data Recovery and Evidence Collection • Lecture 4: Malicious Code Detection: How do you detect that the problem has occurred? • Lecture 5: Forensics Technologies and Services • Part 2 of the Course • Part 2 of the Book • Lecture 6: Data Acquisition Details (September 14, 2009)

  3. Assignment #1 • Text Book • Hands-on Project 2.1 • Hands-on Project 2.2 • Chapter 2 • Page 68-69 • Due: Wednesday September 23, 2009

  4. Outline • Forensics Technologies • Forensics Technology • Military, Law Enforcement, Business Forensics • Forensics Techniques • Finding Hidden Data, Spyware, Encryption, Data Protection, Tracing, Data Mining • Security Technologies • Wireless, Firewalls, Biometrics • Services • Cyber crime, Cyber detective, Risk Managemen, Investigative services, Process improvement

  5. Introduction • Digital forensics includes computer forensics and network forensics • Computer forencis • gathers evidence from computer media seized at crime scene • Issues involve imaging storage media, recovering deleted files, searching slack and free space, preserving the collected information for litigation • Network forencis • Analysis of computer network intrusion evidence

  6. Military Forensics • CFX-2000: Computer Forencis Experiment 2000 • Information Directorate (AFRL) partnership with NIJ/NLECTC • Hypothesis: possible to determine the motives, intent, targets, sophistication, identity and location of cyber terrorists by deploying an integrated forensics analysis framework • Tools included commercial products and research prototypes • http://www.afrlhorizons.com/Briefs/June01/IF0016.html • http://rand.org/pubs/monograph_reports/MR1349/MR1349.appb.pdf

  7. Law Enforcement Forensics • Commonly examined systems: Windows NT, Windows 2000, XP and 2003 • Preserving evidence • Mirror image backups: Safe Back technology from New Technologies Inc. • Tools to handle • Trojan Horse programs / File slacks • Data Hiding Techniques • AnaDisk analyzes diskettes • COPYQM duplicates diskettes • E-Commerce investigation: Net Threat Analyzer • Text search: TextSearch Plus tool • Fuzzy logic/data mining tools to identify unknown text • Intelligent Forensics Filter

  8. Business Forensics • Remote monitoring of target computers • Data Interception by Remote Transmission (DIRT) from Codex Data Systems • Creating trackable electronic documents • Theft recovery software for laptops and PCs • PC Phonehome tool • RFID technology

  9. Forensics Techniques • Techniques for finding, preserving and preparing evidence • Finding evidence is a complex process as the forensic expert has to determine where the evidence resides • Evidence may be in files, evidence may be in disks, evidence may be on paper. Need to track all types of evidence • Preserving evidence includes ensuring that the evidence is not tampered with • Involves pre-incident planning and training in incident discovery procedures’ If the machine is turned on, leave it on; do not run programs on that particular computer • Preparing evidence will include data recovery, documentation, etc.

  10. Finding Hidden Data • When files are deleted, usually they can be recovered • The files are marked as deleted, but they are still residing in the disk until they are overwritten • Files may also be hidden in different parts of the disk • The challenge is to piece the different part of the file together to recover the original file • There is research on using statistical methods for file recovery • http://www.cramsession.com/articles/files/finding-hidden-data---how-9172003-1401.asp • http://www.devtarget.org/downloads/ca616-seufert-wolfgarten-assignment2.pdf

  11. Spyware/Adware • Spyware is computer software that is installed surreptitiously on a personal computer to intercept or take partial control over the user's interaction with the computer, without the user's informed consent. • http://en.wikipedia.org/wiki/Spyware • Spyware is mostly advertising supported software (adware) • Shareware authors place ads from media company and get a piece if the revenue • PC surveillance tools that allow a user to nominate computer activity • Keystroke capture, snapshots, email logging, chats etc. • Privacy concerns with spyware

  12. Encryption • Popular Encryption techniques • Public key/ Private Key • Owner of the data encrypts with the public key of the receiver; Receiver decrypts with his private key • In some cases owner may encrypt with his private key for multiple receiver. Receiver will decrypt with the owner’s public key • Merkle Hash is a popular method to hash documents; one way hash function • Challenge is to generate unique keys • Issues: Trusted authority to generate keys and credentials

  13. Internet/Web Tracing • Where has the email come from • Check IP address • Sender may use fake address by changing fields; sending server may not check this and so the mail is sent • Tracing web activity • Who has logged into the system say from a public web site and modified accounts and grades? • Web/email tracking tools • http://www.cryer.co.uk/resources/websitetracking.htm • http://www.visualware.com/resources/tutorials/email.html

  14. Wireless Technology Forensics • Forensic Examination of a RIM (BlackBerry) Wireless Device http://www.rh-law.com/ediscovery/Blackberry.pdf • “There are two types of RIM devices within each model class. The Exchange Edition is meant for use in a corporate environment while the Internet Edition works with standard POP email accounts. The Exchange Edition employs Triple-DES encryption to send and receive but the Internet Edition communicates in clear text. Neither employs an encrypted files system” • Relevance of RIM forensics • “The RIM device shares the same evidentiary value as any other Personal Digital Assistant (PDA). As the investigator may suspect of most file systems, a delete is by no means a total removal of data on the device. However, the RIM’s always-on, wireless push technology adds a unique dimension to forensic examination. Changing and updating data no longer requires a desktop synchronization. In fact, a RIM device does not need a cradle or desktop connection to be useful. The more time a PDA spends with its owner, the greater the chance is that it will more accurately reflect and tell a story about that person. Thus, the RIM’s currently unsurpassed portability is the examiner’s greatest ally”

  15. Wireless Technology Forensics - 2 • The Hardware • The RIM device is designed around an Intel 32-bit i386 processor, a low power embedded version of the same processor that used to power a desktop PC. Each unit has 512 KB of SRAM and 4 or 5 MB of Flash RAM, depending on the model. The RIM’s SRAM is analogous to the RAM on a desktop and the Flash memory is the “disk space” used to store the Operating System (OS), applications, and the file system. The RIM’s OS is a single executable named PAGER.EXE and the applications are DLL’s. • Toolbox • BlackBerry Desktop Software available free at www.blackberry.com; BlackBerry C++ Software Development Kit v2.1 available free at www.blackberry.com; •Hex editor; • Text editor; • AA batteries; • Spare BlackBerry Cradles • The examination PC should meet the minimum requirements for the BlackBerry Software Development Kit (SDK) and have two available external 9-pin RS232 serial ports. Disk space required for evidence gathering is minimal: space equal to the amount of Flash RAM in the RIM units being investigated.

  16. Firewall Forensics • http://www.linuxsecurity.com/resource_files/firewalls/firewall-seen.html • Analyzing firewall logs, especially what port numbers etc. mean?. May use this information to help figure out what hackers are up to. • What does destination port number ZZZZ mean? • What does this ICMP info mean? • What do these IP addresses indicate? • Stuff doesn't work • What are some typical signatures of well-known programs? • What do these other logs mean? • How do I configure filters? • Packet Zen • What's the deal with NetBIOS (UDP port 137)?

  17. Biometrics Forensics: Richard Vorder Bruegge • http://www.biometrics.org/bc2004/Bios/vorderbruegge_bio_OK.pdf • http://www.biometrics.org/bc2004/Presentations/Conference/2%20Tuesday%20September%2021/Tue_Ballroom%20B/1%20DOJ%20Session/Vorderbruegge_Presentation.pdf • It often happens that people confuse biometrics and forensics. After all, television and movies make it look like automated biometrics databases can be used to identify and convict people all the time. Isn't that what forensics is all about? Unfortunately, this can have an adverse affect on the development of forensic tools which utilize biometric features, because those in position to make funding decisions may not understand the distinction between the two. This presentation will attempt to provide the audience with a better understanding of the relationship between biometrics and forensics from the standpoint of a forensic scientist.

  18. Biometrics Forensics: Richard Vorder Bruegge • Advances in the field of biometrics offers great potential for the field of forensics. Biometric databases offer the promise of enabling law enforcement and the intelligence community to rapidly identify questioned individuals if they are present in the queried database. However, obtaining a "hit" in a biometric database is a far cry from an identification in the world of forensic science. The standard of proof to which forensic scientists in the United States are held is "beyond a reasonable doubt". That "reasonable doubt" criteria, coupled with standards for scientific and technical evidence elucidated in the "Daubert" and "Kumho Tire" cases, require that conclusions offered by forensic scientists be supported at beyond that offered by current biometric systems, particularly in the field of facial recognition. • http://forensic-evidence.com/site/ID/ID_prime_qd.html Reviewing Court Approves of Fingerprint Admissibility

  19. Technologies: Conclusion • Two types of forensics: Computer forencis and network forensics • Computer forencis is mainly about file system forencis; network forensics is about detecting intrusions and connecting with hackers/terrorists • Various techniques are being developed for Military forensics, Law enforcement forencis, Business forensics; not mutually exclusive • Difference tools for differing systems • Systems include operating systems, database systems, networks, middleware, wireless systems, firewalls, biometrics • Biometrics systems may be compromised; however biometrics may be used as evidence • Data mining/analysis being used for forensics • http://eprints.qut.edu.au/archive/00002274/01/2274.pdf (Image mining for digital forensics)

  20. Types of Computer Forensics Systems • Internet Security Systems • Intrusion Detection Systems • Firewall Security Systems • Storage Area Network Security Systems • Network disaster recovery systems • Public key infrastructure systems • Wireless network security systems • Satellite encryption security systems • Instant Messaging Security Systems • Net privacy systems • Identity management security systems • Identify theft prevention systems • Biometric security systems • Homeland security systems

  21. Cyber Crime • Financial Fraud • Sabotage of Data or Networks • Theft of Proprietary Information • System Penetration from the outside and denial of service • Unauthorized access by insiders and employee misuse of Internet access privileges: Insider threat • Malicious code (e.g., Virus)

  22. Cyber Detective • Forensics investigators • detect the extent f security breach, • recover lost data, • determine how an intruder got past the security mechanisms, • and possibly identify the culprit • Legal issues • Admissibility of digital evidence in court • Laws lag technology • Theft: A person must permanently deprive the victim of property: does this apply to cyber theft?

  23. Risk Management • Risk management • is the human activity which integrates recognition of risk, risk assessment, developing strategies to manage it, and mitigation of risk using managerial resources. • The strategies include transferring the risk to another party, avoiding the risk, reducing the negative effect of the risk, and accepting some or all of the consequences of a particular risk. • http://en.wikipedia.org/wiki/Risk_management • Risk management for Computer Forensics • Effective IT and staff policies • Use of state of the art Vendor tools • Effective procedures

  24. Forensic Services • Forensics Incident Response • Evidence Collection • Forensic Analysis • Expert witness • Forensic litigation and insurance claims support • Training • Process improvement

  25. Investigative services examples • Intrusion detection service • Installing technical safeguards to spot network intruders or detect denial of service attacks at e-commerce servers • Digital evidence collection • Identify all devices that may contain evidence • Quarantine all in-house computers • Court orders to preserver and collect evidence

  26. Process Improvement: Tools • Dig –x/nslookup • Whois • Ping • Traceroute • Finger • Anonymous surfing • USENET • Need to integrate the processes

  27. Links • http://www.compforensics.com/ • http://www.computer-forensic.com/faqs.html • http://www.cfsiusa.com/ • Dallas, TX • http://www.evestigate.com/ • http://www.digitaldataforensics.com/ • http://www.databankservices.com/ • Austin, TX • http://www.vogon-international.com/computer-forensics/ • http://www.vogon.co.uk/ • http://www.forensiccomputerservice.com/

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