Tuesday, May 5, 2020
Digital Forensic Case Study Complete Solution by Top Experts
Question - Write a case study on Digital Forensic methodology? Contents Executive Summary. Introduction. Global Finance Background and Concern. Digital Forensic Methodology. Scope of the Case. Digital Forensic Methodology Approach. Investigation Process. PHASE 1 - COLLECTING THE RESOURCES. Volatile Data Capture. Non- Volatile Data Capture. PHASE 2: EXAMINATION.. File System Examination. Windows Registry Examination. Network Forensic Examination. Database Forensic Examination. PHASE 3 - ANALYSIS. PHASE 4 - FINDINGS. PHASE 5 REPORT. CONCLUSON.. REFERENCES. Executive Summary Global Finance company stands to be one of the largest finance company, providing the investment, superannuation and retirement services in Australia. It has a wider range of clients right from individuals to the corporation and superannuation fund investors. Very soon the company has widened its services throughout the globe with information technology support and strives to overcome the security challenges of the company. Introduction Global Finance company experiences a suspect or compromise of the information in one managers computer, working in the Queensland branch. Information security officer is accountable to this challenge and enforced an investigation audit team to investigate the source of the compromise to overcome the challenge. Global Finance Background and Concern The Global Finance Company is in the following state as considered by the audit team. Global Finance is a huge international player company with more than 10,000 employees employed throughout the world, with sector interests. The concern with the security is the compromise of the managers computer, in one of its branches in Australia. Global Finance company has been spread worldwide with the support of information technology. Networking and application infrastructure in the branch offices are missing after 2000, so the there is flat network environment with no access restrictions. Servers and workstations in the head office and all the branch offices are based on Microsoft Windows. Implementation of the network segmentation and firewall is poor. Though instruction detection and logging detection are existing, these are not regularly used. Head office has the necessary information technology infrastructure and technology with potential investigative and forensic capabilities. Information security officer has initiated the investigation by enforcing an audit team for digital forensic investigation. Auditing team has got the responsibilities of digital forensic analysis, documentation and presentation of the same to the information security officer. Digital Forensic Methodology Digital forensic investigation methodology is recommended and employed by the information security officer, as the methodology can find and reveal the source of compromise of the managers computer, by detecting all the workstations and networking among them. Digital forensic investigation methodology involves the sub tasks of data recovery, in case if any of the potential data is lost and network forensic to find if there is any compromise caused through the network. Before the investigation started by the audit team, they need to follow the following principles. Data present in the media should not be modified and the data has to be presented as is to the information security officer. Each team member of the audit must be well acquainted with enough expertise to ensure that the data is handled safely, without loss. The team has to preserve all the relevant documented information done, during the investigation. The whole and sole accountable person in this investigation is the information security officer, so everything has to be communicated and submitted to the information security officer. Scope of the Case Digital forensic investigation done in the Global Finance company has the following scope. Identification of any malicious activities and investigation of 5ws or why, when, what, where and who Identifying the security lapse in the network Identification of all possible digital evidence within the network Finding and estimating the impact of the investigation, if the compromise happened Identification of the legal procedure, in case the misconduct is found illegal The extent of investigation and further security steps are taken by the information security officer, who is whole and sole accountable person Digital Forensic Methodology Approach There are many digital forensic methodology approaches followed according to the situation, so there is no one common approach that fits all the cases. In the case of the compromise of the branch of the Global Finance company, the approach recommended is FSFP or Four Step Forensics Process. The approach has the following processes. The arrow is the indication of preservation of the document evidence throughout the process. Investigation Process Digital forensic investigation is done in the following phases. PHASE 1 - COLLECTING THE RESOURCES Collection consists of identification, labeling and recording the data from all the sources possible, followed by the maintaining the integrity of the data. Data is primarily collected as both volatile and non volatile data. The same LAN connection is to be used to access the forensic workstation of the manager and other workstations. Server of managers computer is taken as the target in this case. Microsoft Windows software is run in this server. To hear from the server, cryptcatp tool is used. The team creates toolset optical drive and opened through a trusted console, comd.exe. The following statements are then executed. Cryptcat 6543 k key Use the following command, for the data capture from the forensic workstation. Cryptcat -1 p 6543 k key Other tools that can be used here are the graphical user interface tools, like Process Explorer, Tcpview and Rootkit Revealer. The other Windows based tools used to capture the data are, Ipconfig for collection of the subject system details HBGrays fastDump to acquire the local physical memory Doskey or history - for collection of command history HBGrays F-Response to acquire remote physical memory Netfile for identification of the drivers and services Netusers and qusers for identification of the logged in user information Other potential data is collected from the clipboard. Other potential data is network connection present, running processes and network data. Volatile Data Capture Volatile data capture involves the data collection from the RAM, registry and cache memory. Non- Volatile Data Capture Potential non volatile data collection involves the collection of the antivirus logs, database logs, windows event logs, IDS logs, domain controller logs, application logs, firewall logs and other online data. Collection of the non volatile data is also called as forensic imaging. The non volatile data collection involves data present in the hard disc and other removable discs, like flash drives, USB drives, CD, DVD, memory cards, remote hard drives and remote computers, in the form of MS Outlook, MS Word and Spreadsheet. Collection continues with the other computers, switches, network topology documentation, network diagrams, routers and servers. Live networking traffic can clue very significant and potential digital data for the investigation. Forensic imaging involves copy of the entire non volatile data from the mangers system and no further alterations are to be done. Various tools used for forensic imaging are FTK, EnCase and ProDiscover with write block. Forensic imaging is better than the hard disc cloning, as it copies the integrated data that includes the metadata, which is significant in the investigation. The audit team does both this offline data and other online data using the tools, ethereal and Wireshrk tools. All the collected data is well documented by the audit team. PHASE 2: EXAMINATION After the digital data collection is done, examination is conducted using forensic investigation tools. Investigation is done for the managers computer, as the following. File System Examination New Technology File System disc or NTFS disc file has MFT or Master File Table information. MFT has all the files and disc crucial information. MFT contains the metadata of the files, which are existing and deleted, noted by the operating system. The data in file is stored as c: echo text_mass file1.txt:file2.txt The following command is used to retrieve the above, c:more file1.txt:file2.txt virus is also another potential data malfunction and so has to be considered for investigation. Windows Registry Examination Windows registry logs can reveal modification of the file information according to the time, lastwrite registry details, precise data in a database for the user application along with the hardware device reference point. The Windows registry structure is HKEY_CLASSES_ROOT HKEY_USERS HKEY_CURRENT_USER HKEY_CURRENT_CONFIG HKEY_LOCAL_MACHINE The important keys and values are, User Activity: user performed actions and activities over the managers computer can be accessed through HKEY_CURRENT_USER Autostart : This registry is a set that is launched without initiation of the user. MRU or Most Recent Used List: to keep track of the current activities. Other important clues are USB Removable storage, UserAssit, Wireless SSIDs, etc. Network Forensic Examination Tracking of packet forensics or packet mining is tracked via the network to track the network traffic like mails, browsing history, queries, etc. Network forensic tools can be applied in one of the two ways, security related and the other is forensic data according to the enforcement of the law. The team uses many network forensic tools and techniques to discrete investigated data like registry information, process listing, service listing, system information, logged on users, registry users, network connections and binary memory dump to explore and investigate. Packet sniffers help identifying and mapping the fingerprinting, web services and email communication, etc. Database Forensic Examination Database data is tracked through the queries for data identification and then preserved to analyze. IP addresses are tracked for remote connections. Database transactions are tracked though Data Manipulation and Data Definition Languages, DML and DDL. Customized file configuration is used to execute Database Consistency Checker and Distributed Management Views towards intrusion explosion. PHASE 3 - ANALYSIS Detailed data analysis is done after considering each of the digital evidence data. The analysis includes the following actiivites. Unusual application requests Looking the unusual and hidden files along with unusually opened sockets Malicious activies Complete analysis for memory Unusual accounts Malware analysis Complete analysis of timeline Patching level system Updated levels Complete analysis of file systems Complete analysis of event correlation The crucial malware analysis includes various tasks within, like, examining the logs, prefetch examination, search of known malware using either dynamic or static analysis. PHASE 4 - FINDINGS After the analysis the findings are summarized as, Identification of the compromise of the managers computer Identification of persistent remote access or direct access by the attacker Installing OS patch if not done in the target computer Malware that is suspected PHASE 5 REPORT Investigation is done over the managers computer and all other computers and computing devices present in the branch office. Audit team creates a formal report and then submitted to the information security officer. Final Report Purpose The report has the purpose of submission of the formal investigated information, related to the sources of compromise occurred to the managers and all other computers. Author of the Report Information Security Officer Incident Summary All the source of the compromise that are found and suspected on managers computer. Digital Evidences All relevant log files and other potential digital evidences found in the investigation Analysis Analysis of the sources of the compromise Conclusion The managers computer is digitally investigated for the sources of compromise, along with the and other computers in the regional office Supporting Documents Volatile, non- volatile data, registry info, log info and the reports generated from the tools. CONCLUSON The suspected managers or targeted computer is completely digitally investigated using digital forensic technology, from the Queensland branch office and finally the formal report is being submitted to the information security officer. References Cyber Forensic Investigation Plan, International Journal of Advance Research (2008), UOAR.org, Volume 1, Issue 1, accessed on 9 January, 2015. 7safe, (2013) Good Practice Guide for Computer-Based Electronic Evidence. Siti Rahayu Selamat, Robiah Yusof, Shahrin Sahib (2008), Mapping Process of Digital Forensic Investigation Framework, JCSNS International Journal of Computer Science and Network Securit, Vol 8. ACPO (2013), Good Practice Guide for Computer-Based Electronic Evidence, V4.0 Aquilina, M.J., (2003), Malware Forensics, Investigating and Analyzing Malicious Code, Syngress, Kenneth J. Zahn (2013), Case Study: 2012 DC3 Digital Forensic Challenge Basic Malware Analysis Exercise, GIAC (FREM) Gold Certification Fowler, K., (2007), Forensic Analysis of a SQL Server 2005 Database Server. Khanuja, H.K., and Adane, D.S., (2011), Database Security Threats and Challenges in Database Forensic: A Survey, IPCSIT vol.20 (2011), Singapore: IACSIT Press. John Ashcroft (2001), Electronic Crime Scene Investigation, A guide for First Responders, NIJ Guide M Reith, C Carr, G Gunsch (2002). "An examination of digital forensic models". International Journal of Digital Evidence Kent, K., et.al., (2006). Guide to Integrating Forensic Techniques into Incident Response, National Institute of Standards and Technology (Ed.) (Vol. 800-86): U.S. Department of Commerce. Richard Brian Adams (2012), The Advanced Data Acquisition Model (ADAM): A Process Model for Digital Forensic Practice Agarwal, A., Gupta, M., Gupta, S., Gupta, S. C. (2011). Systematic Digital Forensic Investigation Model, International Journal of Computer Science and Security, 5(1), 118-130. Shiner, D.L.D., and Cross, M., (2002), Scene of the Cybercrime, 2nd edn, Syncress: Burlington. Reino, A. (2012), Forensics of a Windows System, Roche. Armstrong, C. (2003), Mastering Computer Forensics. In C. Irvine H. Armstrong, Security Education and Critical Infrastructures Kluwer Academic Publishers.
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