Computer forensic tools have been developed to enable forensic investigators to analyse software artefacts to help reconstruct possible scenarios for activity on a particular computer system. A number of these tools allow the examination and analysis of system generated artefacts such as the Windows registry. Examination and analysis of these artefacts is focussed on recovering the data extracting information relevant to a digital investigation. This information is currently underused in most digital investigations. With this in mind, this thesis considers system generated artefacts that contain information concerning the activities that occur on a Windows system and will often contain evidence relevant to a digital investigation. The objective of this research is to develop an architecture that simplifies and automates the collection of forensic evidence from system generated files where the data structures may be either known or in a structured but poorly understood (unknown) format. The hypothesis is that it should be feasible to develop an architecture that will be to integrate forensic data extracted from a range of system generated files and to implement a proof of concept prototype tool, capable of visualising the Event logs and Swap files. This thesis presents an architecture to enable the forensic investigator to analyse and visualise a range of system generated artefacts for which the internal arrangement of data is either well structured and understood or those for which the internal arrangement of the data is unclear or less publicised (known and not known data structures). The architecture reveals methods to access, view and analyse system generated artefacts. The architecture is intended to facilitate the extraction and analysis of operating system generated artefacts while being extensible, flexible and reusable. The architectural concepts are tested using a prototype implementation focussed the Windows Event Logs and the Swap Files. Event logs reveal evidence regarding logons, authentication, account and privilege use and can address questions relating to which user accounts were being used and which machines were accessed. Swap file contains fragments of data, remnants or entire documents, e-mail messages or results of internet browsing which reveal past user activities. Issues relating to understanding and visualising artefacts data structure are discussed and possible solutions are explored. The architecture is developed by examining the requirements and methods with respect to the needs of computer forensic investigations and forensic process models with the intention to develop a new multiplatform tool to visualise the content of Event logs and Swap files. This tool is aimed at displaying data contained in event logs and swap files in a graphical manner. This should enable the detection of information which may support the investigation. Visualisation techniques can also aid the forensic investigators in identifying suspicious events and files, making such techniques more feasible for consideration in a wider range of cases and, in turn, improve standard procedures. The tool is developed to fill a gap between capabilities of certain other open source tools which visualise the Event logs and Swap files data in a text based format only.
Identifer | oai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:558345 |
Date | January 2011 |
Creators | Hashim, Noor Hayati |
Publisher | University of South Wales |
Source Sets | Ethos UK |
Detected Language | English |
Type | Electronic Thesis or Dissertation |
Source | https://pure.southwales.ac.uk/en/studentthesis/forensic-analysis-of-windows-system-generated-artefacts(be571569-2afe-4d52-8c99-9dbc8388b1db).html |
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