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In this article, Richard Boddington, the author of Practical Digital Forensics, explains how the recovery and preservation of digital evidence has traditionally involved imaging devices and storing the data in bulk in a forensic file or, more effectively, in a forensic image container, notably the IlookIX .ASB container. The recovery of smaller, more manageable datasets from larger datasets from a device or network system using the ISeekDiscovery automaton is now a reality. Whether the practitioner examines an image container or an extraction of information in the ISeekDiscovery container, it should be possible to overview the recovered information and develop a clearer perception of the type of evidence that should be located.

Once acquired, the image or device may be searched to find evidence, and locating evidence requires a degree of analysis combined with practitioner knowledge and experience. The process of selection involves analysis, and as new leads open up, the search for more evidence intensifies until ultimately, a thorough search is completed. The searching process involves the analysis of possible evidence, from which evidence may be discarded, collected, or tagged for later reexamination, thereby instigating the selection process. The final two stages of the investigative process are the validation of the evidence, aimed at determining its reliability, relevance, authenticity, accuracy, and completeness, and finally, the presentation of the evidence to interested parties, such as the investigators, the legal team, and ultimately, the legal adjudicating body.

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Locating digital evidence

Locating evidence from the all-too-common large dataset requires some filtration of extraneous material, which has, until recently, been a mainly manual task of sorting the wheat from the chaff. But it is important to clear the clutter and noise of busy operating systems and applications from which only a small amount of evidence really needs to be gleaned. Search processes involve searching in a file system and inside files, and common searches for files are based on names or patterns in their names, keywords in their content, and temporal data (metadata) such as the last access or written time. A pragmatic approach to the examination is necessary, where the onus is on the practitioner to create a list of key words or search terms to cull specific, probative, and case-related information from very large groups of files.

Searching desktops and laptops

Home computer networks are normally linked to the Internet via a modem and various peripheral devices: a scanner, printer, external hard drive, thumb drive storage device, a digital camera, a mobile phone and a range of users. In an office network this would be a more complicated network system. The linked connections between the devices and the Internet with the terminal leave a range of traces and logging records in the terminal and on some of the devices and the Internet. E-mail messages will be recorded externally on the e-mail server, the printer may keep a record of print jobs, the external storage devices and the communication media also leave logs and data linked to the terminal. All of this data may assist in the reconstruction of key events and provide evidence related to the investigation.

Using the logical examination process (booting up the image) it is possible to recover a limited number of deleted files and reconstruct some of the key events of relevance to an investigation. It may not always be possible to boot up a forensic image and view it in its logical format, which is easier and more familiar to users. However, viewing the data inside a forensic image in it physical format provides unaltered metadata and a greater number of deleted, hidden and obscured files that provide accurate information about applications and files. It is possible to view the containers that hold these histories and search records that have been recovered and stored in a forensic file container.

Selecting digital evidence

For those unfamiliar with investigations, it is quite common to misread the readily available evidence and draw incorrect conclusions. Business managers attempting to analyze what they consider are the facts of a case would be wise to seek legal assistance in selecting and evaluating evidence on which they may wish to base a case. Selecting the evidence involves analysis of the located evidence to determine what events occurred in the system, their significance, and the probative value to the case. The selection analysis stage requires the practitioner to carefully examine the available digital evidence ensuring that they do not misinterpret the evidence and make imprudent presumptions without carefully cross-checking the information. It is a fact-finding process where an attempt is made to develop a plausible reconstruction of the facts.

As in conventional crime investigations, practitioners should look for evidence that suggests or indicates motive (why?), means (how?) and opportunity (when?) for suspects to commit the crime, but in cases dependent on digital evidence, it can be a vexatious process.

There are often too many potential suspects, which complicates the process of linking the suspect to the events. The following figure shows a typical family network setup using Wi-Fi connections to the home modem that facilitates connection to the Internet. In this case, the parents provided the broadband service for themselves and for three other family members. One of the children’s girlfriend completed her university assignments on his computer and synchronized her iPad to his device.

The complexity of a typical household network and determining the identity of the transgressor


The complexity of a typical household network and determining the identity of the transgressor

More effective forensic tools

Various forensic tools are available to assist the practitioner in selecting and collating data for examination analysis and investigation. Sorting order from the chaos of even a small personal computer can be a time-consuming and frustrating process. As the digital forensic discipline develops, better and more reliable forensic tools have been developed to assist practitioners in locating, selecting, and collating evidence from larger, complex datasets.

To varying degrees, most digital forensic tools used to view and analyze forensic images or attached devices provide helpful user interfaces for locating and categorizing information relevant to the examination. The most advanced application that provides access and convenient viewing of files is the Category Explorer feature in ILookIX, which divides files by type, signature, and properties.

Category Explorer also allows the practitioner to create custom categories to group files by relevance. For example, in a criminal investigation involving a conspiracy, the practitioner could create a category for the first individual and a category for the second individual. As files are reviewed, they would then be added to either or both categories. Unlike tags, files can be added to multiple categories, and the categories can be given descriptive names.

Deconstructing files

The deconstruction of files involves processing compound files such as archives, e-mail stores, registry stores, or other files to extract useful and usable data from a complex file format and generate reports. Manual deconstruction adds significantly to the time taken to complete an examination. Deconstructable files are compound files that can be further broken down into smaller parts such as e-mails, archives, or thumb stores of JPG files. Once the deconstruction is completed, the files will either move into the deconstructed files or deconstruction failed files folders. Deconstructable files will now be now broken out more—e-mail, graphics, archives, and so on.

Searching for files

Indexing is the process of generating a table of text strings that can then be searched almost instantly any number of times. The two main uses of indexing are to create a dictionary to use when cracking passwords and to index the words for almost-instant searching. Indexing is also valuable when creating a dictionary or using any of the analysis functions built in to ILookIX. ILookIX facilitates the indexing of the entire media at the time of initial processing, all at once. This can also be done after processing. Indexing facilitates searching through files and archives, Windows Registry, e-mail lists, and unallocated space. This function is highly customizable via the setup option in order to optimize for searching or for creating a custom dictionary for password cracking.

Sound indexing ensures speedy and accurate searching. Searching is the process of having ILookIX look through the evidence for a specific item, such as a string of text or an expression. An expression, in terms of searching, is a pattern used to structure data in a search, such as a credit card number or e-mail address.

The Event Analysis tool

ILookIX’s Event Analysis tool provides the practitioner a graphical representation of events on the subject system, such as file creation, access, or modification; e-mails sent or received; and other events such as the modification of the Master File Table on an NTFS system. The application allows the practitioner to zoom in on any point on the graph to view more specific details. Clicking on any bar on the graph will return the view to the main ILookIX window and display the items from the date bar selected in the List Pane. This can be most helpful when analyzing events during specific periods.

The Lead Analysis tool

Lead Analysis is an interactive evidence model embedded in ILookIX that allows the practitioner to assimilate known facts into a graphic representation that directly links unseen objects. It provides the answers as the practitioner increases the detail of the design surface and brings into view specific relationships that could go unseen otherwise.

The primary aim of Lead Analysis is to help discover links within the case data that may not be evident or intuitive and the practitioner may not be aware of directly or that the practitioner has little background knowledge of to help form relationships manually. Instead of finding and making note of various pieces of information, the analysis is presented as an easy-to-use link model. The complexity of the modeling is removed so that it gives the clearest possible method of discovery. The analysis is based on the current index database, so it is essential to index case data prior to initiating an analysis.

Once a list of potential links has been generated, it is important to review them to see whether any are potentially relevant. Highlight any that are, and it will then be possible to look for words in the catalogues if they have been included. In the example scenario, the word divorce was located as it was known that Sarah was divorced from the owner of the computer (the initial suspect). By selecting any word by left-clicking on it once and clicking on the green arrow to link it to Sarah, as shown below, relationships can be uncovered that are not always clear during the first inspection of the data.

Each of the stated facts becomes one starting lead on the canvas. If the nodes are related, it is easy to model that relationship by manually linking them together by selecting the first Lead Project to link, right-clicking, and selecting Add a New Port from the menu. This is then repeated for the second Lead Object the practitioner wants to link. By simply clicking on the new port of the selected object that needs to be linked from and dragging to the port of the Lead Object that it should be linked to, a line will appear linking the two together. It is then possible to iterate this process using each start node or discovered node until it is possible to make sense of the total case data. A simple relationship between suspects, locations and even concepts is illustrated in the following screenshot:

ILookIX Lead Analysis discovering relationships between various entities


ILookIX Lead Analysis discovering relationships between various entities

Analyzing e-mail datasets

Analyzing and selecting evidence from large e-mail datasets is a common task for the practitioner. ILookIX’s embedded application E-mail Linkage Analysis is an interactive evidence model to help practitioners discover links between the correspondents within e-mail data. The analysis is presented as an easy-to-use link model; the complexity of the modeling is removed to provide the clearest possible method of discovery. The results of analysis are saved at the end of the modeling session for future editing.

If there is a large amount of e-mail to process, this analysis generation may take a few minutes. Once the analysis is displayed, the user will see the e-mail linkage itself. It is then possible to see a line between correspondents indicating that they have a relationship of some type. Here in particular, line thickness indicates the frequency of traffic between two correspondents; therefore, thicker flow lines indicate more traffic.

On the canvas, once the analysis is generated, the user may select any e-mail addressee node by left-clicking on it once. Creating the analysis is really simple, and one of the most immediately valuable resources this provides is group identification, as shown in the following screenshot. ILookIX will initiate a search for that addressee and list all e-mails where your selected addressee was a correspondent. Users may make their own connection lines by clicking on an addressee node point and dragging to another node point. Nodes can be deleted to allow linkage between smaller groups of individuals.

The E-mail Linkage tool showing relationships of possible relevance to a case

The E-mail Linkage tool showing relationships of possible relevance to a case

The Volume Shadow Copy analysis tools

Shadow volumes, also known as the Volume Snapshot Service (VSS), use a service that creates point-in-time copies of files. The service is built in to versions of Windows Vista, 7, 8, and 10 and is turned on by default. ILookIX can recover true copies of overwritten files from shadow volumes, as long as they resided on the volume at the time that the snapshot was created. VSS recovery is a method of recovering extant and deleted files from the volume snapshots available on the system. IlookIX, unlike any other forensic tool, is capable of reconstructing volume shadow copies, either differential or full, including deleted files and folders.

In the test scenario, the tool recovered a total of 87,000 files, equating to conventional tool recovery rates. Using ILookIX’s Xtreme File Recovery, some 337,000 files were recovered. The Maximal Full Volume Shadow Snapshot application recovered a total of 797,00 files. Using the differential process, 354,000 files were recovered, which filtered out 17,000 additional files for further analysis. This enabled the detection of e-mail messages and attachments and Windows Registry changes that would normally remain hidden.

Summary

This article described in detail the process of locating and selecting evidence in terms of a general process. It also further explained the nature of digital evidence and provided examples of its value in supporting a legal case. Various advanced analysis and recovery tools were demonstrated that show the reader how technology can speed up and make more efficient the location and selection processes. Some of these tools are not new but have been enhanced, while others are innovative and seek out evidence normally unavailable to the practitioner.

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