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Potchefstroom Electronic Law Journal (PELJ)
On-line version ISSN 1727-3781
PER vol.22 n.1 Potchefstroom 2019
http://dx.doi.org/10.17159/1727-3781/2019/v22i0a4886
ARTICLES
The Search and Seizure of Digital Evidence by Forensic Investigators in South Africa
North-West University South Africa. Email: Koos.Nortjie@nwu.ac.za; dc@cyanre.co.za
ABSTRACT
The discipline of digital forensics requires a combination of skills, qualifications and knowledge in the area of forensic investigation, legal aspects and information technology. The uniqueness of digital evidence makes the adoption of traditional legal approaches problematic.
Information technology terminology is currently used interchangeably without any regard to being unambiguous and consistent in relation to legal texts. Many of the information technology terms or concepts have not yet achieved legal recognition.
The recognition and standardisation of terminology within a legal context are of the utmost importance to ensure that miscommunication does not occur.
To provide clarity or guidance on some of the terms and concepts applicable to digital forensics and for the search and seizure of digital evidence, some of the concepts and terms are reviewed and discussed, using the Criminal Procedure Act 51 of 1977 as a point of departure.
Digital evidence is often collected incorrectly and analysed ineffectively or simply overlooked due to the complexities that digital evidence poses to forensic investigators. As with any forensic science, specific regulations, guidelines, principles or procedures should be followed to meet the objectives of investigations and to ensure the accuracy and acceptance of findings. These regulations, guidelines, principles or procedures are discussed within the context of digital forensics: what processes should be followed and how these processes ensure the acceptability of digital evidence. These processes include international principles and standards such as those of the Association of Chiefs of Police Officers and the International Organisation of Standardisation. A summary is also provided of the most influential or best-recognised international (IOS) standards on digital forensics.
It is concluded that the originality, reliability, integrity and admissibility of digital evidence should be maintained as follows:
• Data should not be changed or altered.
• Original evidence should not be directly examined.
• Forensically sound duplicates should be created.
• Digital forensic analyses should be performed by competent persons.
• Digital forensic analyses should adhere to relevant local legal requirements.
• Audit trails should exist consisting of all required documents and actions.
• The chain of custody should be protected.
• Processes and procedures should be proper, while recognised and accepted by the industry.
If the ACPO (1997) principles and ISO/IEC 27043 and 27037 Standards are followed as a forensic framework, then digital forensic investigators should follow these standards as a legal framework.
Keywords: Digital forensics; digital devices; digital search and seizure; digital evidence; forensic investigation; international standards.
1 Introduction
The discipline of digital forensics requires a combination of skills, qualifications and knowledge in the area of forensic investigation, legal aspects and information technology.1 In many academic papers and court cases information technology terminology is used interchangeably without any regard to its being unambiguous and conducive to consistent interpretation of terminology in a legal context, which is why information technology terminology is largely unknown in the legal system.2 Many information technology terms or concepts have not yet achieved legal recognition. This notion is supported by the South African Law Reform Commission (hereafter SALRC),3 which has expressed the opinion that the earlier opinion that computers are "just like" filing cabinets does not hold true in the light of new technological capabilities. This was also the opinion of the Supreme Court in the Canadian case R v Vu.4
Accurate legal definitions are vital to the operation of legal instruments, where words signify concepts in law, and the vocabulary consists of technical or legal terms and non-technical terms found in everyday language.5 Many of the words used in legal discourse are derived from ordinary language, but the true development of legal terminology - to a great extent - is derived from legal discourse in courts and depends less on the parameters set for communication with regard to generally recognised legal science principles.6 The recognition of terminology within a legal context is of the utmost importance to ensure that miscommunication does not occur. One should bear in mind that an initial understanding of texts may not be the only plausible interpretation.7 This can especially be true in a digital environment where technical aspects can have an influence on the normal interpretation or understanding of terms. Although one acceptable meaning is the ideal, the interpretation of legal texts causes frequent problems, as the meaning denoted in texts may not be the same for all addressees.8 In 1958 Hart9 encapsulated this issue perfectly by stating that in the most elementary form of law, the terms used should exist in some standard instance in which no doubt exists about their interpretation. Hart10is of the opinion that there should be a "core of settled meaning".
In an attempt to provide clarity or guidance on some of the terms and concepts applicable to digital forensics and for the search and seizure of digital evidence, some of the concepts and terms are reviewed and discussed below.
In the early 1900s Dr Edmond Locard developed one of the cornerstones of modern-day forensic science, the Locard's exchange principle.11 While studying medicine Locard developed an interest in the application of science to legal matters.12 Locard theorised that every time a person or an object comes into contact with another, this results in an exchange of physical materials. Locard believed that during this contact all sorts of evidence, including human deoxyribonucleic acid (DNA), fingerprints, footprints, hair, skin cells, blood, bodily fluids, pieces of clothing, fibres and more are exchanged.13 As early as in 1997 Silvernail14 stated that when persons start to use a computer, evidence of activities is created. It is therefore recognised that the Locard principle also applies to computers15 due to the evidential traces or artefacts exchanged between the network of victims and the computers of perpetrators. This is confirmed by Wang,16 who emphasises the fact that digital evidence can prove crucial links between victims and perpetrators.
If it is recognised that computers have become an attractive medium for criminals17 and that their activities on computers result in evidence that can be linked to the crimes of suspects,18 it is essential to recognise the need for a discipline in the field of digital forensics.
Digital evidence is often collected incorrectly and analysed ineffectively or simply overlooked due to the complexities that digital evidence poses to forensic investigators.19 This "new" type of evidence has prompted the beginning of a "new" type of forensic science - digital forensics.20 As with any forensic science, specific regulations, guidelines, principles or procedures should be followed to meet the objectives of investigations, namely the accuracy and acceptance of findings.21 These regulations, guidelines, principles or procedures are discussed in the context of digital forensics: what processes should be followed and how these processes ensure the acceptability of digital evidence.
A summary is also provided of the most influential or best-recognised international standards on digital forensics.
2 Terminology
2.1 Sections 20 and 21 of the Criminal Procedure Act 51 of 1977
Section 21 of the Criminal Procedure Act 51 of 1977 relates to the power of authorised officials to issue search and seizure warrants.
The section furthermore authorises the police official to search and seize section 20 articles:
• which are concerned;
• which may afford evidence;
• which are intended to be used in the commission of a crime.
From this section, four concepts require further scrutiny on how these definitions relate to the digital environment, namely:
• search;
• seize;
• articles;
• premises.
The intrusive nature of search and seizure warrants and the obligation of the judicial system to guard against the misuse of this authority are well-documented in the case of Powell v Van der Merwe.22During this case, it was said that South African law has a long history of scrutinising search and seizure warrants with rigour and exactitude and that the common law rights are now enshrined in section 14 of the Constitution of the Republic of South Africa, 1996. Because of the danger of misuse during the application of authority with regard to search and seizure warrants, the judiciary scrutinises the validity of warrants with jealous regard for the liberty of suspects and their rights. The scope of the terms is even more relevant in cases involving digital evidence due to the wide scope of personal and confidential information kept on the digital devices of persons.23
The Explanatory Report to the Convention on Cybercrime of the Council of Europe suggests that additional procedural provisions are necessary in order to ensure that data can be secured in a manner as effective as in the case of the search and seizure of tangible objects.24 This is firstly because the data are intangible - they are in an electromagnetic medium. Secondly, while data can be read by making use of computer equipment, data cannot be taken away in the same sense as paper records.25 Kerr26 captures some of the complexities of digital evidence as follows: "How can the old rules fit the new facts? For example, what does it mean to 'search' computer data, or when is computer data 'seized'?" The Explanatory Report to the Convention on Cybercrime further suggests that data can be "seized" in only a specific number of ways, namely data can be printed and seized; the tangible medium upon which data is stored can be seized; or a forensic duplicate can be made of the data and the tangible form upon which the copy is saved can be seized. It is suggested that domestic law should provide for the power to create such duplicates.27
2.1.1 Defining the search for digital evidence
Kerr28 suggests that forensic investigators should first search for and locate physical devices ("search one"). Then, forensic investigators should access and search these physical devices for relevant information or data ("search two"). For the purpose of this article, references to "search" are extended from Kerr's two-step process to include three phases, namely:
• The traditional process in which forensic investigators search for or locate physical computers on a scene.
• The forensic investigators search for or segregate relevant and nonrelevant information/data on these computers.
• The analysis or interpretation of relevant information within the context of a larger investigation.
This discussion of the definition of "search" relates to the later steps followed when data is searched, since it is acknowledged that the search for physical articles on premises is well-defined and understood in the law.
The phenomenon of seizing's taking place before a search has taken place is discussed by Brenner and Fredericksen,29 who state that a search and seizure of digital evidence turns a normal search and seizure on its head in the sense that computers are normally first seized and then searched. In the case of the Minister of Safety and Security v Bennett,30it was recognised that in instances where large collections of physical documents are located on a scene, and when it is impractical to separate or effectively search these documents on the scene, a broad seizure of the collection of physical documents is permitted, pending a later search to segregate relevant and non-relevant information.
The Explanatory Report to the Convention on Cybercrime proposes that traditional words such as "search" and "seize" should be replaced with more technological-orientated computer terms, such as "access" and "copy".31This proposal is supported by Nieman,32 who is of the opinion that "search and seize" can more accurately described when computer terminology is used that is more neutral in meaning and can include actions, such as the creation of forensic duplicates of data. Currently, in the consultation draft of the proposed South African Cybercrimes and Cybersecurity Bill dated 19 June 2016 the term "access" is included and is defined as follows: "to make use of, to gain entry to, to view, display, instruct, or communicate with, to store data in or retrieve data from, to copy, move, add, change, or remove data or otherwise to make use of, configure or reconfigure any resources of a computer device".33
In the Minister of Safety and Security v Xaba case34 it was stated that the concept of "search" should be given its ordinary meaning. The National Instruction 2/2002 of the South African Police Service (SAPS)35 states that "search" entails any action whereby a person, premise or container is visually or physically examined with the aim of establishing whether an item or article is in, on or upon such a person, premises or container. However, Basdeo36 is of the opinion that this approach is questionable since "visually" is not defined and can include merely looking at something. Furthermore, the question of what constitutes a search is left to common sense -accessed on a case-by-case basis. Basdeo continues and argues that an element of physical intrusion is required to constitute a search of persons, premises or properties.
Merely observing a room does not constitute a fully-fledged search.37 Kerr38proposes that an "exposure-based approach" should be adopted and that data should be considered to have been "searched" only when the data were exposed to human observation.
Basdeo39 states that the Council of Europe Convention on Cybercrime (2001) in Budapest (hereafter Budapest Convention) constitutes the current international agreed-upon benchmark for procedural powers in terms of digital evidence collection. The Budapest Convention proposes that "search" should include "to seek, read, inspect or review data", which includes the searching or examining of data.40
The interpretation of "search" as an "exposure-based approach" is supported and based on any action in which forensic investigators access data by whatever means and take notice of information or observe information in a humanly readable format. It is recognised that the term "search" is extraordinarily broad, and a differentiation is made between the different contexts of search, as an action to firstly locate or look for devices on a scene; secondly, to locate and separate relevant and non-relevant data; and lastly, to analyse or interpret the data within the context of a larger investigation.
2.1.2 Defining the seizure of digital evidence
In the Rudolph v Commissioner for Inland Revenue case41 the court held that the term "seize" should be given its natural meaning. This ruling was supported in the case of Ntoyakhe v Minister of Safety and Security,42when the court held that "seize" means not only to take possession of articles but also to retain them and, according to Steytler,43 to deprive persons of subsequent control over the articles. Nieman44 adds that a seizure takes place when persons are deprived of their control over articles, and without the subsequent right of retention of the articles section 21 of the Criminal Procedure Act would be worthless. In the Ntoyakhe v Minister of Safety and Security case, it was cautioned that the right of retention is not unlimited and does not authorise the State to deprive persons of their lawful possession of articles indefinitely.45 This is a very important issue raised by the court. Although sections 31 to 36 of the Criminal Procedure Act govern the disposal of articles under various conditions, no explicit reference is made to the duration in days for which articles may be retained after the point of seizure, or when forensic duplicates are made when the original articles are to be returned following the creation of the duplicates. The situation with computers differs from that of other classes of articles because computers and other digital devices such as cellular phones play such a large role in our everyday lives. The retention period under discussion does not refer to the retention of forensic duplicates of computers during an analysis phase, but to the period between the seizure of computers on a scene, the creation of off-site forensic duplicates, and the subsequent return of the original computers to the owners. In many countries, legislation stipulates a time period in a number of days for this retention period. In an unstructured interview,46 it was established that the practice in South Africa - due to there being limited resources - is that police officials in the most cases seize computers on scenes and then transfer articles to central digital forensic laboratories. During this interview, it was stated that some of the digital forensic laboratories are months - even more than a year - behind in their workload.47 The interviewee48 estimated that on average persons are deprived of their computers (or cellular phones) for between five days to two years.
In the light of the unique way in which digital evidence is normally collected or "seized", Kerr49 poses a number of questions with regard to the interpretation of when digital evidence is considered seized, namely:
• Does the creation of forensic duplicates constitute a seizure?
• Does the creation of forensic duplicates constitute a seizure of original evidence?
• If forensic duplicates are searched, does this constitute a seizure?
Kerr50 states that these aspects are surprisingly difficult to interpret and at first sight it seems sensible to say that the creation of forensic duplicates constitutes a seizure of evidence. In the United States case of Arizona v Hicks51an investigator copied the serial number on a stereo system to establish later whether or not it was stolen goods. The court held that the copying of this information did not constitute a seizure. The court also held that the recording, copying or taking of a photograph of information on a scene does not constitute a seizure. This finding highlights the question whether forensic duplicates of computers constitute a seizure. Kerr52 further reviewed these complexities by arguing that if the creation of forensic duplicates is not recognised as constituting a search and seizure - since the data were not exposed, read or observed by humans, but only forensically duplicated - this could drastically expand the powers of the forensic investigators. In addition, Kerr maintains that should the making of forensic duplicates not be viewed as a search and seizure, the forensic investigators would not need search and seizure warrants, and Kerr refers to such a situation as "troublesome" and downright "creepy".
The Explanatory Report to the Convention on Cybercrime53 proposes that "seize" should also include "to take away the physical medium which stores the data" or to make and retain forensic duplicates of data. This proposal is supported by Basdeo,54 who is of the opinion that the seizure of data includes not only the confiscation of data but also the "gathering" of data.
The concept of seizure is important, and it is therefore necessary to consider the way in which and the reason why forensic duplicates are created. Nieman55 explains that forensic duplicates do exactly what the name suggests - bit-by-bit exact duplicates of every sector of a hard drive are created. The requirement of section 14 of the Electronic Communications and Transactions Act 25 of 2002 relating to the originality of evidence stipulates that where the law requires information to be presented or retained in its original form, that requirement is met if the integrity of the digital evidence from the time it was first generated to its final form has passed assessment. Vacca56 states that a new concept of representational accuracy has emerged in terms of digital evidence - it is not necessary anymore to present the original. If forensic duplicates are created that depict the source data exactly, these duplicates can be considered originals. However, after forensic duplicates of computers are created and the originals are handed back to suspects, as soon as a person switches on the computer the content of that computer changes on a continual basis.57
The proposed Cybercrimes and Cybersecurity Bill provides a more inclusive definition for "seize" by including the rendering of data inaccessible, the removal of physical devices, to make or retain forensic duplicates, or to make a printout of data.58 For the purposes of this article, the interpretation of "seizure" includes the creation of forensically-sound duplicate originals, and the seizure or retention of these duplicates is viewed by the State as originals.
Defining premises and containers
Section 1 of the Criminal Procedure Act defines "premises" as "including land, any building or structure, or any vehicle, conveyance, ship, boat or aircraft". It is questioned whether this definition permits the inclusion of a computer as a premises and does this definition permit the search of computers prior to seizure? In their Discussion Paper on Computer-related Crime59 the SALRC is of view that the provisions of the Criminal Procedure Act were developed prior to the notion that non-physical premises or non-tangible articles exist, and the commission is of the opinion that chapter two of the Criminal Procedure Act most probably does not apply to the search of computers and the seizure of data located on computers. They recommend that the Criminal Procedure Act be amended to specifically include the search of computers and the seizure of data. Section 82(4) of the Electronic Communications and Transactions Act stipulates, "For the purposes of this Act, any reference in the Criminal Procedure Act, 1977, to 'premises' and 'article' includes an information system as well as a data message". Unfortunately, the new Cybercrimes and Cybersecurity Bill is silent in this regard and does not provide a wider, more inclusive definition, but recognises the searching of containers.60 This definition is also supported by the National Instruction 2/2002 of the SAPS, where it states that a search entails any action whereby persons, premises or containers are visually or physically examined with the aim of establishing whether items or articles are in, on or upon such persons, premises or containers.61
In 2012, the Seventh Circuit Court in the case of the United States v Flores-Lopez62defined containers as any objects containing anything else -including data. The court held that smartphones or tablets comply with this definition and can therefore be searched.
The court held in the Thint (Pty) Ltd v National Director of Public Prosecutions, Zuma v National Director of Public Prosecutions case63 that it is a requirement in a South African environment that "premises" should be clearly defined. The question is then raised that if off-site searches of computers are permitted, what premises should be specified in warrants? Traditionally, premises are where suspects are located, but the presence of computers turns the search and seizure process around: the seizure of computers takes place on a scene but the search of data takes place at the premises of forensic investigators. Should the premises of suspects be listed, or the premises of forensic investigators or should computers be listed as premises? The answer was provided by the court during the Minister of Safety and Security v Bennett case,64 where the seizing of physical documents - prior to the search of these documents off-site - was permitted without a description of the secondary premises of the forensic investigators. In the unreported judgement of Bennett v Minister of Safety and Security,65the court also expressed the opinion that it is irrelevant where forensic duplicates are created after the seizure and removal from the scene.
Another issue is raised in this regard - if forensic investigators are planning to seize data on another network or at an online location, do the search and seizure warrants need to state the physical location from which the forensic investigators are accessing the data or the physical location of where the data are kept?66 At the time when Kerr studied these aspects in 2005, cloud hosting was not as prevalent as it is today. If forensic investigators need to seize the files of persons kept in a virtual environment - hosted in a cloud -what premises need to be described? Search and seizure is further complicated by the structure of cloud hosting, where one document can be broken up into a number of segments and each segment can be stored on a different server in a different country. The implications of this issue on search and seizure are recognised by the Australian Crimes Act67and the New Zealand Search and Surveillance Act,68both of which permit law enforcement to search remote locations, such as online data storage facilities with no physical addresses or specific singular location, such as cloud services, or where the physical locations are unknown.
For the purpose of this article, the interpretation of "premises" is limited to the traditional description of premises or locations and not extended to describing devices as separate premises or the premises of digital forensic investigators.
Defining articles or items
Bouwer69 observes that the Criminal Procedure Act is lacking in that it does not specifically include data as articles, and stated that the legislature has recognised this omission by referencing the definition of articles and premises in the Electronic Communications and Transactions Act, which states that data messages are classified as articles if these messages relate to a section 20 article as defined by the Criminal Procedure Act. Basdeo70states that "data" refers to information that has been transformed into digital form and in terms of the provisions made in section 20 of the Criminal Procedure Act, which stipulates that anything can be seized and that anything should be susceptible to a wide enough interpretation to include data. Notwithstanding, Basdeo further advises that the provisions made in the Criminal Procedure Act should be restructured to alleviate the restrictive interpretation that "articles" are only physical items. Basdeo further expresses the opinion that law enforcement is currently interpreting "articles" very widely, and applies this definition to the seizure of digital evidence - a practice that has not yet been contested in court. This aspect is addressed in the Cybercrimes and Cybersecurity Bill, which defines an "article" as any data, computer devices, computer networks, databases, critical databases, electronic communication networks or national critical information infrastructures or any part thereof or any other information, instruments, devices or equipment.71
For the purpose of this paper, the interpretation of "articles" or "items" as per the proposed Cybercrimes and Cybersecurity Bill is supported to include data, data storage devices and data processing devices.
2.3 Defining data and data messages
Article 1(b) of the Budapest Convention defines computer data as any representation of facts, information or concepts in a form suitable for being processed on computers. The SALRC states that the definition provided by the Electronic Communications and Transactions Act of "data" and "data messages" is based on Article 2 of the United Nations Commission on International Trade Law's (UNCITRAL) Model Law on Electronic Commerce with Guide to Enactment,72which uses "data" and "data message" instead of the terms "electronic evidence" or "digital evidence".73 This approach is also recommended by the Practical Guide of the SAPS,74 which uses the term "data" instead of "digital evidence". The accurate use of terminology in search and seizure warrants in line with enabling legislation is supported in the case of Heaney v S,75where the ruling was that the description of a suspected crime should be accurately described in line with the enabling legislation, and colloquially used terms should not be applied. The Electronic Communications and Transactions Act describes "data" as the electronic representation of information in any form, and "data messages" as data generated, sent, received or stored by electronic means. The SALRC further explains that in Part 2 of the UNCITRAL Model Law on Electronic Commerce (1996) it is stated that the concept of data messages is not intended to be limited to communication, but should include computer records and all types of messages that are generated, stored or communicated in a paperless form.76
For the purpose of this article, the definition of "data" is adapted from section 1 of the Electronic Communications and Transactions Act as is "the digital representation of information in any form", and not the "electronic representation of data in any form".
2.4 Digital, computer, electronic or cyber evidence
The SALRC observes that Article 2 of the UNCITRAL Model Law on Electronic Commerce refers to "data" and "data messages" rather than to "electronic evidence" or "digital evidence".77 The reason for this is obvious, since the Model Law on Electronic Commerce, which forms the basis of the South African Electronic Communications and Transactions Act, is aimed at regulating e-commerce, and only a small portion of it relates to defining criminal activities. The Model Law on Electronic Commerce stipulates that the law applies to all commercial activities.78 It is therefore logical rather to use descriptions such as "data" or "data messages". Data or data messages become relevant during investigations into criminal activities, when "electronic evidence" or "digital evidence" should be used. Bouwer79recommends that a single definition for "electronic evidence" should be adopted in the South African law as "information of probative value stored or transmitted in digital format".
References to "computer" evidence or "computer" crime seem to be out-dated.80 The Model Law on Electronic Commerce and the Electronic Communications and Transactions Act make reference to data, data messages and information systems instead of "computer". The word "computer" is well understood and is derived from what devices do, namely computing.81 Computers are defined as "electronic devices which are capable of receiving information (data) in a particular form and of performing a sequence of operations in accordance with a predetermined but variable set of procedural instructions (a programme) to produce a result in the form of information or signals".82 This definition differs vastly from any description of cellular phones with computing capabilities, which are described by the Oxford Dictionary as primarily telephones connected via cellular networks over a wide area.83
The term "cyber" is also of importance. In 1984 William Gibson originally coined the term "cyberspace" in his science fiction novel Neuromancer.84The Oxford Dictionary defines "cyber" as "relating to or characteristic of the culture of computers, information technology, and virtual reality."85
It is very difficult to differentiate between "electronic" and "digital". The SALRC shed light on this dilemma.86 The commission states that while these two terms are used interchangeably, an important distinction exists between the two - analogue and digital outputs. Examples of analogue outputs are vinyl records, photographic films and old telephone systems making use of switchboards.87 Neither the Electronic Communications and Transactions Act nor the Model Law on Electronic Commerce provides any description or definition of "electronic". Spencer88 states that the term "electronic" is not particularly technical and has become synonymous with consumer electronics, such as clocks, radios, smartphones and tablets. It is therefore obvious that although "electronic devices" should include "data", the term is not exclusively limited to "data". However, "digital" is based on binary coding and functions as the building blocks of data.89 The Scientific Working Group on Digital Evidence (hereafter SWGDE) supports this by defining "digital evidence" as evidence stored or transmitted in a binary form.90
For the purpose of this article, the term "digital" is used as opposed to the terms "electronic", "cyber" or "computer".
2.5 Forensic duplicating processes in relation to originality
Digital forensic investigations often involve creating and examining forensic duplicates of the data under analysis.91 Forensic investigators use forensic duplication techniques to collect or acquire data from hard drives, as opposed to the normal copying of files. This is because forensic duplicates contain all of the data from the source drive - even deleted files.92 A normal copying process retrieves only the active or currently accessible files, not deleted files as well.93 A number of references were found to the concept of creating forensic duplicates of digital evidence, including copies, clones, bit-stream copies, images, forensic copies, bit-by-bit copies, mirror images and acquisitions. Vandeven94 provides the following definitions for some of these concepts:
• Bit-by-bit or bit-stream copies - exact copies of all the bits of a logical volume or a physical drive. If the copies are made to files, it is referred to as forensic image files. If copies are made to another disk, it is referred to as clones or mirror images. The original and clones are identical and interchangeable, but if clones are not write-protected, subsequent actions of an analysis can alter the data.
• Disk image files - files containing exact copies of logical volumes or physical disks.
• Forensic images - exact copies of all the bits of logical volumes or physical drives that have been copied bit-by-bit and include all data and metadata. Forensic images include information, such as when these images were copied, by whom, with which forensic tools and the cryptographic hash used for verification of these images.
• Raw images - exact bit-by-bit copies of disks into a single file. Raw images do not contain information regarding the creation of these images.
According to Gerber,95 forensic duplicates were previously also referred to as "mirror" images, but because the term confused courts, the use of "mirror" images is not recommended. Normally, mirror images are reverse images of originals.
All of these different terms can be confusing, but nowhere was it found in research that any of the terms used - except for "mirror copies" - has been rejected by courts.
In the light of the above, a single expression could prove to be technically incorrect in all situations. Whatever terminology is used, Lidbury and Boland96 state that what makes "collections" forensically sound should be the main aim - whether data were collected is an exact duplicate of the original source, including metadata. This implies that the collection method and subsequent analysis steps should not alter data and should include mechanisms to ensure the integrity of the data, such as the extraction of hash values. The judicial measures within a South African environment are the requirements specified by section 14 of the Electronic Communications and Transactions Act - the originality of data messages is measured against the integrity of digital evidence from the time the data were first generated. Integrity is assessed by considering whether the evidence has remained complete and unaltered except for the adding of endorsements or changes which are caused in the normal course of communication. Vacca97 states that an important feature of digital forensics is the fact that it changes the legal concept of best evidence. Vacca states that a new concept of representational accuracy has emerged in terms of digital evidence. It is not necessary anymore to present original copies. If forensic duplicates are created and the source data are depicted exactly, duplicates are considered original.98
In the Canadian case of R v Munshi,99it was stated that with the modernisation of technology, forensic duplication processes have developed to such an extent that duplicate originals can exist. Although this ruling related to documents, the court stated that where exact replication processes are used, it is generally not necessary to compare original documents with the duplicate originals.
Van Deusen Phillips100 maintains that the test of establishing whether or not digital documents can stand as evidence is to determine or prove that the content of the documents is indeed the original, unchanged content. Van Deusen Phillips further states that this is normally accomplished by presenting the original documents or the duplicate originals. In the American case of Lorraine v Markel American Ins Co,101 the court held that an original is the writing itself or a counterpart intended to have the same effect, and that if data are stored on computers or on similar devices, any printouts or other outputs readable by sight reflect the data accurately, the data can be accepted as original. In the case of Muller v BOE Bank Ltd,102 it was acknowledged that South African courts have accepted and are accustomed to the creation or existence of "copies" recognised as duplicate originals since the inception of carbon copies.
For the purpose of this article, the most elucidating description, which should make room for interpretation, is the creation of "forensically-sound duplicate original records" (hereafter forensic duplicates).
3 Digital forensics and international standards
3.1 Digital forensics
Many definitions of digital forensics exist. Palmer103 captures the main aspects as the use of scientifically-derived and proven methods in locating, collecting, preserving, analysing, interpreting, documenting and presenting digital evidence relating to incidents, often with the aim of presenting evidence during hearings. The goal of the process is to preserve evidence in its most original form while performing a structured analysis by collecting, identifying and validating digital information for the purpose of reconstructing past events.
As a scientific-based discipline, digital forensics is premised on following set standards or methodologies in the processes defined above, which are susceptible to inspection by judiciaries.104
3.2 International standards
Nieman105 states that it is ironic that digital forensics first and foremost concerns forensic procedure, rules of evidence, legal concepts, precedents and processes and, second to this, computers. It is exactly because of this that standards in this field play such an important role.
Most of the "standards" are presented as guidelines as opposed to set standards.106
In the light of the importance of standards or the important role that standards should play in digital forensics as a science, it is surprising that there are no set standards, rules or a protocol for the handling of digital evidence, and that technical processes applied to digital evidence "do not have to pass any formal test" for digital evidence to be placed before courts.107 It is therefore understandable that the digital forensic industry has largely been self-regulated within a framework of internationally advised practices, case law, guidelines and industry groups.
3.2.1 Principles of the Association of Chief of Police Officers
The Good Practice Guide for Computer-Based Electronic Evidence108 of the ACPO was drafted in 1997. According to Mohay et al.,109 these principles were reviewed during an International Hi-Tech Crime and Forensic Conference in October 1999 and were further formalised and accepted in 2001 at the 13th International Criminal Organisation's (Interpol) Forensic Science Symposium.
Digital evidence should be accurate, authentic and admissible, like any other evidence, and should conform to common law and legislative principles.110 If investigators, for example, open files and make copies, move, save or print these files, these actions are not viewed as neutral, and may influence or modify evidence.111 The Explanatory Report to the Cybercrime Convention indicates that digital evidence should be retained in the state it was found from the start to the point of prosecution.112 Kessler113highlights the fact that each stage should be performed in such a way that the integrity of the evidence is preserved.
The ACPO principles have long been a guideline for digital forensic investigators in formulating digital forensic procedures to ensure that the requirements as listed above are met when evidence is collected, handled and managed. The guide contains the following four principles concerning the collection and management of digital evidence:114
• Principle 1 : No actions taken by investigators should change the data that may subsequently be relied upon in court.
• Principle 2: Only in exceptional situations should investigators work with or access the original data and only if they are competent to do so and in a position to provide evidence explaining the relevance and the implications of their actions.
• Principle 3: All processes applied to the digital evidence by investigators should be fully recorded to enable independent third party experts to follow these processes and reach the same results.
• Principle 4: Investigators should ensure that all legal principles are adhered to during the analysis of digital evidence.
The principles provide guidelines so that the actions of investigators do not change the digital evidence under investigation, and if original evidence is accessed, this should be done by competent persons. A complete audit trail should be maintained so that the actions of investigators can be reviewed, assessed and evaluated against local legal requirements. These international principles were drafted with the aim of ensuring that the handling of digital evidence conforms to the requirements of evidence in terms of the law and especially to ensure that the integrity of evidence is maintained by ensuring that data have remained unaltered.115 The SALRC116 affirmed the importance of these principles when the commission stated that by accessing files, the actions of forensic investigators are not neutral and it is not easy to prove the integrity of digital evidence given the volatile nature of digital evidence. It has also been stated that the incorrect following of crime scene protocols and proper procedures can render digital evidence unusable or vulnerable to claims of prejudicial distortion by the defence.
3.2.2 Standards and guidelines of the International Organisation of Standardisation
3.2.2.1 ISO 27037 - Security Techniques - Guidelines for identification, collection, acquisition and preservation of digital evidence
In October 2012 the ISO 27037 Standard on Information Technology -Security Techniques - guidelines for the identification, collection, acquisition and preservation of digital evidence was approved and published. The ISO standards are very well known, but even the ISO standards seem to shy away from setting rigid standards in a digital forensic environment. In the opening line of the scope of the ISO/IEC DIS 27037 Standard,117 it is stated that it merely provides "guidelines for specific activities in handling potential digital evidence; these processes are: identification, collection, acquisition and preservation of potential digital evidence".
The processes specified in the standard set guidelines to ensure that digital forensic investigators maintain the integrity of digital evidence during the collection phases of investigations by following analysis methodologies aimed at advancing the admissibility of evidence during legal processes. The importance of the integrity of evidence is supported by Kanellis,118 who emphasises that evidence should be managed correctly so that it cannot lose value and as a result, be inadmissible in courts. The ISO/IEC DIS 27037 Standard sets out four fundamental principles for procedures to be followed in collecting digital evidence.119 Digital forensic investigators should:
• Minimise the handling of original evidence.
• Document all actions taken and account for any alterations in the data to allow experts to express an opinion regarding the reliability of the data.
• Adhere to local rules of evidence.
• Not take any actions beyond their competence.
The ISO/IEC DIS 27037 Standard specifies that, in most jurisdictions, digital evidence is governed by three primary principles:120
• Relevance
A standard requirement is that only relevant data should be collected. In other words, the data collected should assist in examining incidents or aspects of incidents at hand and there should be a need and a reason to collect the data. This requirement is supported by sections 28, 31 and 210 of the Criminal Procedure Act, which regulate wrongful searches and seizures, the inadmissibility of irrelevant evidence and the return of articles not required for criminal proceedings. Digital forensic investigators should be in a position to explain the procedures followed and validate the reasons and grounds why specific data were collected. Francoeur121 explains that any evidence should have an adequate level of relevance to the matter investigated.
• Reliability
All processes followed in handling digital evidence should be auditable and repeatable. The result of applying these processes should be reproducible by independent parties when they follow the same process. Hofman122 highlights that digital evidence should satisfy ordinary requirements related to the admissibility of documents. Documents should be authentic, reliable and original.
• Sufficiency
Digital forensic investigators should ensure that all relevant information is collected to ensure that the matter at hand can be sufficiently analysed and considered. Digital forensic investigators should be able to provide an indication of how much data was considered and should be able to justify the decision about what data and how much data to acquire.
The ISO/IEC DIS 27037 Standard specifies that all processes in relation to digital forensic investigations should be:123
• Auditable
All processes, procedures and results should be auditable by independent forensic investigators to evaluate the activities performed by digital forensic investigators. Audits can be facilitated if the processes and actions followed by digital forensic investigators are sufficiently documented. Digital forensic investigators should be able to explain the basis upon which decisions were taken and the choice of methodology followed during analyses.
• Repeatability
Repeatability is established when the same results are obtained in the following situations:
o when the same procedures and methods are used;
o when the same equipment under the same conditions is used.
It should be noted that repeatability is not possible in all situations - for example, where live data was analysed, or volatile memory. In this case, digital forensic investigators should ensure that acquisition processes are reliable.
• Reproducibility
Reproducibility is established when the same test results are produced under the following conditions:
o when the same method is used;
o when different equipment is used under different conditions;
o when the same results can be reproduced at any time after the original test.
• Justifiability
Digital forensic investigators should be able to validate all actions and methods used in identifying, collecting, analysing and managing potential digital evidence. Justification can be achieved by demonstrating that their decisions were best practice in a specific case in obtaining all of the potential digital evidence in existing circumstances.
In terms of handling digital evidence, the ISO/IEC DIS 27037 Standard advises that "devices that may contain potential digital evidence [should be] removed from their original location to a laboratory or another controlled environment for later acquisition and analysis" and that forensic duplicates should be made for analyses to take place.124
The standard sets out a number of phases during digital forensic investigations,125 which directly relate to searches and seizures, namely:
• Identification - which includes the search for data storage devices, the recognition thereof and the documentation of processes followed. It also entails the prioritisation of the sequence of methods used to secure digital evidence, which can be volatile.
• Collection - which relates to the collection and removal of evidence or the acquisition of evidence on a scene.
• Acquisition - which entails the creation of forensically sound duplicates of evidence in the least restrictive manner possible.
• Preserving evidence - from the point of collection throughout all of the digital forensic processes followed.
These phases are described during the process of digital seizures and divided into two distinctly different stages, namely the search of physical devices on a scene and later searches for relevant data.126 To ensure that evidence is not compromised, forensic duplicates are created of originals, and it is the forensic duplicates that are analysed.127 The process followed in creating forensic duplicates should ultimately stand up to legal scrutiny.128
The collection of digital evidence is a forensic and procedural process which should always be performed with care.129 Data should be collected in such a way that the information is retained in the exact state in which it was found.130
Cross131 explains that "acquisition" refers to the process of collecting digital evidence from specific devices, normally the computers of suspects or victims.
The process of creating forensic duplicates usually commences by removing the hard drive from the computer of the victim or suspect and by connecting the hard drive to a write-protector device.132 This procedure is in line with the principles set out by the ACPO133 and the IOS134 - the actions of investigators should not change data and, where possible, forensic duplicates should be made of the relevant data and these forensic duplicates should be analysed.
A write-protector device places a computer in a read-only form.135 This device prevents actions taken by investigators, such as opening and closing files or searching through files from influencing or changing metadata. This device allows digital forensic investigators to conduct preliminary searches on computers to establish whether these computers contain relevant information or not.
At this stage, evidence can be browsed to determine whether it contains relevant evidence or whether imaging can be started without browsing the evidence. Once it is determined that devices contain relevant evidence, forensic duplicates of the evidence should be made. This is done by means of a number of forensic software programs which allow digital forensic investigators to create forensic duplicates of devices. Nieman136 explains that bit-by-bit copies do exactly what the name suggests - copies are created bit-by-bit. A bit is the smallest size that data can be broken up into, an exact replica of every sector of a hard drive. Bit-by-bit copies are exact reproductions of digital records that contain all of the data, even hidden or deleted data.137 Forensic duplicates and original pieces of evidence are exact copies of one another based and proven on scientific principles, and they can therefore be considered as duplicate originals.138 With the current technology available, digital forensic investigators are able to collect a single file from a computer or a whole folder or the whole hard drive, including empty or unallocated space.139 To create forensic duplicates can be a lengthy process. According to the Digital Intelligence,140 an average transfer rate to create forensic duplicates is approximately 6GB per minute. If a hard drive is 500GB in size, it therefore takes 83 minutes to create one forensic duplicate and another 83 minutes to verify the integrity of a forensic duplicate. Creating forensic duplicates of a server can easily take more than 12 to 24 hours.
During collection processes, forensic programmes use a cryptographic hashing algorithm to ascertain the hash value of data. This is referred to as the MD5 hash algorithm or SHA1 hash algorithm. Nieman141 correctly states that this hash value is often referred to as the electronic fingerprint of a piece of data.
The MD5 hash algorithm is a 128 bit hash value, while the SHA1 algorithm is a 160 bit hash value and the SHA1 hash is considered to be a more complex and more secure algorithm.142 Schneier143 explains that the MD5 hash value has a key size of 128 bits with 3.4 χ 1038 possible combinations. The chance of randomly finding two files that produce the same hash value should be computationally unfeasible. Digital forensic investigators can therefore mathematically - beyond a reasonable doubt - show in court that digital evidence has not changed by even one character.
An example of hash values for the word "CAT" is:
MD5 hash value - c01ae1a5f122f25ce5675f86028b536a
SHA1 hash value - cf9b775c2c444520178d30c267440066c6eff6e8
Losey144 explains that if one single character in a computer is changed, the hash value changes. If the word "CAT" is changed, for example, to "CATS", the hash values change to:
MD5 hash value - ee77f71f2b809c0f6d92320fc9b480f6
SHA1 hash value - c7da99899675795b2f1d94607dbe57b731dd2255
Brown145 states that an imaging process is a scientific process and subject to the Daubert reliability test,146 which was formulated in Daubert v Merrell Dow Pharmaceuticals, Inc.'147This scientific requirement is further discussed in the ISO/IEC DIS 27043 Standard below.
3.2.2.2 ISO/IEC 27043 Standard on Information Technology - Security techniques - Incident investigation principles and processes
The American Academy of Forensic Sciences identified digital forensics as a forensic science.148 As it is a scientific discipline, evidence prepared through digital forensics should meet the same standards as other scientific and technical evidence to be admissible in court.149 The final draft of the ISO/IEC 27043 Standard on information technology - Security techniques - Incident investigation principles and processes150 - specify that persons can be considered experts based on their experience, knowledge, skill, training or education. The opinions, theories, processes, procedures and tools used by experts should be evaluated against the Daubert test,151 which has for long been the de facto test in the United States of America and is applied by courts to scientific procedures used to prepare or uncover evidence. The Daubert test comprises the following factors that should be taken into account to ensure the integrity of evidence:152
• The theories and techniques used by experts should have been tested.
• The theories and techniques should have been subjected to peer review and should appear in publications.
• Any error rates should be known to the experts and have been reported.
• Experts should be governed by standards governing their applications.
• The theories and techniques used by experts should enjoy widespread acceptance.
The ISO/IEC 27043 Standard expanded and sets out the different phases of a digital investigation. It is divided into two main areas, namely digital investigation processes and the concurrent or parallel processes depicted below.153
A summary of the different phases of a forensic investigation,155 as depicted in Figure 1, includes:
• Detection phase - incidents are detected.
• First responder phase - digital forensic investigators attend to incidents.
• Planning phase - investigations of incidents are planned.
• Preparation phase and scene documentation phase - preparation steps are taken to investigate incidents and document actions are taken on scenes.
• Evidence identification phase - potentially relevant evidence is identified.
• Evidence collection phase - evidence is collected.
• Evidence transportation phase - evidence is transported from scenes to digital forensic laboratories.
• Evidence storage phase - digital evidence is securely stored.
• Evidence analysis phase - evidence is analysed to determine its relevance.
• Evidence interpretation phase - evidence is interpreted in relation to its evidential value.
• Reporting phase - evidence is reported on.
• Presentation phase - testimonies or overviews are provided regarding the evidence.
• Closure phase - cases are archived.
The parallel processes include:
• Obtaining of authorisation to investigate incidents.
• Documentation of all actions during investigations.
• Continual information flow between digital forensic investigators and forensic investigators.
• Maintaining chain-of-custody.
• Preserving the integrity of evidence.
• Interaction with physical investigations.
Three of the parallel processes set out by the standard are of paramount importance:
Obtaining authorisation
Proper authorisation should be obtained for each process performed during an investigation. Authorisation may be required from government authorities, system owners, system custodians and principals. For the purpose of this article, proper authorisation is achieved through the application for search and seizure warrants in terms of the provisions stipulated in sections 20 and 21 of the Criminal Procedure Act.
Preserving the chain of custody
A traditional requirement for proving the integrity of evidence is the chain of custody. Van der Merwe et al.156 state that the prosecution needs to convince the court that the evidence was not interfered with from the time it was seized to the presentation in court. It is therefore critical that forensic investigators should ensure that digital evidence remains secure throughout the analysis.157
The chain of custody requirements were expanded upon in the ISO/IEC DIS 27037 Standard. These requirements relate to the ability of digital forensic investigators to account for all the acquired evidence from the point when it was within their custody.158 A chain of custody can be viewed as a record that chronologically captures the movements and handling of evidence. A chain of custody should contain:
• a unique identifier;
• a record of who accessed the evidence at what time and place;
• a record of who checked the evidence in or out of storage and for what reason or under whose authority;
• a record of any unavoidable changes made to the evidence, who made the changes and a justification for introducing the evidence to court.
Schetina, Green and Carlson,159 together with Lange and Nimsger,160 state the importance of a chain of custody in relation to the admissibility of digital evidence and say that courts need to be informed concerning the measures that were adhered to. A chain of custody ensures that evidence was not tampered with. Standard digital forensic processes - if followed and executed correctly - support and contribute to the chain of custody requirements.
5 Conclusions
It is evident that the uniqueness of digital evidence poses complications to traditional legal approaches. Digital evidence encompasses both tangible devices and intangible data and requires special methodologies to identify and collect all relevant evidence. The seizure of all data on computers can be viewed as a too extensive action due to the fact that not all of the relevant information is contained in files. It can reside in different locations on computers. The technical nature of cybercrimes and subsequent technical expert testimony adds further dynamics that are faced by digital forensic investigators.
The technical analysis and interpretation of terminology in relation to digital evidence are aspects that will be debated at length in South African courts in years to come. These interpretations can be problematic in terms of data, but a sound understanding can be gained from case law with regard to technical issues. It is argued that the "premises" described in search and seizure warrants should be the premises of suspects, and the interpretation of "search" should include actions in which the content of data becomes exposed. It is proposed that "search actions" such as look, locate, separate the information, interpret and analyse should be recognised. The creation of forensically-sound duplicate original records should constitute the seizure of data as items or articles of digital information in any form and should be recognised as original duplicates.
The originality, reliability, integrity and admissibility of digital evidence should be maintained as follows:
• Data should not be changed or altered.
• Original evidence should not be directly examined.
• Forensically sound duplicates should be created.
• Digital forensic analyses should be performed by competent persons.
• Digital forensic analyses should adhere to relevant local legal requirements.
• Audit trails should exist consisting of all required documents.
• Chains of custody should be protected.
• Processes and procedures should be proper while recognised and accepted by the industry.
If the ACPO (1997) principles and ISO/IEC 27043 and 27037 Standards are followed as a forensic framework, then the actions of digital forensic investigators should be legally acceptable.
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List of Abbreviations
AAFS American Academy of Forensic Sciences
ACPO Association of Chief Police Officers
Ala Law The Alabama Lawyer
Am Crim L Rev American Criminal Law Review
CSI Computer Standards and Interfaces
DNA Deoxyribonucleic Acid
GB Gigabyte
Harv L Rev Harvard Law Review
IOS International Organisation of Standardisation
J Crim L & Criminology Journal of Criminal Law and Criminology
JBP Journal of Behavioral Profiling
JILT Journal of Information, Law and Technology
Mich Telecomm & Tech L Michigan Telecommunications and
Rev Technology Law Review
Miss LJ Mississippi Law Journal
NLJ New Law Journal
SACJ South African Journal of Criminal Justice
SALRC South African Law Reform Commission
SAPS South African Police Service
SWGDE Scientific Working Group on Digital Evidence
TB Terabyte
UN United Nations
UNCITRAL United Nations Commission on International Trade Law
Date Submission 6 April 2018
Date Revised 2 April 2019
Date Accepted 5 April 2019
Date published 25 April 2019
* Jacobus Gerhardus Johannes Nortjé. BCom Hons Business Administration MBA MCom Forensic Accounting (NWU) (FP)SA CFE. Associated Professor of Forensic Accounting and Forensic Investigation Management, North-West University, South Africa. Email: Koos.Nortje@nwu.ac.za.
** Daniel Christoffel Myburgh. BCom Hons Information Systems MCom Forensic Accounting (NWU). MCom Forensic Accounting Student North-West University, South Africa. Email: dc@cyanre.co.za.
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44 Nieman 2009 JILT 16.
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47 Anon Current Policy and Procedure.
48 Anon Current Policy and Procedure.
49 Kerr 2005 Harv L Rev 541.
50 Kerr 2005 Harv L Rev 557.
51 Arizona v Hicks 480 US 321, 325 (1987).
52 Kerr 2005 Harv L Rev 560.
53 Council of Europe 2001 http://www.oas.org/juridico/english/cyb_pry_coe.pdf 33.
54 Basdeo 2012 SACJ 199.
55 Nieman 2009 JILT 22.
56 Vacca Computer Forensics 237.
57 Vacca Computer Forensics 19.
58 Draft Cybercrimes and Cybersecurity Bill, 2016 9.
59 SALRC Discussion Paper 9 14.
60 Draft Cybercrimes and Cybersecurity Bill, 2016 27.
61 SAPS National Instruction 2/2002 1.
62 United States v Flores-Lopez No 10-3803 (7th Cir 2012).
63 Thint (Pty) Ltd v National Director of Public Prosecutions, Zuma v National Director of Public Prosecutions 2009 1 SA 1 (CC).
64 Minister of Safety and Security v Bennett 2008 2 All SA 26 (SCA).
65 Bennett v Minister of Safety and Security (TPD) (unreported) case number 10828/2005 of 13 May 2005 11.
66 Kerr 2005 Miss LJ 104.
67 Section 3LB of the Australian Crimes Act 12 of 1914.
68 Section 111 of the Search and Surveillance Act 24 of 2012.
69 Bouwer 2014 SACJ 171.
70 Basdeo 2012 SACJ 198, 205.
71 Draft Cybercrimes and Cybersecurity Bill, 2016 6.
72 UN UNCITRAL Model Law.
73 SALRC Issue Paper 27 32.
74 SAPS Practical Guide to Apply for Search Warrants 7.
75 Heaney v S 2016 ZAGPPHC 257 (19 April 2016).
76 SALRC Issue Paper 27 32.
77 SALRC Issue Paper 27 32.
78 UN UNCITRAL Model Law 3.
79 Bouwer 2014 SACJ 170.
80 Bouwer 2014 SACJ 161.
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82 Oxford English Dictionary 2016 http://www.oxforddictionaries.com/definition/english/computer.
83 Oxford English Dictionary 2016 https://en.oxforddictionaries.com/definition/cellular_phone.
84 Gibson Neuromancer.
85 Oxford English Dictionary 2016 https://en.oxforddictionaries.com/definition/cyber.
86 SALRC Issue Paper 27 31.
87 Christensson 2005 http://pc.net/helpcenter/answers/difference_between_analog_and_digital.
88 Spencer 2014 https://www.quora.com/Whats-the-difference-between-electronic-and-digital.
89 Lowe Date Unknown http://www.dummies.com/how-to/content/digital-electronics-binary-basics.html.
90 SWGDE 2012 https://www.swgit.org/pdf/SWGDE%20and%20SWGIT%20Digital%20and%20Multimedia%20Evidence%20Glossary?docID=60 6.
91 ACPO 1997 http://www.digital-detective.net/digital-forensics-documents/ACPO_Good_Practice_Guide_for_Digital_Evidence_v5.pdf 4.
92 Nieman Search and Seizure 44.
93 Kerr 2005 Harv L Rev 540.
94 Vandeven 2014 https://www.sans.org/reading-room/whitepapers/forensics/forensic-images-viewing-pleasure-35447 32-35.
95 Cited in Kessler Judges' Awareness 37.
96 Lidbury and Boland 2012 http://www.insidecounsel.com/2012/05/11/technology-forensically-sound-collection-of-esi 1.
97 Vacca Computer Forensics 795.
98 Vacca Computer Forensics 237.
99 R v Munshi 2002 CanLII 39110 (ON SC).
100 Van Deusen Phillips 2010 https://crlgrn.wordpress.com/2010/07/27/legal-considerations-for-electronic-evidence-part-5-original-vs-duplicate-documents-unfair-prejudice/.
101 Lorraine v Markel American Ins Co (2007) 241 FRD 534, 544 (D Md 2007).
102 Muller v BOE Bank Ltd 2011 1 SA 252 (WCC).
103 Palmer 2001 https://isis.poly.edu/kulesh/forensics/docs/DFRWS_RM_Final.pdf 16.
104 Casey Digital Evidence 10.
105 Nieman 2009 JILT 22.
106 IOS 2014 https://www.iso.org/standard/44407.html vi.
107 Scholtz Towards an Automated Digital Data Forensic Model 60.
108 ACPO 1997 http://www.digital-detective.net/digital-forensics-documents/ACPO_Good_Practice_Guide_for_Digital_Evidence_v5.pdf.
109 Mohay et al Computer and Intrusion Forensics 123.
110 Nieman 2009 JILT 19.
111 Vacca Computer Forensics 19.
112 Council of Europe 2001 http://www.oas.org/juridico/english/cyb_pry_coe.pdf 38.
113 Kessler Judges' Awareness 6.
114 ACPO 1997 http://www.digital-detective.net/digital-forensics-documents/ACPO_Good_Practice_Guide_for_Digital_Evidence_v5.pdf 4.
115 ACPO 1997 http://www.digital-detective.net/digital-forensics-documents/ACPO_Good_Practice_Guide_for_Digital_Evidence_v5.pdf 6-7.
116 SALRC Issue Paper 27 7.
117 IOS 2012 https://www.iso.org/standard/44381 .html 1.
118 Kanellis Digital Crime 58.
119 IOS 2012 https://www.iso.org/standard/44381 .html 8.
120 IOS 2012 https://www.iso.org/standard/44381 .html 6.
121 Francoeur J 2003 http://www.scribd.com/doc/276157/The-Principles-of-Electronic-Agreement-Legal-Admissibility-WP-8-07.
122 Hofman 2006 http://hofman@law.uct.ac.za 7.
123 IOS 2012 https://www.iso.org/standard/44381.html 7.
124 IOS 2012 https://www.iso.org/standard/44381 .html 9.
125 IOS 2012 https://www.iso.org/standard/44381 .html 8.
126 Kerr 2005 Miss LJ 87.
127 Kessler Judges' Awareness 37.
128 Nieman 2009 JILT 22.
129 Kanellis Digital Crime 273.
130 Council of Europe 2001 http://www.oas.org/juridico/english/cyb_pry_coe.pdf 33.
131 Cross Scene of the Cybercrime 210.
132 Nieman 2009 JILT 22.
133 ACPO 1997 http://www.digital-detective.net/digital-forensics-documents/ACPO_Good_Practice_Guide_for_Digital_Evidence_v5.pdf 4.
134 IOS 2012 https://www.iso.org/standard/44381.html 6-8.
135 National Institute of Justice Forensic Examination of Digital Evidence 41.
136 Nieman 2009 JILT 22.
137 Angermeier 2010 J Crim L & Criminology 1615.
138 Van Deusen Phillips 2010 https://crlgrn.wordpress.com/2010/07/27/legal-considerations-for-electronic-evidence-part-5-original-vs-duplicate-documents-unfair-prejudice/.
139 Vandeven 2014 https://www.sans.org/reading-room/whitepapers/forensics/forensic-images-viewing-pleasure-35447 1.
140 Digital Intelligence 2016 https://www.digitalintelligence.com/products/forensic_duplicator/.
141 Nieman 2009 JILT 22.
142 Thompson 2005 Digital Investigation 39.
143 Schneier Applied Cryptography 436-441.
144 Losey 2007 https://e-discoveryteam.com/school/computer-hash-5f0266c4c326b9a1ef9e39cb78c352dc/.
145 Brown Computer Evidence 28.
146 Kessler Judges' Awareness 4.
147 Daubert v Merrell Dow Pharmaceuticals, Inc 509 US 579 (1993).
148 AAFS 2008 http://www.aafs.org/students/choosing-a-career/types-of-forensic-scientists-disciplines-of-aafs/.
149 Kessler Judges' Awareness 20.
150 IOS 2014 https://www.iso.org/standard/44407.html 4.
151 Daubert v Merrell Dow Pharmaceuticals, Inc 509 US 579 (1993).
152 Daubert v Merrell Dow Pharmaceuticals, Inc 509 US 579 (1993).
153 IOS 2014 https://www.iso.org/standard/44407.html.
154 IOS 2014 https://www.iso.org/standard/44407.html 14.
155 IOS 2014 https://www.iso.org/standard/44407.html 14-21.
156 Van der Merwe et al Information and Communications Technology Law 85.
157 Cross Scene of the Cybercrime 211.
158 IOS 2012 https://www.iso.org/standard/44381.html10.
159 Schetina, Green and Carlson Internet Site Security 351.
160 Lange and Nimsger Electronic Evidence 76.