ТОП просматриваемых книг сайта:
Network Forensics. Messier Ric
Читать онлайн.Название Network Forensics
Год выпуска 0
isbn 9781119329183
Автор произведения Messier Ric
Жанр Зарубежная образовательная литература
Издательство Автор
What Is Forensics?
Before going further, let's define some terms.
The word forensics comes from the Latin forens, meaning belonging to the public. It is related to the word forum. If you have ever been involved in debate teams, you may be familiar with it as being related to debate and argumentation. If you are skilled in forensics, you may make a good lawyer. It is from this sense that the connotation of the word has come to mean something other than debate and argumentation. Investigating evidence, in the field or in the lab, to be used in a court case is the practice of forensics because the activity is related to the courts or trials.
This chapter expands on that by talking more specifically about digital forensics. Computer or digital forensics is the practice of investigating computers, digital media, and digital communications for potential artifacts. In this context, the word artifact indicates any object of interest. We wouldn't use the word evidence unless it's actually presented as part of a court case. You may say that an artifact is potential evidence. It may end up being nothing, but because it was extracted from the piles of data that may have been handed to the investigator, we need to refer to it in a way that makes clear the object is something of interest and potentially warrants additional investigation.
Because the word forensics is used in legal settings, you will often find that talk about forensics is involved with law enforcement. Traditionally, that has been the case. However, because many of the techniques and skills that are used by law enforcement are the same as those that may be practiced by an incident response specialist – someone who is investigating a suspicious event or set of events within a business setting – the word forensics also describes the process of identifying digital artifacts within a large collection of data, even in situations where law enforcement isn't involved.
For our purposes, the data we are talking about collecting is network information. This may be packet captures, which are bit-for-bit copies of all communication that has passed across a network interface. The data collected may also come in the form of logs or aggregated data like network flow information.
Any time you handle information that could potentially be used in a court case, it's essential that it be maintained in its original condition, and that you can prove that it hasn't been tampered with. There are ways to ensure that you can demonstrate that the evidence hasn't been tampered with, including maintaining documentation demonstrating who handled it. Additionally, being able to have verifiable proof that the evidence you had at the end is the same as at the beginning is important. The reason for this is that in a course case , technical evidence, such as that from a digital forensic examination, is expected to adhere to an accepted set of standards.
Handling Evidence
The United States of America uses a common law legal system. This is at the federal as well as the state level, with the exception of the state of Louisiana, which uses a civil law system. The United Kingdom also uses a common law system. This means that legislatures enact laws and those laws are then interpreted by the courts for their applicability to specific circumstances. After a court has issued a ruling on a case, that case can then be used as a precedent in subsequent cases. This way every court doesn't have to make a wholly original interpretation of a law for every case. They build on previous cases to create a common interpretation of the law.
When it comes to addressing technical evidence in court cases, a couple of cases are worth understanding. The first case, Frye vs. United States, was a case in 1923 related to the admissibility of a polygraph test. As we continue to make technological advances, courts can have a hard time keeping up. The Frye standard was the one of the first attempts to codify a process that could help ensure that technical or scientific evidence being offered was standardized or accepted within the technical or scientific community. The courts needed a way to evaluate technical or scientific evidence to ensure that it was able to help the trier of facts determine the truth in a trial.
In essence, the Frye standard says that any scientific or technical evidence that is presented before the court must be generally accepted by a meaningful portion of the community of those responsible for the process, principle, or technique being presented. Acceptance by only a small number of colleagues who are also working in a related area doesn't necessarily rise to the standard of general acceptance by the community. Scientific evidence such as that resulting from DNA testing or blood type testing has passed this standard of reliability and veracity and is therefore allowed to be presented in a trial.
The federal court system and most U.S. states have moved past the Frye standard. Instead, they rely on the case Daubert vs. Merrell Dow Pharmaceuticals, Inc. Essentially, the standard of determining whether scientific or technical evidence is relevant hasn't changed substantially. What the majority opinion in the Daubert case argued was that because the Federal Rules of Evidence (FRE) were passed in 1975, those should supersede Frye, which was older. The Supreme Court ruled that in cases where the FRE was in conflict with common laws, such as the standard set by Frye, the FRE had precedence.
The intention of the continuing progress of case law related to technical evidence is to ensure that the evidence presented can be used to assist the trier of facts. The role of the trier of facts in a court case is to come to the truth of the situation. Frye was used to make sure technical evidence was accepted by a community of experts before it could be considered admissible in court. Daubert said that because the Federal Rules of Evidence came later than Frye, it should become the standard in cases of technical evidence. While expert witnesses are used to explain the evidence, the expert witness alone is not sufficient. The witness is a stand-in at trial for the evidence. A witness can be questioned and can provide clarifying information that the evidence directly cannot.
When it comes to digital evidence, we have to consider issues related to the appropriate handling of the data because it can be easily manipulated. For that reason, there's a risk that digital evidence could be considered hearsay if it's mishandled because of the FRE requirements regarding hearsay evidence. Hearsay is relevant here because hearsay is any evidence that is not direct, meaning that it doesn't come from a primary source that can be questioned by the opposition. In short, because there isn't someone sitting on the stand indicating what they saw, it's potentially hearsay unless it is a recording of regular business activities. Of course, the legal aspects are much more complicated than this short discussion might imply, but those are the essentials for those of us without law degrees.
All of this is to say that we have to handle potential evidence carefully so it cannot be questioned as being inauthentic and an inaccurate representation of the events. Fortunately, there are ways that we can not only demonstrate that nothing has changed but also demonstrate a complete record of who has handled the evidence. It is essential that when evidence has been acquired that it be documented clearly from the point of acquisition using the techniques outlined in the following sections.
Cryptographic Hashes
The best way to demonstrate that evidence has not changed from the point of acquisition is to use a cryptographic hash. Let's say, for example, that you have an image of a disk drive that you are going to investigate. Or, for our purposes, what may be more relevant is to say that we have a file that contains all of the network communications from a particular period of time. In order to have something we can check against later, we would generate a cryptographic hash of those files. The cryptographic hash is the result of a mathematical process that, when given a particular data set as input, generates a fixed-length value output. That fixed-length value can be verified later on with other hashes taken from the same evidence. Because hashing a file will always generate the same value (that is, output), as long as the file (the input data) hasn't changed, courts have accepted cryptographic hashes (of sufficient complexity) as a reliable test of authenticity when it comes to demonstrating that the evidence has not changed over a period of time and repeated interactions.
Two separate sets of data creating the