In computer security a countermeasure is an action, device, procedure, or technique that reduces a threat, a vulnerability, or an attack by eliminating or preventing it, by minimizing the harm it can cause, or by discovering and reporting it so that corrective action can be taken.
The definition is as IETF RFC 2828[1] that is the same as CNSS Instruction No. 4009 dated 26 April 2010 by Committee on National Security Systems of United States of America.[2]
According to the Glossary[3] by InfosecToday, the meaning of countermeasure is:
- The deployment of a set of security services to protect against a security threat.
A synonym is security control.[2][4] In telecommunications, communication countermeasures are defined as security services as part of OSI Reference model by ITU-T X.800 Recommendation. X.800 and ISO ISO 7498-2 (Information processing systems – Open systems interconnection – Basic Reference Model – Part 2: Security architecture are technically aligned.
The following picture explain the relationships between these concepts and terms:
+ - - - - - - - - - - - - + + - - - - + + - - - - - - - - - - -+ | An Attack: | |Counter- | | A System Resource: | | i.e., A Threat Action | | measure | | Target of the Attack | | +----------+ | | | | +-----------------+ | | | Attacker |<==================||<========= | | | | i.e., | Passive | | | | | Vulnerability | | | | A Threat |<=================>||<========> | | | | Agent | or Active | | | | +-------|||-------+ | | +----------+ Attack | | | | VVV | | | | | | Threat Consequences | + - - - - - - - - - - - - + + - - - - + + - - - - - - - - - - -+
A resource (both physical or logical) can have one or more vulnerabilities that can be exploited by a threat agent in a threat action. The result can potentially compromises the confidentiality, integrity or availability properties of resources (potentially different that the vulnerable one) of the organization and others involved parties (customers, suppliers).
The so-called CIA triad is the basis of information security.
The attack can be active when it attempts to alter system resources or affect their operation: so it compromises integrity or availability. A "passive attack" attempts to learn or make use of information from the system but does not affect system resources, compromising confidentiality.
A threat is a potential for violation of security, which exists when there is a circumstance, capability, action, or event that could breach security and cause harm. That is, a threat is a possible danger enabling the exploitation of a vulnerability. A threat can be either "intentional" (i.e., intelligent; e.g., an individual cracker or a criminal organization) or "accidental" (e.g., the possibility of a computer malfunctioning, or the possibility of an "act of God" such as an earthquake, a fire, or a tornado).[1]
A set of policies concerned with information security management, the information security management systems (ISMS), has been developed to manage, according to risk management principles, the countermeasures in order to accomplish to a security strategy set up following rules and regulations applicable in a country.[4]
Countermeasures Against Physical Attacks
If a potential malicious actor has physical access to a computer system, they have a greater chance of inflicting harm upon it.
Electronic Destruction Devices
Devices such as a USB Killer may be used to damage or render completely unusable anything with a connection to the motherboard of a computer, such as a USB port, video port, Ethernet port, or serial port.[5] Without proper protection, these devices may result in the destruction of ports, adapter cards, storage devices, RAM, motherboards, CPUs, or anything physically connected to the device attacked, such as monitors, flash drives, or wired switches. These types of devices can even be used to damage smartphones and cars, as well.[6]
This threat can be mitigated by not installing or restricting physical access to easily accessible ports in situations where they are not necessary. A port-closing lock which permanently disables access to a port short of the actual port being disassembled.[7] When it is necessary for a port to be accessible, an optocoupler can allow for a port to send and receive data to a computer or device without a direct electrical connection, preventing the computer or device from receiving any dangerous voltage from an external device.[8]
Hard Drives and Storage
In an unsecured scenario, a malicious actor may steal or destroy storage devices such as hard drives or SSDs, resulting in the destruction or theft of valuable data.
If the data of a storage device is no longer necessary, data theft is best prevented against by physically destroying or shredding the storage device.[9]
If the data of a storage device is in use and must be secured, one can use encryption to encrypt the contents of a storage device, or even encrypt the whole storage device save for the master boot record. The device can then be unlocked with a password, biometric authentication, a physical dongle, a network interchange, a one-time password, or any combination thereof. If this device is a boot drive, however, it must be unencrypted in a pre-boot environment so the operating system can be accessed. Striping, or breaking data into chunks stored upon multiple drives which must be assemble in order to access the data, is a possible solution to physical drive theft, provided that the drives are stored in multiple, individually secured locations, and are enough in number that no one drive can be used to piece together meaningful information.
Not to be neglected is the process of adding physical barriers to the storage devices themselves. Locked cases or physically hidden drives, with a limited number of personnel with knowledge and access to the keys or locations, may prove to be a good first line against physical theft.
See also
References
- 1 2 RFC 2828 Internet Security Glossary
- 1 2 CNSS Instruction No. 4009 Archived 27 February 2012 at the Wayback Machine dated 26 April 2010
- ↑ "InfosecToday Glossary" (PDF). Archived from the original (PDF) on 20 November 2014. Retrieved 30 September 2010.
- 1 2 Wright, Joe; Harmening, Jim (2009). "15". In Vacca, John (ed.). Computer and Information Security Handbook. Morgan Kaufmann Publications. Elsevier Inc. p. 257. ISBN 978-0-12-374354-1.
- ↑ "USB Killer, yours for $50, lets you easily fry almost every device". Ars Technica. Retrieved 26 August 2018.
- ↑ "This $50 USB Killer Can Destroy Almost Any Smartphone, Computer Or Car Within Seconds". TechFonder. Retrieved 26 August 2018.
- ↑ "Bench Talk | Protect USB Ports From Nefarious "USB Killers"". mouser.com. Retrieved 26 August 2018.
- ↑ "Optocoupler Tutorial". ElectronicsTutorials.
- ↑ "Discarded hard drives can be dangerous". ComputerWeekly.com. Retrieved 26 August 2018.