Trojan horse (computing)
|This article is part of a series on|
In computing, a Trojan horse, or Trojan, is any malicious computer program which misleads users of its true intent. The term is derived from the Ancient Greek story of the deceptive wooden horse that led to the fall of the city of Troy.
Trojans are generally spread by some form of social engineering, for example where a user is duped into executing an e-mail attachment disguised to be unsuspicious, (e.g., a routine form to be filled in), or by drive-by download. Although their payload can be anything, many modern forms act as a backdoor, contacting a controller which can then have unauthorized access to the affected computer. Trojans may allow an attacker to access users' personal information such as banking information, passwords, or personal identity (IP address). It can infect other devices connected to the network. Ransomware attacks are often carried out using a Trojan.
Origin of the concept
This terminology occurs for the first time in a US Air Force report in 1974 on the analysis of vulnerability in computer systems. It was made popular by Ken Thompson in his Turing lecture which he gave at the reception of the Turing Award in 1983, attributed to him for having created UNIX. His conference is subtitled:
To what extent should one trust a statement that a program is free of Trojan horses? Perhaps it is more important to trust: the people who wrote the software.
He mentioned that he knew about the possible existence of Trojan horses in a report on the security of Multics of which he was unfortunately unable to find a reference. However Paul Karger and Roger Schell affirm that this is their above cited report.
Trojan in this way may require interaction with a malicious controller (not necessarily distributing the Trojan) to fulfill their purpose. It is possible for those involved with Trojans to scan computers on a network to locate any with a Trojan installed, which the hacker can then control.
Some Trojans take advantage of a security flaw in older versions of Internet Explorer and Google Chrome to use the host computer as an anonymizer proxy to effectively hide Internet usage, enabling the controller to use the Internet for illegal purposes while all potentially incriminating evidence indicates the infected computer or its IP address. The host's computer may or may not show the internet history of the sites viewed using the computer as a proxy. The first generation of anonymizer Trojan horses tended to leave their tracks in the page view histories of the host computer. Later generations of the Trojan tend to "cover" their tracks more efficiently. Several versions of Sub7 have been widely circulated in the US and Europe and became the most widely distributed examples of this type of Trojan.
In German-speaking countries, spyware used or made by the government is sometimes called govware. Govware is typically a Trojan software used to intercept communications from the target computer. Some countries like Switzerland and Germany have a legal framework governing the use of such software. Examples of govware Trojans include the Swiss MiniPanzer and MegaPanzer and the German "state trojan" nicknamed R2D2. German govware works by exploiting security gaps unknown to the general public and accessing smartphone data before it becomes encrypted via other applications.
Due to the popularity of botnets among hackers and the availability of advertising services that permit authors to violate their users' privacy, Trojans are becoming more common. According to a survey conducted by BitDefender from January to June 2009, "Trojan-type malware is on the rise, accounting for 83-percent of the global malware detected in the world." Trojans have a relationship with worms, as they spread with the help given by worms and travel across the internet with them. BitDefender has stated that approximately 15% of computers are members of a botnet, usually recruited by a Trojan infection.
Private and governmental
- FinFisher – Lench IT solutions / Gamma International
- DaVinci / Galileo RCS – HackingTeam
- 0zapftis / r2d2 StaatsTrojaner – DigiTask
- TAO QUANTUM/FOXACID – NSA
- Magic Lantern – FBI
- WARRIOR PRIDE – GCHQ
- Netbus – 1998 (published)
- Sub7 by Mobman – 1999 (published)
- Back Orifice – 1998 (published)
- Y3K Remote Administration Tool by E&K Tselentis – 2000 (published)
- Beast – 2002 (published)
- Bifrost Trojan – 2004 (published)
- DarkComet – 2008 (published)
- Blackhole exploit kit – 2012 (published)
- Gh0st RAT – 2009 (published)
- MegaPanzer BundesTrojaner – 2009 (published)
Detected by security researchers
- Clickbot.A – 2006 (discovered)
- Zeus – 2007 (discovered)
- Flashback Trojan – 2011 (discovered)
- ZeroAccess – 2011 (discovered)
- Koobface – 2008 (discovered)
- Vundo – 2009 (discovered)
- Meredrop – 2010 (discovered)
- Coreflood – 2010 (discovered)
- Tiny Banker Trojan – 2012 (discovered)
- Shedun Android malware – 2015 (discovered)
- Computer security
- Remote administration
- Remote administration software
- Cyber spying
- Dancing pigs
- Exploit (computer security)
- Industrial espionage
- Principle of least privilege
- Privacy-invasive software
- Reverse connection
- Rogue security software
- Timeline of computer viruses and worms
- Zombie (computer science)
- Carnegie Mellon University (1999): "CERT Advisory CA-1999-02 Trojan Horses". Retrieved May 22, 2018.
- Landwehr, Carl E.; Alan R. Bull; John P. McDermott; William S. Choi (1993). A taxonomy of computer program security flaws, with examples. DTIC Document. CiteSeerX . Retrieved 2012-04-05.
- "Trojan Horse Definition". Retrieved 2012-04-05.
- "Trojan horse". Webopedia. Retrieved 2012-04-05.
- "What is Trojan horse? – Definition from Whatis.com". Retrieved 2012-04-05.
- "Trojan Horse: [coined By MIT-hacker-turned-NSA-spook Dan Edwards] N". Retrieved 2012-04-05.
- "What is the difference between viruses, worms, and Trojans?". Symantec Corporation. Retrieved 2009-01-10.
- "VIRUS-L/comp.virus Frequently Asked Questions (FAQ) v2.00 (Question B3: What is a Trojan Horse?)". October 9, 1995. Retrieved 2012-09-13.
- Karger, P.A. and R.R. Schell (June 1974), "Multics Security Evaluation: Vulnerability Analysis , ESD-TR-74-193" (PDF), HQ Electronic Systems Division: Hanscom AFB, MA, II
- Ken Thompson (1984). "Reflection on Trusting Trust". Commun. ACM. 27 (8): 761–763. doi:10.1145/358198.358210..
- Paul A. Karger; Roger R. Schell (2002), "Thirty Years Later: Lessons from the Multics Security Evaluation" (PDF), ACSAC: 119-126
- Karger et Schell wrote that Thompson added this reference in a later version of his Turing conference: Ken Thompson (November 1989), "On Trusting Trust.", Unix Review, 7 (11): 70–74
- Jamie Crapanzano (2003): "Deconstructing SubSeven, the Trojan Horse of Choice", SANS Institute, Retrieved on 2009-06-11
- Vincentas (July 11, 2013). "Trojan Horse in SpyWareLoop.com". Spyware Loop. Retrieved July 28, 2013.
- Basil Cupa, Trojan Horse Resurrected: On the Legality of the Use of Government Spyware (Govware), LISS 2013, pp. 419–428
- "Dokument nicht gefunden!". Federal Department of Justice and Police. Archived from the original on May 6, 2013.
- "Swiss coder publicises government spy Trojan – Techworld.com". News.techworld.com. Retrieved 2014-01-26.
- "German federal police use Trojan virus to evade phone encryption". DW. Retrieved 2018-04-14.
- BitDefender.com Malware and Spam Survey
- Datta, Ganesh. "What are Trojans?". SecurAid.
- "Trojanized adware family abuses accessibility service to install whatever apps it wants – Lookout Blog".
- "Shedun trojan adware is hitting the Android Accessibility Service – TheINQUIRER".
- "Lookout discovers new trojanized adware; 20K popular apps caught in the crossfire – Lookout Blog".
- "Shuanet, ShiftyBug and Shedun malware could auto-root your Android". November 5, 2015.
- Times, Tech (November 9, 2015). "New Family of Android Malware Virtually Impossible To Remove: Say Hello To Shedun, Shuanet And ShiftyBug".
- "Android adware can install itself even when users explicitly reject it".