Watering hole attack

Watering hole is a computer attack strategy in which an attacker guesses or observes which websites an organization often uses and infects one or more of them with malware. Eventually, some member of the targeted group will become infected.[1][2][3] Hacks looking for specific information may only attack users coming from a specific IP address. This also makes the hacks harder to detect and research.[4] The name is derived from predators in the natural world, who wait for an opportunity to attack their prey near watering holes.[5]

Defense techniques

Websites are often infected through zero-day vulnerabilities on browsers or other software.[4] A defense against known vulnerabilities is to apply the latest software patches to remove the vulnerability that allowed the site to be infected. This is assisted by users to ensure that all of their software is running the latest version. An additional defense is for companies to monitor their websites and networks and then block traffic if malicious content is detected.[6]

Examples

2019 Holy Water Campaign

In 2019, a watering-hole attack, called Holy Water Campaign, targeted Asian religious and charity groups.[7] Victims were prompted to update Adobe Flash which triggered the attack.[8] Motive remains unclear.[8]

2018 Chinese country-level attack

There was a country-level watering-hole attack in China from late 2017 into March 2018, by the group "LuckyMouse" also known as "Iron Tiger", "EmissaryPanda", "APT 27" and "Threat Group-3390."[9]

2017 Montreal based International Civil Aviation Organization attack

There was an organization-level watering-hole attack in Montreal from 2016-2017 by an unknown entity causing a data breach. [10]

2017 CCleaner attack

From August to September 2017, the installation binary of CCleaner distributed by the vendor's download servers included malware. CCleaner is a popular tool used to clean potentially unwanted files from Windows computers, widely used by security-minded users. The distributed installer binaries were signed with the developer's certificate making it likely that an attacker compromised the development or build environment and used this to insert malware.[11][12]

2017 NotPetya attack

In June 2017, the NotPetya (also known as ExPetr) malware, believed to have originated in Ukraine, compromised a Ukrainian government website. The attack vector was from users of the site downloading it. The malware erases the contents of victims' hard drives.[13]

2016 Polish banks

In late 2016, a Polish bank discovered malware on computers belonging to the institution. It is believed that the source of this malware was the web server of the Polish Financial Supervision Authority.[14] There have been no reports on any financial losses as a result of this hack.[14]

2013 US Department of Labor

In early 2013, attackers used the United States Department of Labor website to gather information on users' information. This attack specifically targeted users visiting pages with nuclear-related content.[15]

2012 US Council on Foreign Relations

In December 2012, the Council on Foreign Relations website was found to be infected with malware through a zero-day vulnerability in Microsoft's Internet Explorer. In this attack, the malware was only deployed to users using Internet Explorer set to English, Chinese, Japanese, Korean and Russian.[16]

gollark: I did add key support into SPUDNET-HTTP mode, good job me!
gollark: Well, you input a key in one of the boxes or the websocket APIs or possibly SPUDNET-HTTP (I forgot) and I don't put in anything because my browser autofills it.
gollark: SPUDNET doesn't, strictly speaking, have those.
gollark: Look, it says so there.
gollark: No, it has ID 1.

References

  1. Gragido, Will (20 July 2012). "Lions at the Watering Hole – The "VOHO" Affair". The RSA Blog. EMC Corporation.
  2. Haaster, Jelle Van; Gevers, Rickey; Sprengers, Martijn (2016-06-13). Cyber Guerilla. Syngress. p. 57. ISBN 9780128052846.
  3. Miller, Joseph B. (2014). Internet Technologies and Information Services, 2nd Edition. ABC-CLIO. p. 123. ISBN 9781610698863.
  4. Symantec. Internet Security Threat Report, April 2016, p. 38 https://www.symantec.com/content/dam/symantec/docs/reports/istr-21-2016-en.pdf
  5. Rouse, Margaret. "What is watering hole attack?". SearchSecurity. Retrieved 2017-04-03.
  6. Grimes, Roger A. "Watch out for waterhole attacks -- hackers' latest stealth weapon". InfoWorld. Retrieved 2017-04-03.
  7. "Kaspersky uncovers a creative water hole attack discovered in the wild". Kaspersky.
  8. "Holy water: ongoing targeted water-holing attack in Asia". securelist.com. Retrieved 2020-08-05.
  9. https://thehackernews.com/2018/06/chinese-watering-hole-attack.html
  10. https://www.cbc.ca/news/canada/montreal/icao-patient-zero-cyberattack-whistleblower-1.5223883
  11. "CCleanup: A Vast Number of Machines at Risk". blogs@Cisco - Cisco Blogs. Retrieved 2017-09-19.
  12. "Security Notification for CCleaner v5.33.6162 and CCleaner Cloud v1.07.3191 for 32-bit Windows users". blogs@Piriform - Piriform Blogs. Retrieved 2017-09-19.
  13. https://threatpost.com/researchers-find-blackenergy-apt-links-in-expetr-code/126662/
  14. "Attackers target dozens of global banks with new malware". Symantec Security Response. Retrieved 2017-04-02.
  15. "Department of Labor Watering Hole Attack Confirmed to be 0-Day with Possible Advanced Reconnaissance Capabilities". blogs@Cisco - Cisco Blogs. Retrieved 2017-04-03.
  16. "Council on Foreign Relations Website Hit by Watering Hole Attack, IE Zero-Day Exploit". Threatpost. 2012-12-29. Retrieved 2017-04-02.

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