Куда я попал?
SECURITM это SGRC система, ? автоматизирующая процессы в службах информационной безопасности. SECURITM помогает построить и управлять ИСПДн, КИИ, ГИС, СМИБ/СУИБ, банковскими системами защиты.
А еще SECURITM это место для обмена опытом и наработками для служб безопасности.

Уязвимости в клиентском ПО

Adversaries may exploit software vulnerabilities in client applications to execute code. Vulnerabilities can exist in software due to unsecure coding practices that can lead to unanticipated behavior. Adversaries can take advantage of certain vulnerabilities through targeted exploitation for the purpose of arbitrary code execution. Oftentimes the most valuable exploits to an offensive toolkit are those that can be used to obtain code execution on a remote system because they can be used to gain access to that system. Users will expect to see files related to the applications they commonly used to do work, so they are a useful target for exploit research and development because of their high utility. Several types exist: ### Browser-based Exploitation Web browsers are a common target through Drive-by Compromise and Spearphishing Link. Endpoint systems may be compromised through normal web browsing or from certain users being targeted by links in spearphishing emails to adversary controlled sites used to exploit the web browser. These often do not require an action by the user for the exploit to be executed. ### Office Applications Common office and productivity applications such as Microsoft Office are also targeted through Phishing. Malicious files will be transmitted directly as attachments or through links to download them. These require the user to open the document or file for the exploit to run. ### Common Third-party Applications Other applications that are commonly seen or are part of the software deployed in a target network may also be used for exploitation. Applications such as Adobe Reader and Flash, which are common in enterprise environments, have been routinely targeted by adversaries attempting to gain access to systems. Depending on the software and nature of the vulnerability, some may be exploited in the browser or require the user to open a file. For instance, some Flash exploits have been delivered as objects within Microsoft Office documents.

ID: T1203
Тактика(-и): Execution
Платформы: Linux, macOS, Windows
Источники данных: Application Log: Application Log Content, Process: Process Creation
Версия: 1.4
Дата создания: 18 Apr 2018
Последнее изменение: 18 Apr 2022

Примеры процедур

Название Описание
Frankenstein

Frankenstein has used CVE-2017-11882 to execute code on the victim's machine.(Citation: Talos Frankenstein June 2019)

Sidewinder

Sidewinder has exploited vulnerabilities to gain execution including CVE-2017-11882 and CVE-2020-0674.(Citation: ATT Sidewinder January 2021)(Citation: Cyble Sidewinder September 2020)

APT28

APT28 has exploited Microsoft Office vulnerability CVE-2017-0262 for execution.(Citation: Securelist Sofacy Feb 2018)

Threat Group-3390

Threat Group-3390 has exploited CVE-2018-0798 in Equation Editor.(Citation: Trend Micro Iron Tiger April 2021)

Agent Tesla

Agent Tesla has exploited Office vulnerabilities such as CVE-2017-11882 and CVE-2017-8570 for execution during delivery.(Citation: SentinelLabs Agent Tesla Aug 2020)

Sandworm Team

Sandworm Team has exploited vulnerabilities in Microsoft PowerPoint via OLE objects (CVE-2014-4114) and Microsoft Word via crafted TIFF images (CVE-2013-3906).(Citation: iSight Sandworm Oct 2014)(Citation: TrendMicro Sandworm October 2014)(Citation: McAfee Sandworm November 2013)

Dragonfly

Dragonfly has exploited CVE-2011-0611 in Adobe Flash Player to gain execution on a targeted system.(Citation: Gigamon Berserk Bear October 2021)

Andariel

Andariel has exploited numerous ActiveX vulnerabilities, including zero-days.(Citation: FSI Andariel Campaign Rifle July 2017)(Citation: IssueMakersLab Andariel GoldenAxe May 2017)(Citation: TrendMicro New Andariel Tactics July 2018)

Bankshot

Bankshot leverages a known zero-day vulnerability in Adobe Flash to execute the implant into the victims’ machines.(Citation: McAfee Bankshot)

The White Company

The White Company has taken advantage of a known vulnerability in Microsoft Word (CVE 2012-0158) to execute code.(Citation: Cylance Shaheen Nov 2018)

EXOTIC LILY

EXOTIC LILY has used malicious documents containing exploits for CVE-2021-40444 affecting Microsoft MSHTML.(Citation: Google EXOTIC LILY March 2022)

Lazarus Group

Lazarus Group has exploited Adobe Flash vulnerability CVE-2018-4878 for execution.(Citation: McAfee Bankshot)

Ember Bear

Ember Bear has exploited Microsoft Office vulnerability CVE-2017-11882.(Citation: Palo Alto Unit 42 OutSteel SaintBot February 2022 )

APT29

APT29 has used multiple software exploits for common client software, like Microsoft Word, Exchange, and Adobe Reader, to gain code execution.(Citation: F-Secure The Dukes)(Citation: Cybersecurity Advisory SVR TTP May 2021)(Citation: MSTIC NOBELIUM May 2021)

BlackTech

BlackTech has exploited multiple vulnerabilities for execution, including Microsoft Office vulnerabilities CVE-2012-0158, CVE-2014-6352, CVE-2017-0199, and Adobe Flash CVE-2015-5119.(Citation: TrendMicro BlackTech June 2017)

EvilBunny

EvilBunny has exploited CVE-2011-4369, a vulnerability in the PRC component in Adobe Reader.(Citation: Cyphort EvilBunny Dec 2014)

Xbash

Xbash can attempt to exploit known vulnerabilities in Hadoop, Redis, or ActiveMQ when it finds those services running in order to conduct further execution.(Citation: Unit42 Xbash Sept 2018)(Citation: Trend Micro Xbash Sept 2018)

SUPERNOVA

SUPERNOVA was installed via exploitation of a SolarWinds Orion API authentication bypass vulnerability (CVE-2020-10148).(Citation: Carnegie Mellon University Supernova Dec 2020)(Citation: Splunk Supernova Jan 2021)

Confucius

Confucius has exploited Microsoft Office vulnerabilities, including CVE-2015-1641, CVE-2017-11882, and CVE-2018-0802.(Citation: Uptycs Confucius APT Jan 2021)(Citation: TrendMicro Confucius APT Feb 2018)

Patchwork

Patchwork uses malicious documents to deliver remote execution exploits as part of. The group has previously exploited CVE-2017-8570, CVE-2012-1856, CVE-2014-4114, CVE-2017-0199, CVE-2017-11882, and CVE-2015-1641.(Citation: Cymmetria Patchwork)(Citation: Securelist Dropping Elephant)(Citation: Symantec Patchwork)(Citation: PaloAlto Patchwork Mar 2018)(Citation: TrendMicro Patchwork Dec 2017)(Citation: Volexity Patchwork June 2018)(Citation: Unit 42 BackConfig May 2020)

APT12

APT12 has exploited multiple vulnerabilities for execution, including Microsoft Office vulnerabilities (CVE-2009-3129, CVE-2012-0158) and vulnerabilities in Adobe Reader and Flash (CVE-2009-4324, CVE-2009-0927, CVE-2011-0609, CVE-2011-0611).(Citation: Moran 2014)(Citation: Trend Micro IXESHE 2012)

Ramsay

Ramsay has been embedded in documents exploiting CVE-2017-0199, CVE-2017-11882, and CVE-2017-8570.(Citation: Eset Ramsay May 2020)(Citation: Antiy CERT Ramsay April 2020)

Axiom

Axiom has used exploits for multiple vulnerabilities including CVE-2014-0322, CVE-2012-4792, CVE-2012-1889, and CVE-2013-3893.(Citation: Cisco Group 72)

Higaisa

Higaisa has exploited CVE-2018-0798 for execution.(Citation: PTSecurity Higaisa 2020)

During Frankenstein, the threat actors exploited CVE-2017-11882 to execute code on the victim's machine.(Citation: Talos Frankenstein June 2019)

Cobalt Group

Cobalt Group had exploited multiple vulnerabilities for execution, including Microsoft’s Equation Editor (CVE-2017-11882), an Internet Explorer vulnerability (CVE-2018-8174), CVE-2017-8570, CVE-2017-0199, and CVE-2017-8759.(Citation: Talos Cobalt Group July 2018)(Citation: PTSecurity Cobalt Group Aug 2017)(Citation: PTSecurity Cobalt Dec 2016)(Citation: Proofpoint Cobalt June 2017)(Citation: RiskIQ Cobalt Nov 2017)(Citation: RiskIQ Cobalt Jan 2018)(Citation: Crowdstrike Global Threat Report Feb 2018)(Citation: TrendMicro Cobalt Group Nov 2017)

SpeakUp

SpeakUp attempts to exploit the following vulnerabilities in order to execute its malicious script: CVE-2012-0874, CVE-2010-1871, CVE-2017-10271, CVE-2018-2894, CVE-2016-3088, JBoss AS 3/4/5/6, and the Hadoop YARN ResourceManager. (Citation: CheckPoint SpeakUp Feb 2019)

Leviathan

Leviathan has exploited multiple Microsoft Office and .NET vulnerabilities for execution, including CVE-2017-0199, CVE-2017-8759, and CVE-2017-11882.(Citation: Proofpoint Leviathan Oct 2017)(Citation: FireEye Periscope March 2018)(Citation: CISA AA21-200A APT40 July 2021)(Citation: Accenture MUDCARP March 2019)

APT37

APT37 has used exploits for Flash Player (CVE-2016-4117, CVE-2018-4878), Word (CVE-2017-0199), Internet Explorer (CVE-2020-1380 and CVE-2020-26411), and Microsoft Edge (CVE-2021-26411) for execution.(Citation: Securelist ScarCruft Jun 2016)(Citation: FireEye APT37 Feb 2018)(Citation: Talos Group123)(Citation: Volexity InkySquid BLUELIGHT August 2021)

TA459

TA459 has exploited Microsoft Word vulnerability CVE-2017-0199 for execution.(Citation: Proofpoint TA459 April 2017)

Mustang Panda

Mustang Panda has exploited CVE-2017-0199 in Microsoft Word to execute code.(Citation: Crowdstrike MUSTANG PANDA June 2018)

APT3

APT3 has exploited the Adobe Flash Player vulnerability CVE-2015-3113 and Internet Explorer vulnerability CVE-2014-1776.(Citation: FireEye Clandestine Wolf)(Citation: FireEye Clandestine Fox)

BRONZE BUTLER

BRONZE BUTLER has exploited Microsoft Office vulnerabilities CVE-2014-4114, CVE-2018-0802, and CVE-2018-0798 for execution.(Citation: Symantec Tick Apr 2016)(Citation: Trend Micro Tick November 2019)

Transparent Tribe

Transparent Tribe has crafted malicious files to exploit CVE-2012-0158 and CVE-2010-3333 for execution.(Citation: Proofpoint Operation Transparent Tribe March 2016)

Tropic Trooper

Tropic Trooper has executed commands through Microsoft security vulnerabilities, including CVE-2017-11882, CVE-2018-0802, and CVE-2012-0158.(Citation: TrendMicro Tropic Trooper Mar 2018)(Citation: Unit 42 Tropic Trooper Nov 2016)

Tonto Team

Tonto Team has exploited Microsoft vulnerabilities, including CVE-2018-0798, CVE-2018-8174, CVE-2018-0802, CVE-2017-11882, CVE-2019-9489 CVE-2020-8468, and CVE-2018-0798 to enable execution of their delivered malicious payloads.(Citation: Kaspersky CactusPete Aug 2020)(Citation: TrendMicro Tonto Team October 2020)(Citation: Talos Bisonal Mar 2020)(Citation: Talos Bisonal 10 Years March 2020)

Aoqin Dragon

Aoqin Dragon has exploited CVE-2012-0158 and CVE-2010-3333 for execution against targeted systems.(Citation: SentinelOne Aoqin Dragon June 2022)

Inception

Inception has exploited CVE-2012-0158, CVE-2014-1761, CVE-2017-11882 and CVE-2018-0802 for execution.(Citation: Kaspersky Cloud Atlas August 2019)(Citation: Kaspersky Cloud Atlas December 2014)(Citation: Symantec Inception Framework March 2018)(Citation: Unit 42 Inception November 2018)

HAWKBALL

HAWKBALL has exploited Microsoft Office vulnerabilities CVE-2017-11882 and CVE-2018-0802 to deliver the payload.(Citation: FireEye HAWKBALL Jun 2019)

DealersChoice

DealersChoice leverages vulnerable versions of Flash to perform execution.(Citation: Sofacy DealersChoice)

APT41

APT41 leveraged the follow exploits in their operations: CVE-2012-0158, CVE-2015-1641, CVE-2017-0199, CVE-2017-11882, and CVE-2019-3396.(Citation: FireEye APT41 Aug 2019)

During Operation Dust Storm, the threat actors exploited Adobe Flash vulnerability CVE-2011-0611, Microsoft Windows Help vulnerability CVE-2010-1885, and several Internet Explorer vulnerabilities, including CVE-2011-1255, CVE-2012-1889, and CVE-2014-0322.(Citation: Cylance Dust Storm)

BITTER

BITTER has exploited Microsoft Office vulnerabilities CVE-2012-0158, CVE-2017-11882, CVE-2018-0798, and CVE-2018-0802.(Citation: Cisco Talos Bitter Bangladesh May 2022)(Citation: Forcepoint BITTER Pakistan Oct 2016)

Cobalt Strike

Cobalt Strike can exploit Oracle Java vulnerabilities for execution, including CVE-2011-3544, CVE-2013-2465, CVE-2012-4681, and CVE-2013-2460.(Citation: Talos Cobalt Strike September 2020)(Citation: Cobalt Strike Manual 4.3 November 2020)

Elderwood

Elderwood has used exploitation of endpoint software, including Microsoft Internet Explorer Adobe Flash vulnerabilities, to gain execution. They have also used zero-day exploits.(Citation: Symantec Elderwood Sept 2012)

Darkhotel

Darkhotel has exploited Adobe Flash vulnerability CVE-2015-8651 for execution.(Citation: Microsoft DUBNIUM June 2016)

APT32

APT32 has used RTF document that includes an exploit to execute malicious code. (CVE-2017-11882)(Citation: ESET OceanLotus Mar 2019)

admin@338

admin@338 has exploited client software vulnerabilities for execution, such as Microsoft Word CVE-2012-0158.(Citation: FireEye admin@338)

APT33

APT33 has attempted to exploit a known vulnerability in WinRAR (CVE-2018-20250), and attempted to gain remote code execution via a security bypass vulnerability (CVE-2017-11774).(Citation: Symantec Elfin Mar 2019)(Citation: Microsoft Holmium June 2020)

MuddyWater

MuddyWater has exploited the Office vulnerability CVE-2017-0199 for execution.(Citation: ClearSky MuddyWater June 2019)

InvisiMole

InvisiMole has installed legitimate but vulnerable Total Video Player software and wdigest.dll library drivers on compromised hosts to exploit stack overflow and input validation vulnerabilities for code execution.(Citation: ESET InvisiMole June 2020)

Контрмеры

Контрмера Описание
Exploit Protection

Use capabilities to detect and block conditions that may lead to or be indicative of a software exploit occurring.

Exploitation for Client Execution Mitigation

Browser sandboxes can be used to mitigate some of the impact of exploitation, but sandbox escapes may still exist. (Citation: Windows Blogs Microsoft Edge Sandbox) (Citation: Ars Technica Pwn2Own 2017 VM Escape) Other types of virtualization and application microsegmentation may also mitigate the impact of client-side exploitation. The risks of additional exploits and weaknesses in implementation may still exist. (Citation: Ars Technica Pwn2Own 2017 VM Escape) Security applications that look for behavior used during exploitation such as Windows Defender Exploit Guard (WDEG) and the Enhanced Mitigation Experience Toolkit (EMET) can be used to mitigate some exploitation behavior. (Citation: TechNet Moving Beyond EMET) Control flow integrity checking is another way to potentially identify and stop a software exploit from occurring. (Citation: Wikipedia Control Flow Integrity) Many of these protections depend on the architecture and target application binary for compatibility.

Application Isolation and Sandboxing

Restrict execution of code to a virtual environment on or in transit to an endpoint system.

Обнаружение

Detecting software exploitation may be difficult depending on the tools available. Also look for behavior on the endpoint system that might indicate successful compromise, such as abnormal behavior of the browser or Office processes. This could include suspicious files written to disk, evidence of Process Injection for attempts to hide execution, evidence of Discovery, or other unusual network traffic that may indicate additional tools transferred to the system.

Ссылки

  1. Adamitis, D. et al. (2019, June 4). It's alive: Threat actors cobble together open-source pieces into monstrous Frankenstein campaign. Retrieved May 11, 2020.
  2. Hinchliffe, A. and Falcone, R. (2020, May 11). Updated BackConfig Malware Targeting Government and Military Organizations in South Asia. Retrieved June 17, 2020.
  3. Meltzer, M, et al. (2018, June 07). Patchwork APT Group Targets US Think Tanks. Retrieved July 16, 2018.
  4. Lunghi, D., et al. (2017, December). Untangling the Patchwork Cyberespionage Group. Retrieved July 10, 2018.
  5. Levene, B. et al.. (2018, March 7). Patchwork Continues to Deliver BADNEWS to the Indian Subcontinent. Retrieved March 31, 2018.
  6. Hamada, J.. (2016, July 25). Patchwork cyberespionage group expands targets from governments to wide range of industries. Retrieved August 17, 2016.
  7. Kaspersky Lab's Global Research & Analysis Team. (2016, July 8). The Dropping Elephant – aggressive cyber-espionage in the Asian region. Retrieved August 3, 2016.
  8. Cymmetria. (2016). Unveiling Patchwork - The Copy-Paste APT. Retrieved August 3, 2016.
  9. Giagone, R., Bermejo, L., and Yarochkin, F. (2017, November 20). Cobalt Strikes Again: Spam Runs Use Macros and CVE-2017-8759 Exploit Against Russian Banks. Retrieved March 7, 2019.
  10. CrowdStrike. (2018, February 26). CrowdStrike 2018 Global Threat Report. Retrieved October 10, 2018.
  11. Klijnsma, Y.. (2018, January 16). First Activities of Cobalt Group in 2018: Spear Phishing Russian Banks. Retrieved October 10, 2018.
  12. Klijnsma, Y.. (2017, November 28). Gaffe Reveals Full List of Targets in Spear Phishing Attack Using Cobalt Strike Against Financial Institutions. Retrieved October 10, 2018.
  13. Mesa, M, et al. (2017, June 1). Microsoft Word Intruder Integrates CVE-2017-0199, Utilized by Cobalt Group to Target Financial Institutions. Retrieved October 10, 2018.
  14. Positive Technologies. (2016, December 16). Cobalt Snatch. Retrieved October 9, 2018.
  15. Positive Technologies. (2017, August 16). Cobalt Strikes Back: An Evolving Multinational Threat to Finance. Retrieved September 5, 2018.
  16. Svajcer, V. (2018, July 31). Multiple Cobalt Personality Disorder. Retrieved September 5, 2018.
  17. Fraser, N., et al. (2019, August 7). Double DragonAPT41, a dual espionage and cyber crime operation APT41. Retrieved September 23, 2019.
  18. Cyble. (2020, September 26). SideWinder APT Targets with futuristic Tactics and Techniques. Retrieved January 29, 2021.
  19. Hegel, T. (2021, January 13). A Global Perspective of the SideWinder APT. Retrieved January 27, 2021.
  20. Microsoft Threat Intelligence Center (MSTIC). (2021, May 27). New sophisticated email-based attack from NOBELIUM. Retrieved May 28, 2021.
  21. NCSC, CISA, FBI, NSA. (2021, May 7). Further TTPs associated with SVR cyber actors. Retrieved July 29, 2021.
  22. F-Secure Labs. (2015, September 17). The Dukes: 7 years of Russian cyberespionage. Retrieved December 10, 2015.
  23. Esler, J., Lee, M., and Williams, C. (2014, October 14). Threat Spotlight: Group 72. Retrieved January 14, 2016.
  24. Lancaster, T. (2018, November 5). Inception Attackers Target Europe with Year-old Office Vulnerability. Retrieved May 8, 2020.
  25. Symantec. (2018, March 14). Inception Framework: Alive and Well, and Hiding Behind Proxies. Retrieved May 8, 2020.
  26. GReAT. (2014, December 10). Cloud Atlas: RedOctober APT is back in style. Retrieved May 8, 2020.
  27. GReAT. (2019, August 12). Recent Cloud Atlas activity. Retrieved May 8, 2020.
  28. Lunghi, D. and Lu, K. (2021, April 9). Iron Tiger APT Updates Toolkit With Evolved SysUpdate Malware. Retrieved November 12, 2021.
  29. Goodin, D. (2017, March 17). Virtual machine escape fetches $105,000 at Pwn2Own hacking contest - updated. Retrieved March 12, 2018.
  30. Cowan, C. (2017, March 23). Strengthening the Microsoft Edge Sandbox. Retrieved March 12, 2018.
  31. O'Gorman, G., and McDonald, G.. (2012, September 6). The Elderwood Project. Retrieved February 15, 2018.
  32. Chen, Joseph. (2018, July 16). New Andariel Reconnaissance Tactics Uncovered. Retrieved September 29, 2021.
  33. IssueMakersLab. (2017, May 1). Operation GoldenAxe. Retrieved September 29, 2021.
  34. FSI. (2017, July 27). Campaign Rifle - Andariel, the Maiden of Anguish. Retrieved September 29, 2021.
  35. Stolyarov, V. (2022, March 17). Exposing initial access broker with ties to Conti. Retrieved August 18, 2022.
  36. Check Point Research. (2019, February 4). SpeakUp: A New Undetected Backdoor Linux Trojan. Retrieved April 17, 2019.
  37. Microsoft. (2016, June 9). Reverse-engineering DUBNIUM. Retrieved March 31, 2021.
  38. FireEye Threat Intelligence. (2015, December 1). China-based Cyber Threat Group Uses Dropbox for Malware Communications and Targets Hong Kong Media Outlets. Retrieved December 4, 2015.
  39. Bermejo, L., et al. (2017, June 22). Following the Trail of BlackTech’s Cyber Espionage Campaigns. Retrieved May 5, 2020.
  40. Kaspersky Lab's Global Research & Analysis Team. (2018, February 20). A Slice of 2017 Sofacy Activity. Retrieved November 27, 2018.
  41. Huss, D. (2016, March 1). Operation Transparent Tribe. Retrieved June 8, 2016.
  42. Zykov, K. (2020, August 13). CactusPete APT group’s updated Bisonal backdoor. Retrieved May 5, 2021.
  43. Warren Mercer, Paul Rascagneres, Vitor Ventura. (2020, March 6). Bisonal 10 Years of Play. Retrieved October 17, 2021.
  44. Mercer, W., et al. (2020, March 5). Bisonal: 10 years of play. Retrieved January 26, 2022.
  45. Daniel Lughi, Jaromir Horejsi. (2020, October 2). Tonto Team - Exploring the TTPs of an advanced threat actor operating a large infrastructure. Retrieved October 17, 2021.
  46. Falcone, R. (2018, March 15). Sofacy Uses DealersChoice to Target European Government Agency. Retrieved June 4, 2018.
  47. Chen, Joey. (2022, June 9). Aoqin Dragon | Newly-Discovered Chinese-linked APT Has Been Quietly Spying On Organizations For 10 Years. Retrieved July 14, 2022.
  48. Unit 42. (2022, February 25). Spear Phishing Attacks Target Organizations in Ukraine, Payloads Include the Document Stealer OutSteel and the Downloader SaintBot. Retrieved June 9, 2022.
  49. Dumont, R. (2019, March 20). Fake or Fake: Keeping up with OceanLotus decoys. Retrieved April 1, 2019.
  50. Sherstobitoff, R. (2018, March 08). Hidden Cobra Targets Turkish Financial Sector With New Bankshot Implant. Retrieved May 18, 2018.
  51. Marschalek, M.. (2014, December 16). EvilBunny: Malware Instrumented By Lua. Retrieved June 28, 2019.
  52. Ray, V. (2016, November 22). Tropic Trooper Targets Taiwanese Government and Fossil Fuel Provider With Poison Ivy. Retrieved November 9, 2018.
  53. Horejsi, J., et al. (2018, March 14). Tropic Trooper’s New Strategy. Retrieved November 9, 2018.
  54. Strategic Cyber LLC. (2020, November 5). Cobalt Strike: Advanced Threat Tactics for Penetration Testers. Retrieved April 13, 2021.
  55. Mavis, N. (2020, September 21). The Art and Science of Detecting Cobalt Strike. Retrieved April 6, 2021.
  56. Microsoft Threat Protection Intelligence Team. (2020, June 18). Inside Microsoft Threat Protection: Mapping attack chains from cloud to endpoint. Retrieved June 22, 2020.
  57. Security Response attack Investigation Team. (2019, March 27). Elfin: Relentless Espionage Group Targets Multiple Organizations in Saudi Arabia and U.S.. Retrieved April 10, 2019.
  58. Trend Micro. (2018, September 19). New Multi-Platform Xbash Packs Obfuscation, Ransomware, Coinminer, Worm and Botnet. Retrieved June 4, 2019.
  59. Xiao, C. (2018, September 17). Xbash Combines Botnet, Ransomware, Coinmining in Worm that Targets Linux and Windows. Retrieved November 14, 2018.
  60. Li, H. (2013, November 5). McAfee Labs Detects Zero-Day Exploit Targeting Microsoft Office. Retrieved June 18, 2020.
  61. Wu, W. (2014, October 14). An Analysis of Windows Zero-day Vulnerability ‘CVE-2014-4114’ aka “Sandworm”. Retrieved June 18, 2020.
  62. Ward, S.. (2014, October 14). iSIGHT discovers zero-day vulnerability CVE-2014-4114 used in Russian cyber-espionage campaign. Retrieved June 10, 2020.
  63. Gross, J. (2016, February 23). Operation Dust Storm. Retrieved December 22, 2021.
  64. Raghuprasad, C . (2022, May 11). Bitter APT adds Bangladesh to their targets. Retrieved June 1, 2022.
  65. Dela Paz, R. (2016, October 21). BITTER: a targeted attack against Pakistan. Retrieved June 1, 2022.
  66. Slowik, J. (2021, October). THE BAFFLING BERSERK BEAR: A DECADE’S ACTIVITY TARGETING CRITICAL INFRASTRUCTURE. Retrieved December 6, 2021.
  67. Accenture iDefense Unit. (2019, March 5). Mudcarp's Focus on Submarine Technologies. Retrieved August 24, 2021.
  68. CISA. (2021, July 19). (AA21-200A) Joint Cybersecurity Advisory – Tactics, Techniques, and Procedures of Indicted APT40 Actors Associated with China’s MSS Hainan State Security Department. Retrieved August 12, 2021.
  69. FireEye. (2018, March 16). Suspected Chinese Cyber Espionage Group (TEMP.Periscope) Targeting U.S. Engineering and Maritime Industries. Retrieved April 11, 2018.
  70. Axel F, Pierre T. (2017, October 16). Leviathan: Espionage actor spearphishes maritime and defense targets. Retrieved February 15, 2018.
  71. Axel F. (2017, April 27). APT Targets Financial Analysts with CVE-2017-0199. Retrieved February 15, 2018.
  72. Chen, X., Scott, M., Caselden, D.. (2014, April 26). New Zero-Day Exploit targeting Internet Explorer Versions 9 through 11 Identified in Targeted Attacks. Retrieved January 14, 2016.
  73. Eng, E., Caselden, D.. (2015, June 23). Operation Clandestine Wolf – Adobe Flash Zero-Day in APT3 Phishing Campaign. Retrieved January 14, 2016.
  74. Walter, J. (2020, August 10). Agent Tesla | Old RAT Uses New Tricks to Stay on Top. Retrieved December 11, 2020.
  75. Antiy CERT. (2020, April 20). Analysis of Ramsay components of Darkhotel's infiltration and isolation network. Retrieved March 24, 2021.
  76. Sanmillan, I.. (2020, May 13). Ramsay: A cyber‑espionage toolkit tailored for air‑gapped networks. Retrieved May 27, 2020.
  77. Wikipedia. (2018, January 11). Control-flow integrity. Retrieved March 12, 2018.
  78. Nunez, N. (2017, August 9). Moving Beyond EMET II – Windows Defender Exploit Guard. Retrieved March 12, 2018.
  79. PT ESC Threat Intelligence. (2020, June 4). COVID-19 and New Year greetings: an investigation into the tools and methods used by the Higaisa group. Retrieved March 2, 2021.
  80. Patil, S. and Williams, M.. (2019, June 5). Government Sector in Central Asia Targeted With New HAWKBALL Backdoor Delivered via Microsoft Office Vulnerabilities. Retrieved June 20, 2019.
  81. Livelli, K, et al. (2018, November 12). Operation Shaheen. Retrieved May 1, 2019.
  82. Stoner, J. (2021, January 21). Detecting Supernova Malware: SolarWinds Continued. Retrieved February 22, 2021.
  83. Carnegie Mellon University. (2020, December 26). SolarWinds Orion API authentication bypass allows remote command execution. Retrieved February 22, 2021.
  84. ClearSky. (2019, June). Iranian APT group ‘MuddyWater’ Adds Exploits to Their Arsenal. Retrieved May 14, 2020.
  85. Uptycs Threat Research Team. (2021, January 12). Confucius APT deploys Warzone RAT. Retrieved December 17, 2021.
  86. Lunghi, D and Horejsi, J. (2018, February 13). Deciphering Confucius: A Look at the Group's Cyberespionage Operations. Retrieved December 26, 2021.
  87. Meyers, A. (2018, June 15). Meet CrowdStrike’s Adversary of the Month for June: MUSTANG PANDA. Retrieved April 12, 2021.
  88. Chen, J. et al. (2019, November). Operation ENDTRADE: TICK’s Multi-Stage Backdoors for Attacking Industries and Stealing Classified Data. Retrieved June 9, 2020.
  89. DiMaggio, J. (2016, April 28). Tick cyberespionage group zeros in on Japan. Retrieved July 16, 2018.
  90. Hromcova, Z. and Cherpanov, A. (2020, June). INVISIMOLE: THE HIDDEN PART OF THE STORY. Retrieved July 16, 2020.
  91. Sancho, D., et al. (2012, May 22). IXESHE An APT Campaign. Retrieved June 7, 2019.
  92. Moran, N., Oppenheim, M., Engle, S., & Wartell, R.. (2014, September 3). Darwin’s Favorite APT Group [Blog]. Retrieved November 12, 2014.
  93. Cash, D., Grunzweig, J., Meltzer, M., Adair, S., Lancaster, T. (2021, August 17). North Korean APT InkySquid Infects Victims Using Browser Exploits. Retrieved September 30, 2021.
  94. Mercer, W., Rascagneres, P. (2018, January 16). Korea In The Crosshairs. Retrieved May 21, 2018.
  95. FireEye. (2018, February 20). APT37 (Reaper): The Overlooked North Korean Actor. Retrieved March 1, 2018.
  96. Raiu, C., and Ivanov, A. (2016, June 17). Operation Daybreak. Retrieved February 15, 2018.

Связанные риски

Ничего не найдено

Каталоги

Мы используем cookie-файлы, чтобы получить статистику, которая помогает нам улучшить сервис для вас с целью персонализации сервисов и предложений. Вы может прочитать подробнее о cookie-файлах или изменить настройки браузера. Продолжая пользоваться сайтом, вы даёте согласие на использование ваших cookie-файлов и соглашаетесь с Политикой обработки персональных данных.