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Social Engineering
Bots Gaming GitHub malware Redox Stealer Social Engineering

GitHub Scam: Fake Game Mods Steal User Credentials and Data


An advanced malware campaign exploiting GitHub repositories masked as game mods (and cracked software) has been found, revealing a risky blend of automated credential harvesting and social engineering tactics. 

While going through articles on social engineering, cybersecurity expert Tim found “a relatively new scam scheme” that shocked him. “People create thousands of GitHub repositories with all sorts of things - from Roblox and Fortnite mods to "cracked" FL Studio and Photoshop,” says Tim. 

About Redox stealer

Experts have found more than 1,100 dangerous repositories spreading versions of Redox stealer, a python-based malware built to extract important data, browser cookies, gaming platform credentials, and cryptocurrency wallet keys.

When we download and run this software, the data collected from our systems is sent to some Discord server, according to Tim, where “hundreds of people crawl through the data searching for crypto wallet private keys, bank accounts and social media credentials, and even Steam and Riot Games accounts.” 

Redox Stealer Details

Redox runs via a multi-stage data harvesting process that starts with system surveillance. Talking about the technical architecture of the redox stealer, cybersecurity news portal GB Hackers says, “Initial execution triggers a globalInfo() function that collects the victim’s IP address, geolocation via the geolocation-db.com API, and Windows username using os.getenv(‘USERNAME’).”

Issues with Mitigation and GitHub’s Response

Even with GitHub’s malware detection systems, repositories stay functional because:

  1. Activities look real: Accounts with star counts and realistic commit histories escape heuristic analysis. 
  2. Encrypted Payloads: RAR passwords like “cheats4u” stop static code analysis. 
  3. Slow Takedowns: Threat actors rebuild banned repositories via automated topic permutations. 

According to GB Hackers, “The researcher’s spreadsheet of confirmed malicious repos has not yet triggered bulk takedowns, highlighting gaps in proactive monitoring.” 

Conclusion

The GitHub campaign has exposed a significant rise in exploitation of open-source forums for large-scale social engineering. “It's been a long journey and it's barely over - but I think it's more than enough to summarise and discuss the problem,” says Tim. He finds it shocking how easily the information can be accessed online for free “without Tor, without invite, without anyone's approval.”

The information is cleverly disguised as something such as “telegram bot” that sends us offers (scams) or other lucrative baits. 

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tailgating
baiting Cyber Attacks Cybersecurity awareness hacking tactics phishing pretexting quid pro quo Social Engineering tailgating

Understanding Social Engineering: Methods and Tactics Used by Cybercriminals

 

Social engineering is a term often mentioned alongside phishing. While phishing typically involves digital methods like fraudulent emails or messages aimed at stealing personal data, social engineering is a broader concept. It refers to techniques used by malicious actors to manipulate individuals into revealing sensitive information or granting access that can be exploited for harmful purposes.

This manipulation can take various forms, including pretexting, baiting, tailgating, or quid pro quo. The primary goal is to persuade the target to comply with the attacker’s demands — whether it involves sharing confidential details or providing unauthorized physical access to a secured area.

  • Pretexting
Pretexting involves creating a fabricated story, or "pretext," to deceive the victim into divulging personal or organizational information, downloading malware, or transferring money. This tactic often targets emotions or trust, making it a common method for attackers.

  • Baiting
In baiting attacks, the attacker tempts the victim with enticing offers or items. These may include physical objects, such as malware-infected USB drives left in public spaces, or digital schemes, like deceptive advertisements leading to malicious websites or applications.

  • Tailgating
Known as piggybacking, tailgating is a physical breach of security where an attacker gains access to a restricted area by following an authorized individual. For instance, an attacker might persuade an employee to hold the door open or slip in unnoticed, enabling access to confidential documents or computer systems for further exploitation.

  • Quid Pro Quo
This method involves the attacker offering a seemingly valuable service in exchange for sensitive information or access. A common example is a scammer posing as IT support to resolve a technical issue, then requesting login credentials or remote access. Similarly, attackers may impersonate bank representatives, asking for account details to "verify" suspicious activity.

By understanding these techniques, individuals and organizations can better prepare to recognize and counter social engineering attempts. As cybersecurity threats evolve, awareness remains a crucial defense.
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White House
CISA Cyber Security data security Google Mandiant Mandiant Threat Intelligence ransomware attacks Social Engineering White House

Rising Ransomware Attacks Highlight Persistent Cybersecurity Challenges

 


Despite global law enforcement efforts and heightened attention from the White House, ransomware incidents continue to rise unabated, according to a new report from cybersecurity firm Mandiant. Researchers at the Google-owned company identified 50 new ransomware variants in 2023, with about a third branching off existing malware. This underscores the pervasive nature of the problem and the challenges in curbing cyber extortion. 

In 2023 alone, cybercriminals amassed over $1 billion from victim ransom payments, highlighting the lucrative nature of these attacks. The healthcare sector has been particularly hard-hit, with hospitals experiencing significant disruptions. The report noted that Ascension, one of the nation's largest healthcare systems with 140 hospitals across 19 states, was recently impacted by the Black Basta ransomware variant. The ongoing outage is raising concerns about patient safety and the potential risk to lives. Mandiant's findings align with a recent White House report on national cybersecurity, which also noted an increase in ransomware attacks. 

However, one significant issue is that reporting ransomware incidents is largely voluntary. This means assessments of ransomware prevalence often rely on data from cybersecurity companies, whose understanding is based on their customer base and the cybercriminal communities they monitor. To address this, the Cybersecurity and Infrastructure Security Agency (CISA) is finalizing a mandate requiring critical infrastructure owners and operators to report ransomware payments within 24 hours. This mandate aims to provide a more comprehensive view of ransomware activity and enhance response efforts. 

Mandiant's assessment highlights a 75% year-over-year increase in posts on data leak sites, which extortionists use to pressure companies into paying ransoms. The firm noted that 2023 saw the highest number of data-leak site posts since tracking began in 2020. Additionally, there was a 20% increase in the number of investigations led by Mandiant, indicating a significant rise in ransomware activities. The most prolific ransomware variants observed were ALPHV and LOCKBIT, each accounting for 17% of all activity. The surge in ransomware attacks in 2023 followed a slight dip in extortion activities in the previous year. Mandiant researchers suggested that the dip in 2022 might have been an anomaly caused by external factors such as the Russian invasion of Ukraine or the leaked Conti chats, which may have temporarily disrupted cybercriminal operations. 

As law enforcement agencies continue to conduct global operations against ransomware gangs, the evolving tactics and persistent nature of these cybercriminals highlight the need for continuous vigilance and enhanced cybersecurity measures. The collaboration between government agencies, cybersecurity firms, and critical infrastructure operators is crucial in building a robust defense against the relentless threat of ransomware.
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Social Engineering
CISO Cyber Security Healthcare Healthcare Industry healthcare sectors patient data protection Social Engineering

Strengthening Healthcare Cybersecurity: A Collaborative Imperative

 

In recent years, cyberattacks have surged, putting every segment of the nation's healthcare system—from hospitals and physician practices to payment processing companies and biomedical facilities—under stress. These attacks disrupt patient care and cost the industry billions. Erik Decker, Vice President and Chief Information Security Officer (CISO) at Intermountain Health, emphasized the need for an "adversarial mindset" to counter these sophisticated threats during a recent U.S. News and World Report virtual event. 

Decker, who also chairs the Joint Cybersecurity Working Group of the Healthcare Sector Coordinating Council, highlighted that cybercriminals aim to maximize profits swiftly, targeting vulnerable points within the healthcare sector. Marc Maiffret, Chief Technology Officer of BeyondTrust, explained that attackers typically infiltrate through three primary avenues: social engineering, misconfigured devices, and risky third-party connections. Social engineering often involves phishing emails or impersonation calls to service desks, where attackers request the enrollment of new devices using compromised credentials. 

Misconfigured devices exposed to the internet also provide easy entry points for attackers. The third method involves exploiting unattended remote access systems. Once inside, cybercriminals often target active directory and administrator workstations to gain critical credentials. To bolster defenses, Decker highlighted that the Department of Health and Human Services offers resources and voluntary cybersecurity performance goals developed with the HSCC’s Joint Cybersecurity Working Group. 

Zeynalov described Cleveland Clinic's approach of understanding the business thoroughly and aligning cybersecurity measures with healthcare needs. His team visited various locations to map the patient journey from admission to discharge, ensuring that protections are seamless and do not hinder patient care. Incident response planning is crucial. Maiffret advised against overly imaginative scenarios, favoring practical preparedness. Decker recommended establishing clear command structures and regularly simulating attack responses to build effective "muscle memory." “Your event that happens will never happen according to the way you planned it. 

For smaller, financially constrained hospitals, Zeynalov advocated for shared defense strategies. The Biden Administration’s 2025 fiscal year budget proposal allocates $1.3 billion through HHS to support cybersecurity adoption in under-resourced hospitals, reminiscent of the electronic medical records stimulus from the American Recovery and Reinvestment Act. 

Ultimately, the panelists emphasized a collaborative defense approach to withstand sophisticated cyber threats. By pooling resources and strategies, the healthcare sector can enhance its resilience against the ever-evolving landscape of cybercrime. This shared defense strategy is crucial, as Decker concluded, “We cannot do this stuff individually, trying to stop the types of organizations that are coming after us.” By uniting efforts, the healthcare industry can better protect itself and ensure the safety and trust of its patients.
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Social Engineering
APT42 Backdoor Google malware Social Engineering

Backdoor Malware: Iranian Hackers Disguised as Journalists

Backdoor Malware: Iranian Hackers Disguised as Journalists

Crafting convincing personas

APT42, an Iranian state-backed threat actor, uses social engineering attacks, including posing as journalists, to access corporate networks and cloud environments in Western and Middle Eastern targets.

Mandiant initially discovered APT42 in September 2022, reporting that the threat actors had been active since 2015, carrying out at least 30 activities across 14 countries.

The espionage squad, suspected to be linked to Iran's Islamic Revolutionary Guard Corps Intelligence Organization (IRGC-IO), has been seen targeting non-governmental groups, media outlets, educational institutions, activists, and legal services.

According to Google threat analysts who have been monitoring APT42's operations, the hackers employ infected emails to infect their targets with two custom backdoors, "Nicecurl" and "Tamecat," which allow for command execution and data exfiltration.

A closer look at APT42’s social engineering tactics

APT42 assaults use social engineering and spear-phishing to infect targets' devices with tailored backdoors, allowing threat actors to obtain initial access to the organization's networks.

The attack begins with emails from online personas posing as journalists, NGO representatives, or event organizers, sent from domains that "typosquat" (have identical URLs) with actual organizations.

APT42 impersonates media organizations such as the Washington Post, The Economist, The Jerusalem Post (IL), Khaleej Times (UAE), and Azadliq (Azerbaijan), with Mandiant claiming that the attacks frequently employ typo-squatted names such as "washinqtonpost[.]press".

Luring victims with tempting bait

After exchanging enough information to establish confidence with the victim, the attackers transmit a link to a document connected to a conference or a news item, depending on the lure theme.

APT42 assaults use social engineering and spear-phishing to infect targets' devices with tailored backdoors, allowing threat actors to obtain initial access to the organization's networks.

The attack begins with emails from online personas posing as journalists, NGO representatives, or event organizers, sent from domains that "typosquat" (have identical URLs) with actual organizations.

The imitation game

APT42 impersonates media organizations such as the Washington Post, The Economist, The Jerusalem Post (IL), Khaleej Times (UAE), and Azadliq (Azerbaijan), with Mandiant claiming that the attacks frequently employ typo-squatted names such as "washinqtonpost[.]press".

After exchanging enough information to establish confidence with the victim, the attackers transmit a link to a document connected to a conference or a news item, depending on the lure theme.

Nicecurl, Tamecat: Custom backdoor

APT42 employs two proprietary backdoors, Nicecurl and Tamecat, each designed for a specific function during cyberespionage activities.

Nicecurl is a VBScript-based backdoor that can run commands, download and execute other payloads, and extract data from the compromised host.

Tamecat is a more advanced PowerShell backdoor that can run arbitrary PS code or C# scripts, providing APT42 with significant operational flexibility for data theft and substantial system modification.

Tamecat, unlike Nicecurl, obfuscates its C2 connection with base64, allows for dynamic configuration updates, and examines the infected environment before execution to avoid detection by AV products and other active security mechanisms.

Exfiltration via Legitimate Channels

Both backdoors are sent by phishing emails containing malicious documents, which frequently require macro rights to run. However, if APT42 has established trust with the victim, this requirement becomes less of an impediment because the victim is more inclined to actively disable security features.

Volexity studied similar, if not identical, malware in February, linking the attacks to Iranian threat actors.

The full list of Indicators of Compromise (IoCs) for the recent APT42 campaign, as well as YARA rules for detecting the NICECURL and TAMECAT malware, are available at the end of Google's report.

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Social Engineering
Job Offer malware python Remote Access Trojan Social Engineering

North Korean Scammers Lure Developers with Fake Job Offers




A new cyber scam, dubbed "Dev Popper," is preying on software developers through fake job interviews. This elaborate ruse, masquerading as genuine employment opportunities, aims to infiltrate the victim's computer with a harmful Python backdoor, posing serious cyber threats.


How The Scam Operates?

In the multi-stage infection process employed by the "Dev Popper" cyber scam, the attackers orchestrate a sophisticated chain of events to deceive their targets gradually. It commences with the perpetrators posing as prospective employers, initiating contact with unsuspecting developers under the guise of offering job positions. As the sham interview progresses, candidates are coerced into executing seemingly innocuous tasks, such as downloading and executing code from a GitHub repository, all purportedly part of the standard coding assessment. However, unbeknownst to the victim, the innocuous-seeming code harbours hidden threats. These tasks, disguised as routine coding tests, are actually devised to exploit the developer's trust and gain unauthorised access to their system.


The Complex Attack Chain

Once the developer executes the provided code, a concealed JavaScript file springs into action. This file, leveraging commands, fetches another file from an external server. Within this file is a malicious Python script, ingeniously disguised as a legitimate component of the interview process. Once activated, the Python script surreptitiously collects vital system information and relays it back to the attackers. This multi-faceted approach, blending social engineering with technical deception, underscores the sophistication and danger posed by modern cyber threats.


Capabilities of the Python Backdoor

The Python backdoor, functioning as a Remote Access Trojan (RAT), boasts an array of intrusive capabilities. These include establishing persistent connections for continuous control, stealing files, executing commands remotely, and even secretly monitoring user activity by logging keystrokes and clipboard data.


The Rising Threat 

While the orchestrators behind "Dev Popper" remain elusive, the proliferation of fake job offers as a means for malware distribution is a growing concern. Exploiting the developer's reliance on job applications, this deceitful tactic once again forces us to realise the need for heightened vigilance among unsuspecting individuals.


How To Protect Yourself?

To mitigate the risk of falling victim to such cyber threats, it is imperative for developers and individuals to exercise caution and maintain awareness. When encountering job offers or unfamiliar requests for software-related tasks, verifying the legitimacy of the source and adopting a sceptical stance are crucial measures. 


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Social Engineering
AI Cyber Attacks Hackers Intelligence Social Engineering

Where Hackers Find Your Weak Spots: A Closer Look


Social engineering is one of the most common attack vectors used by cyber criminals to enter companies. These manipulative attacks often occur in four stages: 

  1. Info stealing from targets
  2. Building relationships with target and earning trust
  3. Exploitation: Convincing the target to take an action
  4. Execution: Collected info is used to launch attack 

Five Intelligence Sources

So, how do attackers collect information about their targets? Cybercriminals can employ five types of intelligence to obtain and analyze information about their targets. They are:

1. OSINT (open-source intelligence)

OSINT is a hacking technique used to gather and evaluate publicly available information about organizations and their employees. 

OSINT technologies can help threat actors learn about their target's IT and security infrastructure, exploitable assets including open ports and email addresses, IP addresses, vulnerabilities in websites, servers, and IoT (Internet of Things) devices, leaked or stolen passwords, and more. Attackers use this information to conduct social engineering assaults.

2. Social media intelligence (SOCMINT)

Although SOCMINT is a subset of OSINT, it is worth mentioning. Most people freely provide personal and professional information about themselves on major social networking sites, including their headshot, interests and hobbies, family, friends, and connections, where they live and work, current job positions, and a variety of other characteristics. 

Attackers can use SOCINT software like Social Analyzer, Whatsmyname, and NameCheckup.com to filter social media activity and information about individuals to create tailored social engineering frauds. 

3. ADINT (Advertising Intelligence)

Assume you download a free chess app for your phone. A tiny section of the app displays location-based adverts from sponsors and event organizers, informing users about local players, events, and chess meetups. 

When this ad is displayed, the app sends certain information about the user to the advertising exchange service, such as IP addresses, the operating system in use (iOS or Android), the name of the mobile phone carrier, the user's screen resolution, GPS coordinates, etc. 

Ad exchanges typically keep and process this information to serve appropriate adverts depending on user interests, behavior, and geography. Ad exchanges also sell this vital information. 

4. DARKINT (Dark Web Intelligence)

The Dark Web is a billion-dollar illegal marketplace that trades corporate espionage services, DIY ransomware kits, drugs and weapons, human trafficking, and so on. The Dark Web sells billions of stolen records, including personally identifiable information, healthcare records, financial and transaction data, corporate data, and compromised credentials. 

Threat actors can buy off-the-shelf data and use it for social engineering campaigns. They can even hire professionals to socially engineer people on their behalf or identify hidden vulnerabilities in target businesses. In addition, there are hidden internet forums and instant messaging services (such as Telegram) where people can learn more about possible targets. 

5. AI-INT (artificial intelligence)

In addition to the five basic disciplines, some analysts refer to AI as the sixth intelligence discipline. With recent breakthroughs in generative AI technologies, such as Google Gemini and ChatGPT, it's easy to envisage fraudsters using AI tools to collect, ingest, process, and filter information about their targets. 

Threat researchers have already reported the appearance of dangerous AI-based tools on Dark Web forums such as FraudGPT and WormGPT. Such technologies can greatly reduce social engineers' research time while also providing actionable information to help them carry out social engineering projects. 

What Can Businesses Do to Prevent Social Engineering Attacks?

All social engineering assaults are rooted in information and its negligent treatment. Businesses and employees who can limit their information exposure will significantly lessen their vulnerability to social engineering attacks. Here's how.

Monthly training: Use phishing simulators and classroom training to teach employees not to disclose sensitive or personal information about themselves, their families, coworkers, or the organization.

Draft AI-use policies: Make it plain to employees what constitutes acceptable and unacceptable online activity. For example, it is unacceptable to prompt ChatGPT with a line of code or private data, as well as to respond to strange or questionable queries without sufficient verification.

Utilize the same tools that hackers use: Use the same intelligence sources mentioned above to proactively determine how much information about your firm, its people, and its infrastructure is available online. Create a continuous procedure to decrease this exposure.

Good cybersecurity hygiene begins with addressing the fundamental issues. Social engineering and poor decision-making are to blame for 80% to 90% of all cyberattacks. Organizations must prioritize two objectives: limiting information exposure and managing human behavior through training exercises and education. Organizations can dramatically lower their threat exposure and its possible downstream impact by focusing on these two areas.

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Technology
AI Cybersecurity Data Breaches Deepfake Technology Digital Security Frank Abagnale online accounts passkey authentication Phishing Scams Social Engineering Technology

Expert Urges iPhone and Android Users to Brace for 'AI Tsunami' Threat to Bank Accounts

 

In an interview with Techopedia, Frank Abagnale, a renowned figure in the field of security, provided invaluable advice for individuals navigating the complexities of cybersecurity in today's digital landscape. Abagnale, whose life inspired the Steven Spielberg film "Catch Me If You Can," emphasized the escalating threat posed by cybercrime, projected to reach a staggering $10.5 trillion by 2025, according to Cybersecurity Ventures.

Addressing the perpetual intersection of technology and crime, Abagnale remarked, "Technology breeds crime. It always has and always will." He highlighted the impending challenges brought forth by artificial intelligence (AI), particularly its potential to fuel a surge in various forms of cybercrimes and scams. Abagnale cautioned against the rising threat of deepfake technology, which enables the fabrication of convincing multimedia content, complicating efforts to discern authenticity online.

Deepfakes, generated by AI algorithms, can produce deceptive images, videos, and audio mimicking real individuals, often exploited by cybercriminals to orchestrate elaborate scams and extortion schemes. Abagnale stressed the indispensability of education in combating social engineering tactics, emphasizing the importance of empowering individuals to recognize and thwart manipulative schemes.

One prevalent form of cybercrime discussed was phishing, a deceitful practice wherein attackers manipulate individuals into divulging sensitive information, such as banking details or passwords. Phishing attempts typically manifest through unsolicited emails or text messages, characterized by suspicious links, urgent appeals, and grammatical errors.

To fortify defenses against social engineering and hacking attempts, Abagnale endorsed the adoption of passkey technology, heralding it as a pivotal advancement poised to supplant conventional username-password authentication methods. Passkeys, embedded digital credentials associated with user accounts and applications, streamline authentication processes, mitigating vulnerabilities associated with passwords.

Abagnale underscored the ubiquity of passkey technology across various devices, envisioning its eventual displacement of traditional login mechanisms. This transition, he asserted, is long overdue and represents a crucial stride towards enhancing digital security.

Additionally, Techopedia shared practical recommendations for safeguarding online accounts, advocating for regular review and pruning of unused or obsolete accounts. They also recommended utilizing tools like "Have I Been Pwned" to assess potential data breaches and adopting a cautious approach towards hyperlinks, assuming every link to be potentially malicious until verified.

Moreover, users are advised to exercise vigilance in verifying the authenticity of sender identities and message content before responding or taking any action, mitigating the risk of falling victim to cyber threats.
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