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Vulnerabilities and Exploits
DNS security issue firewall vulnerability malicious packets manual intervention Palo Alto Networks PAN-OS update Vulnerabilities and Exploits

Palo Alto Networks Alerts on Exploit Causing Firewall Vulnerabilities

 

Palo Alto Networks has issued a warning about the active exploitation of the CVE-2024-3393 denial of service (DoS) vulnerability, which attackers are using to compromise firewall defenses by triggering device reboots.

Repeated exploitation of this vulnerability forces the firewall to enter maintenance mode, requiring manual intervention to restore normal functionality.

"A Denial of Service vulnerability in the DNS Security feature of Palo Alto Networks PAN-OS software allows an unauthenticated attacker to send a malicious packet through the data plane of the firewall that reboots the firewall," the advisory states. The flaw enables an unauthenticated attacker to reboot affected devices by sending specifically crafted malicious packets.

This issue impacts devices where the 'DNS Security' logging feature is enabled. The affected PAN-OS versions are listed below. According to Palo Alto Networks, customers have already reported outages caused by firewalls blocking malicious DNS packets exploited through this vulnerability. The flaw has been addressed in the following PAN-OS versions: 10.1.14-h8, 10.2.10-h12, 11.1.5, 11.2.3, and later releases. However, no patch will be released for PAN-OS 11.0 due to its end-of-life (EOL) status as of November 17.

Palo Alto Networks has also provided workarounds for customers unable to immediately apply updates:

Mitigation Steps for Unmanaged NGFWs or Those Managed by Panorama:
  • Navigate to: Objects → Security Profiles → Anti-spyware → DNS Policies → DNS Security for each Anti-spyware profile.
  • Change the Log Severity to "none" for all configured DNS Security categories.
  • Commit the changes, then revert the settings after applying the fixes.
For NGFWs Managed by Strata Cloud Manager (SCM):
  • Option 1: Disable DNS Security logging directly on each NGFW using the steps above.
  • Option 2: Open a support case to disable DNS Security logging across all NGFWs in the tenant.
For Prisma Access Managed by SCM:
  • Open a support case to disable DNS Security logging across all NGFWs in the tenant.
  • If needed, request an expedited Prisma Access tenant upgrade through the support case.
The company urges all users to apply the recommended updates or follow the workarounds to mitigate the risk of exploitation.
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Vulnerabilities and Exploits
Cyberattacks CyberCrime Cyberhackers Cybersecurity Cyberthreats Four-Fait Routers VulnCheck Vulnerabilities and Exploits

Critical Security Issue Hits Four-Faith Routers

 


According to VulnCheck, a critical vulnerability identified as CVE-2024-12856 has been discovered in Four-Faith industrial routers, specifically affecting the F3x24 and F3x36 models, as well as users’ machines. Evidence suggests active exploitation of this vulnerability in the wild, raising significant security concerns for industrial and enterprise users. The flaw resides in the router’s system time adjustment function, where a post-authentication vulnerability allows attackers to execute remote commands on compromised devices.

Technical Details of the Vulnerability

The routers, running firmware version 2.0, are susceptible to an authenticated remote command execution flaw via the HTTP endpoint apply.cgi. Attackers can manipulate the system time parameter using POST requests, enabling arbitrary command execution. Additionally, the firmware is configured with default credentials that, if left unchanged, can escalate the vulnerability to allow unauthenticated remote OS command injection.

Data provided by VulnCheck indicates that approximately 15,000 internet-facing routers may be affected by this issue. Exploitation campaigns have been observed since at least November 2024, with attackers altering system parameters remotely. The attacks appear to originate from multiple IP addresses and utilize Mirai-like payloads to compromise the devices. VulnCheck notes that some payloads share similarities with those used to exploit a prior vulnerability (CVE-2019-12168), although the underlying components differ.

Security researchers have identified attack patterns involving two primary IP addresses, including 178.215.238.91, as sources of active exploitation campaigns. User-Agent strings from these attacks match earlier campaigns documented in November 2024, with new payload variations targeting the identified flaw. While the attacks remain low-scale, they demonstrate a high level of persistence.

Censys data corroborates VulnCheck’s findings, suggesting that the vulnerability has been exploited consistently since its initial observation. Despite this, an official from Bains, speaking to The Hacker News, emphasized that the attacks are not widespread and appear to involve a small number of attackers using spamming techniques at a low frequency.

Mitigation Recommendations

As of now, there is no confirmation regarding the availability of security patches for the affected firmware. VulnCheck disclosed the vulnerability to Four-Faith on December 20, 2024, and awaits a response. In the interim, researchers strongly advise users to take the following measures to mitigate potential risks:

  • Immediately change default credentials on affected devices.
  • Restrict network exposure by placing routers behind firewalls or VPNs.
  • Monitor device activity for unusual or unauthorized behavior.
  • Implement detection rules, such as the Suricata rule provided by VulnCheck, to identify suspicious HTTP POST requests indicative of the attack.

Impact and Implications

By exploiting this vulnerability, attackers can gain full control over affected devices, including executing reverse shell commands to maintain persistent access while concealing their identities. Such control poses a severe threat to organizations reliant on Four-Faith routers for critical operations.

The absence of immediate patches has prompted security researchers to highlight the importance of adopting proactive measures. Organizations are advised to strengthen their defenses against suspicious activity while awaiting updates from Four-Faith. VulnCheck, adhering to responsible disclosure policies, has withheld additional technical details and information about patches until a response from the manufacturer is received.

This incident underscores the critical need for robust firmware security practices, including eliminating default credentials and ensuring timely patch management, to protect against emerging threats in industrial environments.

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Vulnerabilities and Exploits
Botnet Cyberattacks CyberCrime Cybersecurity CyberThreat Cyberthreats DDOS Attacks IoT Vulnerabilities and Exploits

Understanding and Preventing Botnet Attacks: A Comprehensive Guide

 


Botnet attacks exploit a command-and-control model, enabling hackers to control infected devices, often referred to as "zombie bots," remotely. The strength of such an attack depends on the number of devices compromised by the hacker’s malware, making botnets a potent tool for large-scale cyberattacks.

Any device connected to the internet is at risk of becoming part of a botnet, especially if it lacks regular antivirus updates. According to CSO Online, botnets represent one of the most significant and rapidly growing cybersecurity threats. In the first half of 2022 alone, researchers detected 67 million botnet connections originating from over 600,000 unique IP addresses.

Botnet attacks typically involve compromising everyday devices like smartphones, smart thermostats, and webcams, giving attackers access to thousands of devices without the owners' knowledge. Once compromised, these devices can be used to launch spam campaigns, steal sensitive data, or execute Distributed Denial of Service (DDoS) attacks. The infamous Mirai botnet attack in October 2016 demonstrated the devastating potential of botnets, temporarily taking down major websites such as Twitter, CNN, Reddit, and Netflix by exploiting vulnerabilities in IoT devices.

The Lifecycle of a Botnet

Botnets are created through a structured process that typically involves five key steps:

  1. Infection: Malware spreads through phishing emails, infected downloads, or exploiting software vulnerabilities.
  2. Connection: Compromised devices connect to a command-and-control (C&C) server, allowing the botmaster to issue instructions.
  3. Assignment: Bots are tasked with specific activities like sending spam or launching DDoS attacks.
  4. Execution: Bots operate collectively to maximize the impact of their tasks.
  5. Reporting: Bots send updates back to the C&C server about their activities and outcomes.

These steps allow cybercriminals to exploit botnets for coordinated and anonymous attacks, making them a significant threat to individuals and organizations alike.

Signs of a Compromised Device

Recognizing a compromised device is crucial. Look out for the following warning signs:

  • Lagging or overheating when the device is not in use.
  • Unexpected spikes in internet usage.
  • Unfamiliar or abnormal software behavior.

If you suspect an infection, run a malware scan immediately and consider resetting the device to factory settings for a fresh start.

How to Protect Against Botnet Attacks

Safeguarding against botnets doesn’t require extensive technical expertise. Here are practical measures to enhance your cybersecurity:

Secure Your Home Network

  • Set strong, unique passwords and change default router settings after installation.
  • Enable WPA3 encryption and hide your network’s SSID.

Protect IoT Devices

  • Choose products from companies that offer regular security updates.
  • Disable unnecessary features like remote access and replace default passwords.

Account Security

  • Create strong passwords using a password manager to manage credentials securely.
  • Enable multi-factor authentication (MFA) for an added layer of security.

Stay Updated

  • Keep all software and firmware updated to patch vulnerabilities.
  • Enable automatic updates whenever possible.

Be Wary of Phishing

  • Verify communications directly with the source before providing sensitive information.
  • Avoid clicking on links or downloading attachments from untrusted sources.

Use Antivirus Software

  • Install reputable antivirus programs like Norton, McAfee, or free options like Avast.

Turn Off Devices When Not in Use

  • Disconnect smart devices like TVs, printers, and home assistants to minimize risks.

Organizations can mitigate botnet risks by deploying advanced endpoint protection, strengthening corporate cybersecurity systems, and staying vigilant against evolving threats. Implementing robust security measures ensures that businesses remain resilient against increasingly sophisticated botnet-driven cyberattacks.

Botnet attacks pose a serious threat to both individual and organizational cybersecurity. By adopting proactive and practical measures, users can significantly reduce the risk of becoming victims and contribute to a safer digital environment.

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Vulnerabilities and Exploits
Business Security firewall exploits Security Patch SonicWall Vulnerabilities and Exploits

Thousands of SonicWall Devices Vulnerable to Critical Security Threats

 

Thousands of SonicWall network security devices are currently exposed to severe vulnerabilities, with over 20,000 running outdated firmware that no longer receives vendor support. This puts countless organizations at risk of unauthorized access and potential data breaches.

Key Findings of the Study

  • A Bishop Fox study identified more than 25,000 SonicWall SSLVPN devices exposed to the internet, making them easy targets for cybercriminals.
  • The research analyzed over 430,000 SonicWall devices globally and found that 39% of the exposed devices were running Series 7 firewalls, many of which lacked the latest security patches.
  • Over 20,000 devices were found to be running software versions no longer supported by SonicWall, with older Series 5 and Series 6 devices being the most at risk.

Impact of Vulnerabilities

The study highlighted that many of these devices remain susceptible to exploits, including authentication bypasses and heap overflow bugs disclosed earlier this year. Attackers could use these flaws to gain unauthorized access to networks, particularly when both SSL VPN and administration interfaces are exposed online.

Bishop Fox employed advanced fingerprinting techniques to reverse-engineer the encryption securing the SonicOSX firmware, allowing researchers to pinpoint the vulnerabilities specific to each device version.

Risks Posed by Unsupported Firmware

  • Many Series 5 devices, which are largely unsupported, continue to be exposed to the internet, leaving them highly vulnerable to attacks.
  • Series 6 devices, while better maintained, still include a significant number that have not applied the latest patches.
  • Approximately 28% of evaluated devices were found to have critical or high-severity vulnerabilities.

Recommendations for Companies

Organizations using SonicWall devices must take immediate steps to mitigate these risks:

  • Ensure all firmware is updated to the latest version to address known vulnerabilities.
  • Disable public exposure of SSL VPN and administration interfaces to reduce attack surfaces.
  • Regularly audit network security practices and implement robust patch management protocols.

The findings underscore the urgent need for companies to prioritize cybersecurity measures. Neglecting to update firmware and secure network devices can have severe consequences, leaving systems and sensitive data vulnerable to exploitation.

With threats growing increasingly sophisticated, staying proactive about network security is no longer optional—it’s essential.

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Vulnerabilities and Exploits
Cleo Server Data Leak File Transfer Tool Security Patch Vulnerabilities and Exploits

Active Exploitation of Cleo Communications' File Transfer Software Exposes Critical Vulnerabilities

 

Cleo Communications' file transfer software is under active attack, with security researchers from Huntress revealing that a recently issued patch fails to address the critical flaws being exploited. This ongoing vulnerability poses a significant threat to sectors relying on Cleo's software for logistics and supply chain operations.

The Vulnerabilities: Autorun Directory and CVE-2024-50623

Hackers are leveraging two key vulnerabilities in Cleo's software:

  • A feature that automatically executes files in the autorun directory.
  • An arbitrary file-write flaw identified as CVE-2024-50623.

On December 3, Huntress reported that Cleo's LexiCom, VLTransfer, and Harmony software solutions are affected by these issues. Despite the company issuing a patch on the same day, Huntress stated that it "does not mitigate the software flaw." This leaves users vulnerable until a new, effective patch is developed.

Cleo’s Response and Planned Mitigations

During a Zoom session with cybersecurity researchers, Cleo's team acknowledged the flaws and committed to designing a second patch. Earlier in the week, Cleo identified an unauthenticated malicious host vulnerability that could lead to remote code execution, although its CVE identifier is still pending.

In a statement, a Cleo spokesperson said the company had launched an investigation with the assistance of external cybersecurity experts. Cleo also informed customers about the issue and provided interim mitigation steps while working on a patch. The spokesperson emphasized that "the investigation is ongoing."

Recommendations for Cleo Users

Until an effective patch is released, Huntress has advised Cleo users to take immediate actions:

  • Erase items from the autorun directory to disrupt attack pathways.
  • Understand that this measure does not address the arbitrary file-write vulnerability, which remains exploitable.

Impacts on Businesses

The exploitation of Cleo's software has significant repercussions, particularly for industries dependent on large-scale logistics and supply chain operations. Researchers reported that:

  • At least 10 businesses have experienced breaches involving Cleo servers.
  • There was a "notable uptick in exploitation" on December 8 around 07:00 UTC.
  • Most incidents have targeted sectors such as consumer products, the food industry, and shipping.

A search on Shodan revealed 436 vulnerable servers, with the majority located in the United States. This underscores the scale of potential exposure and the urgent need for mitigation.

The Attack Chain: From Autorun to Persistent Access

Attackers exploit the autorun directory feature by inserting malicious files that execute automatically. These files allow them to:

  • Run PowerShell commands.
  • Establish persistent access using webshells retrieved from remote servers.

Examples of malicious autorun files include:

  • healthchecktemplate.txt
  • healthcheck.txt

Conclusion: Urgent Need for Robust Security Measures

The active exploitation of Cleo Communications' software highlights the evolving nature of cybersecurity threats and the critical importance of timely, effective patching. Businesses using Cleo's solutions must remain vigilant and implement recommended mitigations to minimize risk until a comprehensive fix is released.

This incident serves as a reminder for all organizations to prioritize cybersecurity, particularly in industries that handle sensitive data and depend on seamless file transfer operations.

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Vulnerabilities and Exploits
Cyber Bug Cyber Exploits Cyberattacks CyberCrime Cybersecurity MySQL database zero day vulnerability Vulnerabilities and Exploits

Exploit PoC Validates MiCollab Zero-Day Flaw Risks

 


A zero-day arbitrary file read vulnerability found in Mitel MiCollab has raised significant concerns about data security. Attackers can exploit this flaw and chain it with a critical bug (CVE-2024-35286) to access sensitive data stored on vulnerable instances of the platform. Mitel MiCollab is a cross-platform collaboration tool offering services such as instant messaging, SMS, voice and video calls, file sharing, and remote desktop sharing, designed to enhance workplace collaboration without verbal communication.

The Risks of Collaboration Platform Vulnerabilities

Data storage and handling of sensitive information are integral to modern organizations' operations. According to WatchTower researchers, the Mitel MiCollab platform has a zero-day vulnerability that allows attackers to perform arbitrary file reads. However, to exploit this issue, attackers require access to the server's filesystem. The vulnerability impacts a range of businesses, from large corporations to SMEs and remote or hybrid workforce setups, all relying on MiCollab for unified communication.

WatchTower reported the issue to Mitel on August 26, 2024, but after 90 days without a fix, the vulnerability remains unresolved. A report by WatchTower revealed that more than 16,000 MiCollab instances accessible via the internet are affected. Despite the lack of a CVE number assigned to the flaw, attackers can inject path traversals via the 'ReconcileWizard' servlet, exploiting the 'reportName' parameter in API requests. This facilitates unauthorized access to restricted files, posing a critical security threat.

Combining Vulnerabilities for Exploitation

The vulnerability gains heightened severity when paired with CVE-2024-35286 (CVSS score 9.8), a critical path traversal flaw that enables authentication bypass. Additionally, CVE-2024-41713, another zero-day issue identified by researchers, allows arbitrary file reading. Together, these flaws enable attackers to gain system visibility, perform malicious operations, and propagate file access across systems. Proof-of-concept (PoC) exploit code for this chain has been published by WatchTower on GitHub.

While the newer vulnerability is technically less critical than the others, it still poses a significant threat by granting unauthorized access to sensitive files. Recent incidents show that threat actors have targeted MiCollab, underlining the urgent need for mitigation measures. Organizations using MiCollab must act promptly to address this risk.

Mitigating the Threat

Until Mitel releases a patch for this zero-day flaw, organizations are advised to:

  1. Update MiCollab to the Latest Version
    Install version 9.8 service pack 2 (9.8.2.12) or later, which addresses other known vulnerabilities such as CVE-2024-41713.
  2. Restrict Server Access
    Limit access to trusted IP ranges and internal networks, and implement firewall rules to block unauthorized access.
  3. Monitor Log Files
    Check for path traversal patterns that might indicate exploitation attempts.
  4. Disable the Vulnerable Servlet
    If feasible, disable the 'ReconcileWizard' servlet to prevent exploitation of the flaw.

The Broader Impact

As security risks related to MiCollab persist, reports indicate that the collaboration platform has been targeted by a group of threat actors, allegedly linked to "Salt Typhoon," a Chinese intelligence operation. These attacks have affected US telecommunications firms, including Verizon, AT&T, and T-Mobile, exposing sensitive customer data.

Organizations must adopt robust security practices to mitigate risks while waiting for Mitel to address these vulnerabilities. Proactively safeguarding sensitive systems and implementing strict access controls are essential for minimizing exposure. By combining organizational vigilance with updated software practices, businesses can navigate these challenges and protect critical infrastructure from exploitation.

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Vulnerabilities and Exploits
Helldown Network Breach Ransomware Zyxel Vulnerabilities and Exploits

Helldown Ransomware Outfit Linkd to Zyxel's Firewall Exploits

 


Zyxel Firewalls have become a common target in recent hacks, with attackers exploiting a critical flaw to propagate the malicious Helldown ransomware. The German CERT (CERT-Bund) has published a warning alongside Zyxel, highlighting the scope of these assaults and the immediate steps that organisations must take to secure their network devices. 
 
The attacks are linked to a vulnerability in the Zyxel ZLD firmware, CVE-2024-11667, which impacts the Zyxel ATP and USG FLEX firewall series. Five German businesses are believed to have been targeted by these assaults, highlighting the growing threats of leaving such vulnerabilities unpatched. 
 
The root cause is CVE-2024-11667, a directory traversal vulnerability in the Zyxel ZLD firmware (versions 4.32 to 5.38). This vulnerability allows attackers to circumvent security protections and upload or download files using meticulously generated URLs. 
 
Cybercriminals can exploit this flaw to acquire unauthorised system access, steal credentials, and establish backdoor VPN connections, sometimes without network administrators' knowledge. The devices that are most vulnerable are those running ZLD firmware versions 4.32 to 5.38, with remote management or SSL VPN enabled. Importantly, this vulnerability does not affect devices managed by the Nebula cloud management system. 
 

Rise of Helldown Ransomware 

 
Helldown ransomware, first discovered in August 2024, has quickly grown into a serious threat that exploits CVE-2024-11667 to target susceptible Zyxel firewalls. Helldown, which evolved from the infamous LockBit ransomware builder, employs sophisticated techniques to breach networks and move laterally, often with the goal of encrypting valuable data and disrupting operations. 
 
Helldown's leak site currently lists 32 victims globally, including five organisations in Germany, according to CERT-Bund. The ransomware's ability to exploit this vulnerability is concerning because even patched systems may remain vulnerable if attackers get access using the same administrator credentials. 
 

Modus operandi 

 
The primary attack vector is the exploitation of the CVE-2024-11667 flaw to obtain initial access to the target systems. Once inside, hackers commonly employ sophisticated post-exploitation techniques, including the establishment of unauthorised user accounts like "SUPPORT87" and "SUPPOR817." 
 
These accounts are used to create persistent backdoors that permit access to the network even after the initial breach, hence facilitating lateral movement within the network. These attacks have serious consequences: companies have reported data exfiltration, critical documents being encrypted, and disruptions in operations, frequently with the intention of extorting a ransom to unlock the files. 
 
Researchers recommend that organisations that use Zyxel firewalls move swiftly to discover and resolve any threats by evaluating VPN logs, inspecting SecuReporter for suspicious behaviour, and monitoring firewall rules. The remediation process entails updating to ZLD 5.39, changing passwords, eliminating unauthorised accounts, and tightening security measures.   
 
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Zyxel firewalls
CVE-2024-42057 cybersecurity updates firmware upgrade Ransomware attack remote access security Vulnerabilities and Exploits Zyxel firewalls

Zyxel Firewalls Targeted by Ransomware Gang Exploiting Vulnerability

 

Zyxel has issued a warning about a ransomware group exploiting a recently patched command injection vulnerability, identified as CVE-2024-42057, in its firewall devices. This flaw enables attackers to gain initial access to compromised systems.

The vulnerability allows remote, unauthenticated attackers to execute operating system commands on affected devices, posing a significant security risk.

Zyxel clarified in its advisory that the exploitation is possible only if the firewall is set up with User-Based-PSK authentication and a valid user has a username exceeding 28 characters.

“A command injection vulnerability in the IPSec VPN feature of some firewall versions could allow an unauthenticated attacker to execute some OS commands on an affected device by sending a crafted username to the vulnerable device,” the advisory states. “Note that this attack could be successful only if the device was configured in User-Based-PSK authentication mode and a valid user with a long username exceeding 28 characters exists.”

The company has addressed these vulnerabilities with the release of firmware version 5.39, applicable to the ATP, USG FLEX, and USG FLEX 50(W)/USG20(W)-VPN series firewalls.

Zyxel’s EMEA team has observed active exploitation of these vulnerabilities, urging users to immediately update administrator and user account passwords as a precautionary measure.

“The Zyxel EMEA team has been tracking the recent activity of threat actors targeting Zyxel security appliances that were previously subject to vulnerabilities. Since then, admin passwords have not been changed. Users are advised to update ALL administrators and ALL User accounts for optimal protection,” the company emphasized.

Their investigation revealed that attackers leveraged previously stolen credentials, which were not updated, to create unauthorized SSL VPN tunnels using accounts like "SUPPOR87" and "VPN," altering security policies to gain access to the network.

Sekoia, a cybersecurity firm, detailed how the Helldown ransomware group has exploited Zyxel firewalls to gain entry into targeted organizations, aligning with typical ransomware strategies.

“All of this evidence strongly suggests that Zyxel firewalls have been targeted by Helldown. Details about post-compromise activities indicate that, in at least one intrusion, the attacker’s tactics align with typical ransomware methods,” Zyxel noted.

Users are strongly advised to upgrade to the latest firmware and temporarily disable remote access to potentially vulnerable firewalls to mitigate risks effectively.
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Zero-day Flaw
Chinese Hacker FortiClient Vulnerabilities and Exploits Windows VPN Zero-day Flaw

Chinese Hackers Exploit Unpatched Fortinet Zero-Day Vulnerability

 

A Chinese state-sponsored actor abused an unpatched, unreported Fortinet vulnerability, despite the fact that the flaw was reported to the security firm in July. 

Volexity, a threat intelligence vendor, published research earlier this week referencing a new zero-day flaw -- one without a current CVE designation -- that allowed a Chinese state-sponsored actor known as "BrazenBamboo" to steal credentials in instances of Fortinet's Windows VPN client, FortiClient.

Perhaps most notably, Volexity stated that it disclosed the issue to Fortinet on July 18, with the latter acknowledging the report on July 24. "At the time of writing, this issue remains unresolved, and Volexity is not aware of an assigned CVE number," Volexity researchers Callum Roxan, Charlie Gardner, and Paul Rascagneres said in the blog post. 

Volexity's report lacks a description of the flaw itself. The researchers of the study identified a "zero-day credential disclosure flaw in Fortinet's Windows VPN client that allowed credentials to be stolen from the memory of the client's process." The blog also provides YARA rules, indicators of compromise, and an in-depth look at BrazenBamboo's "Deepdata" post-exploitation tool, which was employed in threat activity targeting the vulnerability. 

Roxan, Gardner, and Rascagneres said that their investigation began with the identification of an archive file associated with BrazenBamboo, which could be linked to a known Chinese advanced persistent threat (APT) group. The researchers uncovered files in the package related to Windows malware families known as "Deepdata" and "Deeppost," as well as a Windows form of LightSpy malware.

Deepdata, according to Volexity researchers, is a modular utility for Windows that "facilitates the collection of private data from a compromised system," and requires the perpetrator to have command-line access to the target device. It features both a loader and a virtual file system. Deeppost is a post-exploitation data exfiltration program that transfers files to a remote system. The researchers discovered the Fortinet zero day after uncovering a FortiClient plugin in Deepdata. 

"DEEPDATA supports a wide range of functionality to extract data from victims' systems. The observed functionality of several plugins is commonly seen and includes items typically stolen from victim systems," researchers explained. "However, Volexity noted the FortiClient plugin was uncommon and investigated it further. Volexity found the FortiClient plugin was included through a library with the filename msenvico.dll. This plugin was found to exploit a zero-day vulnerability in the Fortinet VPN client on Windows that allows it to extract the credentials for the user from memory of the client's process.”

The researchers further stated that "the FortiClient plugin looks for the username, password, remote gateway, and port from two different JSON objects in memory." Meanwhile, LightSpy is a command-and-control spyware that has previously been linked to campaigns targeting Hong Kong citizens. The malware is generally employed in attacks on Android, iOS, and macOS devices, so it's noteworthy that Volexity received files of a Windows edition.
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Vulnerabilities and Exploits
CISA Issues CyberCrime Cybersecurity Cyberthreats Palo Alto Threats Exploitations Vulnerabilities and Exploits

CISA Issues Alert on Ongoing Exploitation of Palo Alto Networks Bugs

 


A report released by the Cybersecurity and Infrastructure Security Agency, a nonprofit organization that monitors and analyzes threats to the nation's infrastructure, found that Palo Alto Networks' firewall management software was actively exploited in the wild on Thursday. These attacks followed last week's attacks that exploited flaws in similar software. Attackers can exploit the unauthenticated command injection vulnerability (CVE-2024-9463) and the SQL injection vulnerability (CVE-2024-9465) to gain access to unpatched systems running the company's Expedition migration tool. 

This tool allows users to migrate configurations from Checkpoint, Cisco, and other supported vendors to new systems. CVE-2024-9463 is a vulnerability that allows attackers to run arbitrary commands as root on a PAN-OS firewall system, revealing usernames, cleartext passwords, device configurations, and device API keys. Secondly, a second vulnerability can be exploited to gain access to Expedition database contents (including password hashes, usernames, device configurations, and device API keys) and create or read arbitrary files on vulnerable systems by exploiting this vulnerability. 

There is important information in CVE-2024-9474 that could lend itself to a chained attack scenario, potentially resulting in a high level of security breach. It should be noted that Palo Alto Networks has publicly acknowledged the CVE, but has not yet provided detailed technical information on the vulnerability's mechanics. This leaves room for speculation regarding what is causing the vulnerability.

A spokesperson for Palo Alto Networks (PAN) confirmed patches were available to address these security vulnerabilities, and stated the company is "monitoring a limited set of exploit activities" and is working with external researchers, business partners, and customers to share information in a timely fashion. It was reported to CISA that CVE-2024-5910 had been added to the KEV catalog on Nov. 7 but the software vendor had originally disclosed the bug back in July. 

To exploit this vulnerability, there needs to be authentication within the firewall deployment and management software. Without authentication, an administrator account can be taken over by getting access to the network. There is a CVSS score of 9.3 for the vulnerability, and it is also reported to Palo Alto Networks as PAN-SA-2024-0015, as well. As a result, Palo Alto Networks has continuously monitored and worked with customers to identify and minimize the very few PAN-OS devices that have management web interfaces that are exposed to the Internet or other untrusted networks," the company stated in a separate report describing indicators of compromise for attacks that are targeting the vulnerability. 

Although the company claims these zero-days are only impacting a "very small number" of firewalls, threat monitoring platform Shadowserver reported on Friday that it monitors more than 8,700 outside management interfaces for the PAN-OS operating system. A Palo Alto Networks security advisory from early October states, "Several vulnerabilities have been identified in Palo Alto Networks Expedition that allow unauthorized access to the Expedition database and the arbitrary files on the system, as well as the ability to write arbitrary files to temporary storage locations." 

In addition, the advisory stated that the firewall, Panorama, Prisma Access, and Cloud NGFW products are not affected by these vulnerabilities. Even though the two vulnerabilities have been added to CISA's Known Exploited Vulnerabilities Catalog, a binding operational directive (BOD 22-01) has compelled federal agencies to patch Palo Alto Networks Expedition servers on their networks within three weeks, by December 5, to comply with the binding directive. 

Earlier this week, CISA issued a warning about yet another Expedition security hole that is capable of allowing threat actors to reselect and reset the credentials for application administrators. The security flaw (CVE-2024-5910) was patched in July and has been actively exploited in attacks. In a proof-of-concept exploit released by Horizon3.ai researcher Zach Hanley last month, he demonstrated that CVE-2024-5910 can be chained with an additional command injection vulnerability (CVE-2024-9464), that was patched in October, to allow an attacker to execute arbitrary commands on vulnerable Expedition servers that are exposed to the Internet. 

It has been noted that CVE-2024-9464 is linked to other Expedition security vulnerabilities that were also addressed last month. This may allow firewall admins to take over unpatched PAN-OS firewalls if they have not yet been patched. As of now, there seems to be a hotfix available for those who are concerned about being exploited, and those who are concerned should upgrade their Expedition tool to version 1.2.96, or higher. 

It has been recommended by Palo Alto Networks that, those users who are unable to install the Expedition patch immediately, should restrict access to the Expedition network to approved hosts and networks. It is crucial to note that when a vulnerability is added to KEV, not only does it introduce the possibility of an attack that exploits that vulnerability, but also that federal agencies have a deadline to either patch it or stop utilizing the flawed solution entirely. 

There is usually a deadline for that, which is 21 days from the time the bug is added to the bug-tracking system. There has recently been an addition to KEV of CVE-2024-5910, a bug that is described as being missing for crooks who have access to networks. This is Palo Alto Networks Expedition, a tool designed to simplify and automate the complexity of using Palo Alto Networks' next-generation firewalls by optimizing security policies that apply to them. In addition to making it easier for users to migrate from legacy firewall configurations to Palo Alto Networks' security platforms, users can also minimize errors and manual efforts. 

The Palo Alto Networks (PAN) management interface has recently been redesigned to provide a more secure experience for users. A report claiming an unverified remote code execution vulnerability via the PAN-OS management interface prompted the company to release an information bulletin. Those interested in knowing more about hardening network devices are urged to review PCA's recommendations for hardening network devices, and PCA's instructions for gaining access to scan results for the Organization's internet-facing management interfaces are discouraged from following them.
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Vulnerabilities and Exploits
CyberCrime Cybersecurity CyberThreat Frag Ransomware Ransomware VBR Veeam RCE Bug Vulnerabilities and Exploits

Veeam RCE Bug Now a Target for Frag Ransomware Operators

 


Recently, a critical VBR (Veeam Backup & Replication) security flaw was exploited by cyber thieves to distribute Frag ransomware along with the Akira and Fog ransomware attacks. Florian Hauser, a security researcher with Code White, has discovered that the vulnerability (tracked as CVE-2024-40711) is a result of the deserialization of untrusted data weakness that unauthenticated threat actors can abuse to gain remote code execution (RCE) on Veeam VBR servers by exploiting. 

Despite releasing a technical analysis of CVE-2024-40711 on September 9, Watchtower Labs delayed the release of a proof-of-concept exploit until September 15 to allow admins to take advantage of the security updates that Veeam released on September 4 for this vulnerability. 

According to Sophos researchers, ransomware operators are leveraging a critical vulnerability in Veeam Backup & Replication called CVE-2024-40711 to create rogue accounts and deploy malware to users in order to execute their attacks. On early September 2024, Veeam released security updates for the Service Provider Console, Veeam Backup & Replication, and Veeam One products to address several vulnerabilities that could undermine the security of their products.

The company fixed 18 issues with high or critical severity for these products. This September's security bulletin contains a critical, remote code execution (RCE) vulnerability tracked as CVE-2024-40711 that affects Veeam Backup & Replication (VBR), which has a CVSS v3.1 score of 9.8 (CVSS score of 10.4). A software product developed by the Veeam software company called Veeam Backup & Replication offers a comprehensive solution for data protection and disaster recovery. With this technology, companies are able to back up, restore, and replicate data across physical, virtual, and cloud environments at the same time. 

There is a vulnerability in the Linux kernel that allows unauthenticated remote code execution (RCE)." as stated in the advisory. The vulnerabilities were discovered by Florian Hauser, a researcher at CODE WHITE Gmbh who specializes in cybersecurity. In addition to Veeam Backup & Replication 12.1.2.172, earlier versions of version 12 are also affected by this flaw.  According to the Sophos X-Ops incident response team, the delay in releasing an exploit did not have much effect on the number of Akira and Fog ransomware attacks that were prevented. 

By exploiting the RCE vulnerability along with stolen credentials from the VPN gateway, the attackers were able to register rogue accounts on unpatched servers and exploit the RCE flaw. There was also a threat activity cluster, which was known as 'STAC 5881,' that was later found to have used exploits from CVE-2024-40711 to download Frag ransomware onto compromised networks, as a result of attacks that exploited CVE-2024-40711. 

According to Sean Gallagher, a principal threat researcher at Sophos X-Ops, the tactics associated with STAC 5881 were used again, this time, however, they led to the deployment of the previously undocumented 'Frag' ransomware which is now being referred to as Black Drop. There is a possibility that the threat actor exploited a vulnerability in the VEEAM component to gain access to the system, created a new account named 'point', and accessed the system from that account. As a result of this incident, a second account has also been created, known as 'point2'. 

Anew report by British cybersecurity company Agger Labs revealed that the Frag ransomware gang has made extensive use of Living Off The Land binaries (LOLBins), a type of software that is already installed on compromised computers and which is commonly known as Living Off The Land software (LOLBins). Defendants have a hard time detecting their activity due to the fact that this is difficult to detect. According to the Frag gang's playbook, the playbook of Akira and Fog operators is somewhat similar, as they often exploit vulnerabilities in unpatched backup and storage software and misconfigurations in the solutions that they deploy. This vulnerability has a high severity and can allow malicious actors to breach backup infrastructure if not patched. Veeam patched another high severity vulnerability in March 2023, CVE-2023-27532. There has been extensive use of this exploit in attacks linked to the financially motivated FIN7 threat group and in Cuba ransomware attacks that targeted companies and institutions critical to the American economy. 

Over 500,000 consumers worldwide rely on Veeam's products, including approximately 74% of all companies from the Global 2,000 list. Veeam reports that its products are used by over 550,000 customers worldwide. Agger Labs, a cybersecurity firm, also noted that tactics, techniques, and practices used by the threat actors behind Frag share many similarities to those used by Akira and Fog threat actors in their tactics, techniques, and practices. 

The main reason why Frag ransomware can remain stealthy is that it uses LOLBins, an approach that has been widely adopted by more traditional actors in the cybercrime sphere. The attackers can now bypass endpoint detection systems by employing familiar, legitimate software already present on most networks to conduct malicious operations. The fact that ransomware crews are adapting their approaches to ransomware shows that they are changing their approach despite not being new to the threat actor space.” 

Agger Labs notes. Despite Frag's use of LOLBins, the function has been used by ransomware strains like Akira and Fog which also use similar techniques to blend in with normal network activity and hide from detection.". As a result of using LOLBins as a means of exploitation for malicious purposes, these operators make it harder for us to detect them timely.”
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Vulnerabilities and Exploits
Critical Flaw Fortinet IT Flaw Security Patch threat report Vulnerabilities and Exploits

New Flaws in Fortinet, SonicWall, and Grafana Pose Significant Threats

 

Cyble Research and Intelligence Labs (CRIL) has discovered new IT vulnerabilities that affect Fortinet, SonicWall, Grafana Labs, and CyberPanel, among others. 

The report for the week of October 23-29 identifies seven security flaws that require immediate attention from security teams, especially given the large number of exposed devices. The most recent discoveries show that vulnerabilities in Fortinet, SonicWall, and Grafana Labs affect over 1 million web-facing assets.

Notably, two critical vulnerabilities in CyberPanel have already been exploited in huge ransomware assaults. Organisations are recommended to quickly investigate their environments for these vulnerabilities and apply the relevant fixes and mitigations. 

Cyble's researchers have detailed the following top vulnerabilities, emphasising their potential impact on IT security: 

CVE-2024-40766: SonicWall SonicOS 

CVE-2024-40766 indicates an improper access control flaw within the administrative interface of SonicWall's SonicOS, with a severity rating of 9.8. This vulnerability has piqued the interest of managed security organisations such as Arctic Wolf, who report that ransomware gangs such as Fog and Akira are exploiting it in SSL VPN setups to breach networks. 

CVE-2024-9264: Grafana labs 

The 9.4-rated vulnerability, CVE-2024-9264, affects Grafana Labs' open-source analytics and monitoring platform's SQL Expressions capability. This flaw allows for command injection and local file inclusion since user input in 'duckdb' queries is not properly sanitised. 

CVE-2024-46483: Xlight FTP server

This critical integer overflow bug impacts the Xlight FTP Server, allowing hackers to exploit packet parsing logic and cause heap overflows. With the accessibility of public Proof of Concepts (PoCs), this vulnerability could be used in a variety of attack tactics. 

Prevention tips 

  • Ensure that all software and hardware systems receive the most recent patches from official vendors. 
  • Use an organised approach to inventory management, patch assessment, testing, deployment, and verification. 
  • To reduce the attack surface, isolate key assets with firewalls, VLANs, and access controls. 
  • Establish and maintain an incident response strategy, which should be evaluated on a regular basis to respond to emerging threats. 
  • Employ complete monitoring technologies to discover and analyse suspicious actions in real time. Keep up with vendor, CERT, and other sources' alerts to promptly fix issues.
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Zero-day Flaw
Hash Password Security flaw Security Patch Vulnerabilities and Exploits Zero-day Flaw

Unofficial Patches Published for New Windows Themes Zero-Day Exploit

 

Free unofficial fixes are now available for a new zero-day flaw in Windows Themes that allows hackers to remotely harvest a target's NTLM credentials.

NTLM has been extensively exploited in NTLM relay attacks, in which threat actors force susceptible network devices to authenticate against servers under their control, and in pass-the-hash attacks, in which attackers exploit system vulnerabilities or deploy malicious software to steal NTLM hashes (hash passwords) from target systems. 

Once they acquire the hash, the attackers can impersonate the affected user, gaining access to sensitive data and expanding laterally throughout the now-compromised network. Microsoft indicated a year ago that it will drop the NTLM authentication technology in Windows 11. 

ACROS security experts uncovered the new Windows Themes zero-day (which has yet to be assigned a CVE ID) while working on a micropatch for a flaw tracked as CVE-2024-38030 that might reveal a user's credentials (reported by Akamai's Tomer Peled), which was itself a workaround for another Windows Themes spoofing vulnerability (CVE-2024-21320) fixed by Microsoft in January. 

According to Peled, "when a theme file specified a network file path for some of the theme properties (specifically BrandImage and Wallpaper), Windows would automatically send authenticated network requests to remote hosts, including user's NTLM credentials when such a theme file would be viewed in Windows Explorer.”

"This meant that merely seeing a malicious theme file listed in a folder or placed on the desktop would be enough for leaking user's credentials without any additional user action," ACROS Security CEO Mitja Kolsek stated. 

Even though Microsoft fixed CVE-2024-38030 in July, ACROS Security discovered another vulnerability that attackers may use to steal a target's NTLM credentials on all fully updated Windows versions, from Windows 7 to Windows 11 24H2. 

"So instead of just fixing CVE-2024-38030, we created a more general patch for Windows themes files that would cover all execution paths leading to Windows sending a network request to a remote host specified in a theme file upon merely viewing the file," Kolsek added. 

The firm is now offering free and unofficial security updates for this zero-day flaw via its 0patch micropatching service for all affected Windows versions until official patches from Microsoft are available, which have already been applied to all online Windows systems running the company's 0patch agent.

To install the micropatch on your Windows device, first create a 0patch account and then install the 0patch Agent. If no specific patching policy prevents it, the micropatch will be applied immediately without the need for a system restart once the agent is activated. 

However, it is crucial to remember that in this case, 0patch only delivers micropatches for Windows Workstation, as Windows Themes does not work on Windows Server until the Desktop Experience feature is deployed.
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Vulnerabilities and Exploits
Google Cloud Mandiant Investigation Patching Sensitive data Vulnerabilities and Exploits

Think You’re Safe? Cyberattackers Are Exploiting Flaws in Record Time

 


There has been unprecedented exploitation by attackers of vulnerabilities in the software, Mandiant announced. According to the newly released report of the Mandiant cybersecurity firm, after an analysis of 138 exploits published in 2023, on average, in five days an attacker already exploits a vulnerability. Because of this speed, very soon it has become paramount for organisations to make their system updates quickly. The study, published by Google Cloud bloggers, shows that this trend has greatly reduced the time taken for attackers to exploit both unknown vulnerabilities, known as zero-day, and known ones, called N-day.

Speed in the Exploitation Going Up

As indicated by Mandiant research, the time-to-exploit, which is a statistic indicating the average number of days taken by attackers to exploit a discovered vulnerability, has been reducing rapidly. During 2018, it took nearly 63 days for hackers to exploit vulnerabilities. However, in the case of 2023, hackers took merely five days for exploitation. This shows that the attackers are getting more efficient in exploiting those security vulnerabilities before the application developers could patch them satisfactorily.

Zero-Day and N-Day Vulnerabilities

The report makes a distinction between the zero-day vulnerabilities, being the undisclosed and unpatched flaws that attackers would exploit immediately, and N-day vulnerabilities, which are already known flaws that attackers aim at after patches have already been released. In the year 2023, types of vulnerabilities targeted by the attackers changed, with rates of zero-day exploitation, which rose to a ratio of 30:70 compared with N-day attacks. This trend shows that attackers now prefer zero-day exploits, which may be because they allow immediate access to systems and sensitive data before the vulnerability is known to the world.

Timing and Frequency of Exploitation

This again proves that N-day vulnerabilities are at their most vulnerable state during the first few weeks when the patch is released. Of the observed N-day vulnerabilities, 56% happened within the first month after a patch was released. Besides, 5% were attacked within just one day of the patch release while 29% attacked in the first week after release. This fast pace is something that makes the patches really important to apply to organizations as soon as possible after they are available.

Widening Scope for Attack Targets

For the past ten years, attackers have enormously widened their scope of attacks by targeting a growing list of vendors. According to the report, on this front, the count increased from 25 in the year 2018 to 56 in 2023. The widening of such a nature increases the trouble for teams, who have now encountered a significantly expanded attack surface along with the ever-increasing possibility of attacks at a number of systems and software applications.


Case Studies Exposing Different Exploits

Mandiant has published case studies on how attackers exploit vulnerabilities. For example, CVE-2023-28121 is a vulnerability in the WooCommerce Payments plugin for WordPress, which was published in March 2023. Although it had been previously secure, it became highly exploited after the technical details of how to exploit the flaw were published online. Attacks started a day after the release of a weaponized tool, peaking to 1.3 million attacks in one day. This fast growth shows how easy certain vulnerabilities can be in high demand by attackers when tools to exploit are generally available.


The case of the CVE-2023-27997 vulnerability that occurred with respect to the Secure Sockets Layer in Fortinet's FortiOS was another type that had a different timeline when it came to the attack. Even though media alert was very much all over when the vulnerability was first brought to the limelight, it took them about two or three months before executing the attack. This may probably be because of the difficulty with which the exploit needs to be carried out since there will be the use of intricate techniques to achieve it. On the other hand, the exploit for the WooCommerce plugin was quite easier where it only required the presence of an HTTP header.

Complexity of Patching Systems

While patching in due time is very essential, this is not that easy especially when updating such patches across massive systems. The CEO at Quarkslab says that Fred Raynal stated that patching two or three devices is feasible; however, patching thousands of them requires much coordination and lots of resources. Secondly, the complexity of patching in devices like a mobile phone is immense due to multiple layers which are required for updates to finally reach a user.

Some critical systems, like energy platforms or healthcare devices, have patching issues more difficult than others. System reliability and uninterrupted operation in such systems may be placed above the security updates. According to Raynal, companies in some instances even ban patching because of the risks of operational disruptions, leaving some of the devices with known vulnerabilities unpatched.

The Urgency of Timely Patching

Says Mandiant, it is such an attack timeline that organisations face the threat of attackers exploiting vulnerabilities faster than ever before. This is the report's finding while stating that it requires more than timely patching to stay ahead of attackers to secure the increasingly complex and multi-layered systems that make up more and more of the world's digital infrastructure.


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WordPress
ClearFake infostealers Plugins Vulnerabilities and Exploits WordPress

Infostealer-Injecting Plugins infect Thousands of WordPress Sites

 

Hackers are using WordPress sites to install malicious plugins that propagate malware that steals information by displaying fake updates and errors.

Infostealing malware has become a global nuisance for security defenders in recent years, as compromised credentials are used to infiltrate networks and steal data. 

Since 2023, a malicious campaign known as ClearFake has been used to display bogus web browser update banners on compromised sites that spread data-stealing malware. 

A new campaign named ClickFix was launched in 2024; it is quite similar to ClearFake, but it poses as software error warnings with fixes included. These "fixes" are actually PowerShell scripts that, when executed, will download and install malware that steals data. 

This year has seen a rise in ClickFix attacks, in which threat actors hack websites to show banners displaying fake issues for Facebook, Google Meet conferences, Google Chrome, and even captcha pages. 

Malicious WordPress plugins

Last week, GoDaddy disclosed that the ClearFake/ClickFix threat actors had infiltrated over 6,000 WordPress sites, installing malicious plugins that displayed the fake alerts associated with these operations. 

"The GoDaddy Security team is tracking a new variant of ClickFix (also known as ClearFake) fake browser update malware that is distributed via bogus WordPress plugins," notes GoDaddy security researcher Denis Sinegubko. "These seemingly legitimate plugins are designed to appear harmless to website administrators but contain embedded malicious scripts that deliver fake browser update prompts to end-users.” 

Sucuri, a website security firm, has also identified a fraudulent plugin called "Universal Popup Plugin" as part of this operation. When installed, the malicious plugin will hook into various WordPress activities, depending on the type, and inject a malicious JavaScript script into the site's HTML.

Sinegubko's analysis of web server access logs indicates that the threat actors are using stolen admin credentials to enter into the WordPress site and install the plugin in an automated manner. Threat actors log in with a single POST HTTP request rather than first accessing the site's login page. This shows that the process is automated after the credentials have been received. 

Although it's unknown how the threat actors are getting the credentials, the researcher points out that it might be through information-stealing malware, phishing, and brute force attempts in the past.
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Vulnerabilities and Exploits
Iran hackers Microsoft Server OilRig Privilege Escalation Vulnerabilities and Exploits

Iranian Attackers Exploit Windows Bug to Elevate Privileges

 

The Iranian state-sponsored hacking outfit APT34, dubbed OilRig, has recently escalated its activity by launching new campaigns against government and vital infrastructure entities in the United Arab Emirates and the Gulf area. 

OilRig employed a new backdoor to target Microsoft Exchange servers and steal passwords, as well as exploiting the Windows CVE-2024-30088 vulnerabilities to escalate their privileges on affected devices, according to Trend Micro researchers. In addition to the activity, FOX Kitten, another Iran-based APT outfit involved in ransomware attacks, and OilRig have been linked by Trend Micro. 

The attacks observed by Trend Micro start with the exploitation of an unprotected web server to upload a web shell, enabling the hackers to execute remote code and PowerShell commands. Once the web shell is activated, OilRig uses it to launch additional tools, including a component that exploits the Windows CVE-2024-30088 bug. 

CVE-2024-30088 is a high-severity privilege escalation vulnerability that Microsoft patched in June 2024, allowing attackers to elevate their privileges to the SYSTEM level and gain significant control over the compromised devices. 

Microsoft has identified a proof-of-concept exploit for CVE-2024-30088, although it hasn't yet disclosed on its security portal that the vulnerability is being actively exploited. Furthermore, CISA has not listed it as having been previously exploited in its catalogue of known exploited vulnerabilities.

Following a password change event, OilRig downloads and installs 'ngrok,' a remote monitoring and management application that enables covert communications via secure tunnels. This allows the tool to intercept plaintext credentials. 

The use of on-premise Microsoft Exchange servers by threat actors as a means of credential theft and sensitive data exfiltration through fake, difficult-to-identify email traffic is another novel strategy. 

The exfiltration is accomplished using a new backdoor known as 'StealHook,' and Trend Micro claims that government infrastructure is frequently employed as a pivot point to make the operation appear authentic. 

"The key objective of this stage is to capture the stolen passwords and transmit them to the attackers as email attachments," notes Trend Micro in the report. "Additionally, we observed that the threat actors leverage legitimate accounts with stolen passwords to route these emails through government Exchange Servers.”
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Zero Day
Amnesty International Android Google Qualcomm Vulnerabilities and Exploits Zero Day

Millions of Android Devices at Risk, New Chip Bug Exploited in Targeted Attacks

 



Overview of the Exploit

Hackers recently leveraged a serious security weakness, said to be a "zero-day," that exists within the Qualcomm chipsets used in many popular Android devices. Qualcomm confirmed that at the time they were first exploited by hackers, they were unaware of the bug, which was tracked under CVE-2024-43047. This flaw actually existed in real-world cyberattacks where it could have impacted millions of Android users globally.

Vulnerability Details

This zero-day flaw was uncovered in 64 different Qualcomm chipsets, including the highly sought-after flagship Snapdragon 8 (Gen 1), a chipset used by many Android devices from reputable brands such as Motorola, Samsung, OnePlus, Oppo, Xiaomi, and ZTE. In their advisory, Qualcomm states that attackers have been able to exploit the flaw, but the company does not elaborate on who the attackers are or what their motive might be or who they specifically targeted. In light of both Google's Threat Analysis Group (TAG) and the Amnesty International Security Lab investigating the incidents, Qualcomm believes these instances constitute "limited, targeted exploitation," rather than widespread attacks.

Response to Attack

The vulnerability was apparently noticed by the CISA US, who have listed it on their known exploited vulnerabilities list. Qualcomm has issued appreciation to Google Project Zero and Amnesty International's Security Lab for coordinated disclosure of this vulnerability. Through such coordination, Qualcomm has been able to develop its fixes starting from September 2024 that it has since issued to customers, which includes Android device manufacturers operating its own chipsets.

Patch Distribution and User Security

So far, patch development is the task of Android device manufacturers. As Qualcomm has publicly released the fix, users need to ensure that their devices are up to date with respect to security patches from their device manufacturer.

Investigation Continues

The broader investigation into the hack is still going on with Google and Amnesty International digging deeper into the details of the targeted attack. Google TAG didn't have anything further to say, but an Amnesty spokesperson confirmed that it would soon publish more research findings on this vulnerability.

The necessity for security research and collaboration from technology entities and organisations to prevent new threats from happening is highlighted in this case. Android users of devices that use Qualcomm should thus remain vigilant and roll out whichever system updates for now.


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Vulnerabilities and Exploits
AI Assistant Code OX Security Reachability analysis Vulnerabilities and Exploits

How Reachability Analysis Is Streamlining Security for Developers

 




Over the past few years, AI assistants have made coding easier for developers in that one is able to quickly develop and push code over to GitHub, among others. But with so much automation going on, the risk of coding vulnerabilities has also increased. The vast majority of those generated codes have security flaws. What has befallen the application security teams is a lot of vulnerability reports pouring in. But lately, Snyk has found that 31% of these vulnerability reports are completely false positives added to the burden of security teams.

In such cases, many teams tend to use a method called reachability analysis, which usually helps the security expert screen out noise and work only with the vulnerabilities that might be exploited during an attack-upon only accessible code during said attack. Since only 10% to 20% of the imported code is even used by any application on average, this approach cuts the number of reported vulnerabilities that developers have to fix in half. Joseph Hejderup, technical staff member at Endor Labs, demonstrated this approach during the SOSS Community Day Europe 2024 and talked about how it makes vulnerability reports more actionable.


False Positive Overload

The biggest problem of application security is false positives. The sooner security teams can ship out more code, the larger their impact will be as your security tool begins to flag issues that are not actually a risk. According to Snyk, 61% of the developers believe that the enhancement of false positives is due to automation. To the eyes of the security teams, sorting hundreds or thousands reported vulnerabilities in numerous projects becomes a daunting task.

According to Randall Degges, head of developer relations at Snyk, reachability analysis helps by narrowing down exactly which vulnerabilities are really dangerous. This calms the security teams, since they can now focus on issues being actively executed in the code. Filtering out the kind of vulnerabilities that attackers cannot reach makes companies remediate by as much as 60%. And as OX Security research put it, in some cases, teams even reduced the workload by nearly 99.5%, making improvements to the developers.


Reducing developer friction

It's not just about workload reduction, but rather reporting fewer, more accurate vulnerabilities back to developers, says Katie Teitler-Santullo, a cybersecurity strategist at OX Security. "Tools that focus on real risks over bombarding developers with false alerts improve collaboration and efficiency," she says.

The hardest part is to eliminate the noise that security tools produce, keeping the developers in the same pace with the growth of development while still having a secure solution. Focusing on reachability ensures that the reported vulnerabilities are really relevant to the code being worked on, allowing developers to tackle key issues without fear of information paralysis.


Two Approaches to Reachability Analysis

There are two primary ways of reachability analysis. The first of these is static code analysis-in the process, the code itself is analysed and a graph of function calls is constructed to determine whether vulnerable code can be executed. This method works but is not failsafe as some of the functions may only be called under specific conditions.

The second approach involves instrumenting the application to track code execution during runtime. This really gives a live snapshot of which parts are really being used, so you will be able to immediately know if the identified vulnerability is something that poses an actual threat.

While the current reachability analysis tools mainly focus on whether code is being executed, the future of this technology involves determining if vulnerable code is indeed exploitable. According to Hejderup, the next step in reaching that milestone of making security testing even more effective would be the combination of reachability with exploitability analysis.

Finally, reachability analysis offers an effective solution to the problem of vulnerability overload. This is because it allows security teams to remove extraneous reports and focus only on reachable, exploitable code. This approach reduces workloads and generates better collaboration between security teams and development teams. As companies adopt this way of doing things, the future of application security testing will be more complex, such that only the most crucial vulnerabilities are flagged and then fixed.

Reachability analysis isn't going to be a silver bullet, perhaps, but it is going to be a pretty useful tool in an era where code is being developed and deployed faster than ever-and the risks of ignorance on security have never been higher.


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