The North Korean government-backed hackers were able to gain a major victory when Microsoft left a zero-day vulnerability unpatched for six months after learning it was actively exploited for six months. As a result of this, attackers were able to take advantage of existing vulnerabilities, thereby gaining access to sensitive information. Although Microsoft has since patched this vulnerability, the damage had already been done. 

Researchers from the Czech cybersecurity firm Avast discovered a zero-day vulnerability in AppLocker earlier this month, and Microsoft patched the flaw at the beginning of this month. AppLocker is a service that allows administrators to control which applications are allowed to run on their systems. 

APT38, the Lazarus group, is a state-run hacking team operated by the North Korean government. It's tasked with cyberespionage, sabotage, and sometimes even cybercrime to raise money for the regime. Although Lazarus has operated for many years, some researchers believe it is essentially a group of subgroups operating their campaigns and developing specific types of malware for specific targets that they use to accomplish their objectives. 

In addition to Lazarus's toolset tools, FudModule has been analyzed by other cybersecurity firms in the past in 2022 and is not new to Lazarus. Essentially, it is an in-user data-only rootkit that is active within the user space, utilizing kernel read/write privileges through the drivers to alter Windows security mechanisms and hinder the detection of other malicious components by security products. 

In August 2023, the security company Avast developed a proof-of-concept exploit for this vulnerability after observing the Lazarus attack and sending it to Microsoft. The vulnerability has been tracked as CVE-2024-21338 and was identified in the Lazarus attack last year. In an updated version of its FudModule rootkit, which ESET first documented in late 2022, Lazarus exploited CVE-2024-21338 to create a read/write kernel primitive, which Avast reports. 

As part of the rootkit, previously, BYOVD attacks were performed using a Dell driver. Avast reported that threat actors had previously established the administrative-to-kernel primitive through BYOVD (Bring Your Own Vulnerable Driver) techniques, which are noisy. However, there seems to be no doubt that this new zero-day exploit has made it easier for kernel-level read/write primitives to be established. 

The issue was discovered in further detail due to a thin line in Microsoft Windows Security that has been left for a very long time, which was the cause of this issue. Since "administrator-to-kernel vulnerabilities are not a security boundary", Microsoft still retains the right to patch them. Furthermore, it is also important to remember that threat actors with administrative privileges have access to the Windows kernel. 

Since this is an open space that attackers can play around with, they take advantage of any vulnerabilities they find to gain access to the kernel.  The threat actors will gain kernel-level access to the OS once they have managed to disrupt the software, conceal infection indicators, and disable kernel-mode telemetry, among other malicious activities once they have gained kernel-level access to the OS. 

In an announcement made by Avast, a cybersecurity vendor that discovered an admin-to-kernel exploit for the bug, the company noted that by weaponizing the kernel flaw, the Lazarus Group could manipulate kernel objects directly in an updated version of their data-only rootkit FudModule by performing direct kernel object manipulation.." 

A rootkit named FudModule has been detected by ESET and AhnLab since October 2022 as capable of disabling the monitoring of all security solutions on infected hosts. As a result of the Bring Your Own Vulnerable Driver (BYOVD) attack, in which an attacker implants a driver with known or unknown flaws to escalate privileges, the security solution is unable to monitor the network. 

There is something important about the latest attack because it goes "beyond BYOVD by exploiting a zero-day vulnerability in a driver that is already installed on the target machine, which is known to be a zero-day vulnerability." It is an appid.sys driver, which plays a crucial role in the functioning of an application control feature in Windows called AppLocker. 

In a study published earlier this week, researchers discovered that Lazarus was spreading malicious open-source software packages to a repository where Python software is hosted, aimed directly at software developers. The researchers report that the malicious packages have been downloaded hundreds of times, according to their findings. 

The South Korean judicial system was also targeted by Lazarus as part of his endeavours. There was a large hack at the Supreme Court of South Korea last year, which was allegedly carried out by the criminal Lazarus group of hackers. Police confiscated servers from the court in February. It is still being investigated whether or not the servers are compromised. 

North Korean hackers, including Lazarus, are said to have hacked more crypto platforms for the first time last year, according to a report by crypto analytics firm Chainalysis. The number of stolen assets reached $1 billion, more than any other year.