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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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token replay
Browser Security cloud apps Cyber Security identity-based attacks infostealers MFA Bypass Phishing Attacks session cookies Session Hijacking token replay

Session Hijacking Surges: Attackers Exploit MFA Gaps with Modern Tactics

 

As multi-factor authentication (MFA) becomes more common, attackers are increasingly resorting to session hijacking. Evidence from 2023 shows this trend: Microsoft detected 147,000 token replay attacks, marking a 111% increase year-over-year. Google reports that attacks on session cookies now rival traditional password-based threats.

Session hijacking has evolved from old Man-in-the-Middle (MitM) attacks, which relied on intercepting unsecured network traffic. Today, these attacks are internet-based, focusing on cloud apps and services. Modern session hijacking involves stealing session materials like cookies and tokens, enabling attackers to bypass standard security controls like VPNs, encrypted traffic, and even MFA.

The rise of identity-based attacks is a result of the growing complexity of user accounts, with each person managing multiple cloud-based services. Once attackers gain access to an active session, they can bypass MFA, leveraging the valid session tokens, which often stay active longer than expected.

Modern phishing toolkits, like AitM and BitM, make hijacking easier by allowing attackers to intercept MFA processes or trick users into controlling their browser. Infostealers, a newer tool, capture session cookies from the victim’s browser, putting multiple applications at risk, especially when EDR systems fail to detect them.

Infostealer infections are often traced back to unmanaged personal devices, which sync browser profiles with work devices, leading to the compromise of corporate credentials. EDRs aren’t always reliable in stopping these threats, and attackers can still resume stolen sessions without re-authentication, making it difficult for organizations to detect unauthorized access.

Passkeys offer some protection by preventing phishing, but infostealers bypass authentication entirely. While app-level controls exist to detect unauthorized sessions, many are inadequate. Companies are now considering browser-based solutions that monitor user agent strings for signs of session hijacking, offering a last line of defense against these sophisticated attacks.
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