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Web browsers serve as essential tools for businesses, granting employees seamless access to websites and online content. However, their convenience comes with significant security vulnerabilities that organisations must address.

Alarmingly, studies reveal that 95% of undetectable malware infiltrates systems through web browsing activities. The financial implications of these attacks are dire; organisations face an average cost of $3.2 million due to browser-borne malware incidents.

This staggering statistic prompts a critical inquiry: how can organisations effectively protect their end-users from such threats? In this blog post, we will explore the underlying causes of browser-based attacks and highlight ten common types that pose risks to users.

Browser-based attacks arise from a complex interplay of technical flaws, insecure practices, and malicious behaviour.

Common Web Browser-Based Threats

1. Cross-Site Scripting (XSS)

Cross-site scripting, or XSS, is a security vulnerability that arises when an attacker injects harmful scripts—most commonly JavaScript—into web pages that other users subsequently access. These scripts run within the affected user’s browser environment, enabling the attacker to capture sensitive data such as cookies and session tokens, alter website content, or redirect users to harmful websites.

2. Cross-Site Request Forgery (CSRF)


CSRF attacks take advantage of the inherent trust between a web application and its authenticated users by deceiving them into performing unintended actions without their consent. This is typically achieved through crafted malicious requests that exploit social engineering tactics to manipulate victims into executing them unknowingly.

3. Phishing

Phishing attacks involve impersonating reputable organisations to deceive individuals into divulging sensitive information like usernames, passwords, or credit card numbers. Attackers often use emails, instant messaging services, or counterfeit websites for this purpose.

4. Drive-By Downloads

Drive-by download attacks take advantage of security weaknesses in a user’s web browser or its plugins to surreptitiously download and execute harmful software on the victim’s device without their knowledge or consent. This malicious code can engage in various nefarious activities, such as data theft or the installation of additional malware.

5. Man-in-the-Middle (MitM) Attacks

Man-in-the-middle attacks involve intercepting communications between a user’s web browser and an online service, enabling attackers to eavesdrop on or alter the information exchanged during this interaction. Such intrusions can result in data theft, session hijacking, or even the injection of harmful content into legitimate communications.

6. Clickjacking

Clickjacking is a deceptive technique that misleads users into clicking on elements that differ from their intended targets. Malicious actors often employ transparent layers over legitimate web content to manipulate users into engaging with concealed elements, such as buttons or hyperlinks, which execute unintended operations.

7. Browser Hijacking

Browser hijacking refers to the unauthorised takeover of a user’s web browser by malware, commonly through harmful extensions, toolbars, or plugins. Once compromised, the browser may redirect users to malicious sites, alter the homepage or search engine preferences, or inject intrusive advertisements.

8. Session Hijacking

Session hijacking entails the theft of session tokens or cookies from users in order to impersonate them and gain unauthorised access to their accounts. Attackers can intercept these tokens through various methods, such as network eavesdropping or exploiting vulnerabilities within web applications.

9. Tabnabbing

Tabnabbing is a phishing technique aimed at individuals who have multiple tabs open in their web browsers. When a user navigates away from an inactive tab and subsequently returns, the content of that tab may have been altered to display a fraudulent page that imitates a legitimate website, thereby encouraging the user to input sensitive information.

10. Formjacking

Formjacking refers to the practice of inserting malicious code into web forms on e-commerce platforms with the intent of stealing payment card information and other sensitive data provided by users. Attackers often take advantage of vulnerabilities within the website’s code to intercept and extract data entered by unsuspecting visitors.

Protecting Against Browser-Based Attacks with Client-Side Security Measures

Implementing client-side security measures is an effective strategy for safeguarding end-users regardless of their browser security habits. One highly effective approach is utilising a Content Security Policy (CSP) header. The CSP header plays a critical role in identifying and mitigating attacks by defining which sources are permitted to load resources such as scripts, stylesheets, and images on your website. By establishing trusted sources for these resources through CSP directives, you can ensure that only content from approved origins is loaded onto your site.

Maxthon

In an increasingly digital world, web browsers have become a primary avenue for accessing information and online services. However, this convenience also comes with significant risks, including malware attacks, phishing schemes, and data breaches. To address these vulnerabilities, Maxthon has implemented robust security features designed to protect users’ online experiences.

Maxthon Security actively guards against potential threats by utilising advanced algorithms that detect malicious websites before access is granted. This proactive approach helps prevent phishing attacks aimed at stealing sensitive information such as passwords and credit card details. Furthermore, the browser employs real-time monitoring to identify suspicious activities that could compromise user data.

Additionally, Maxthon incorporates HTTPS encryption as a standard feature to ensure secure connections while browsing. This safeguard enhances privacy by encrypting data transmitted between the user’s device and the websites visited. Users are also provided with customisable security settings that empower them to adjust their level of protection based on personal preferences.

By prioritising user safety through innovative technology and comprehensive security measures, Maxthon distinguishes itself as a reliable choice for those seeking a secure browsing environment.