3 Essential Tips for Building the Perfect Open-Concept Office,

Key Features to Look for in a Secure Web Gateway Solution

Key Features to Look for in a Secure Web Gateway Solution

A secure web gateway (SWG) acts as a security checkpoint for all inline internet traffic, standing between users and the threats that try to enter or steal data. An ideal SWG solution combines URL filtering, malware and threat detection and prevention, application control for popular cloud-based apps, ShadowIT, and data loss prevention.

Authentication

What is a secure web gateway? A secure web gateway solution provides additional security for your organization’s network. It integrates with your existing endpoint and network security systems to extend your company’s security posture. For example, some gateways offer data loss prevention (DLP). This feature is similar to content filtering but works in reverse: it detects when confidential information leaves the organization’s network and redacts it to prevent breaches. DLP is a critical component of an SWG because it can protect sensitive information from being downloaded to personal devices and shared with outside parties.

Additionally, some gateways have SSL/TLS decryption capabilities. This feature allows SWGs to analyze SSL-encrypted traffic and inspect incoming and outgoing data. This enables SWGs to prioritize alerts, ensuring that incidents that impact productivity or cause a potential threat are handled promptly and thoroughly. This also makes it easier for enterprises to manage and monitor SWG security operations. This is especially important since many of today’s workforces are remote and utilize unsecured endpoints on untrusted public networks to access corporate applications.

Encryption

With more organizations embracing remote work and cloud-based applications, their systems are at risk for malware attacks from outside the office. A SWG monitors web traffic 24/7 and prevents cyberattacks by inspecting all incoming and outgoing network data. Most web traffic today is encrypted with HTTPS, so if attackers can sniff the data or use packet sniffing, they will only see a string of undecipherable scrambled characters. SWGs use a unique process called SSL/TLS decryption to scan the encrypted data for malicious code, which is then blocked if found. Some SWG solutions also provide application-level controls to prevent the use of specific software programs. This enables IT administrators to create granular policies based on users, groups, or machines to identify and control the usage of various apps and widgets. It also helps prevent the spread of viruses, worms, and other malicious programs. This feature is often a must-have for organizations to secure their data and protect their users.

Access Control

As organizations move to a flexible working environment, employees must work from anywhere, on any device. This flexibility opens up new attack vectors undermining an organization’s security posture. Legacy secure web gateway solutions can only keep pace with these changing threats if they require more time-consuming upgrades. These updates can be costly and difficult to manage, leading short-staffed IT teams to postpone or skip them. This leaves the door open for attackers to exploit vulnerabilities and exploit employee negligence that leads to data loss and breaches. Next-generation SWG solutions take a holistic approach to security and can mitigate these evolving threats. They integrate with other security solutions in the ecosystem and extend them across organizational environments. SWGs inspect inline traffic, preventing malware from entering the network or accessing sensitive information. They also enable organizations to categorize data and enforce policies for compliance with regulations. Prioritization is another feature that helps organizations to ensure that business-critical applications receive the highest priority.

Policy Enforcement

More than just a filter, an SWG solution constantly monitors web-based activity to understand better threats that other security solutions may not have seen. This helps organizations gain greater visibility into how attackers might target them and improve their overall security posture. To determine policy disposition, SWGs inspect and categorize web traffic based on various attributes, including URL categories. This granularity provides better compliance enforcement to ensure compliance with regulations. A modern SWG solution offers advanced features like content inspection and sandboxing to provide superior threat detection. This includes decrypting encrypted traffic, enabling a deeper look into the contents of web uploads, and blocking unauthorized data exfiltration. It also integrates with security monitoring systems to notify administrators of any problems before an attack occurs. This reduces admin overhead and makes the solution easier to manage for enterprise-wide implementation. This is essential since more employees often work remotely on their devices and connect through untrusted public networks.

Monitoring

With employees working from remote locations and using cloud apps to collaborate, a secure gateway is critical for keeping cyber threats out of the company network. SWGs monitor incoming and outgoing data from all devices to ensure compliance with the policies set by the administrator. Incoming web traffic is scanned for malicious code and URLs, and outgoing data is inspected to ensure sensitive information does not leave the network. This can include credit card numbers, patient medical records, intellectual property, and more. The gateway can also use sandboxing to identify and prevent malware by executing potentially dangerous code in a controlled environment, away from the system. Often, this is the only way to determine if a piece of code is malicious and can be stopped in its tracks. SWGs can also decrypt SSL/TLS session data and inspect it for potential malware or a breach of privacy. They can then log the results for administrators to review. These logs can help to track and alert if a violation has occurred so that steps can be taken to correct the issue.

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How to Access Banned Websites on University WiFi,

How to Access Banned Websites on University WiFi

How to Access Banned Websites on University WiFi

If you’ve ever tried to access a banned website on your university’s Wi-Fi, you know the frustration that comes with it. Universities often block access to popular sites like Netflix, YouTube, and Facebook, which can make it difficult to stay connected when you’re away from home. But there are ways around these restrictions. With a little creativity and perseverance, you can still access the websites you want while using your university’s Wi-Fi. Here’s how.

Install A VPN 

This should always come to your mind first when doing something like this. Tons of students are looking for a guide to accessing torrent sites on university WiFi and find that installing a reliable and secure VPN is the way to do it. It is super simple and easy, plus you’ll be able to protect your data from being spied on by anyone. The right VPN is the key to unlocking all those websites and online services you’re missing out on at university. For example, installing a VPN will allow you to access streaming sites like Netflix, which may be blocked by your university’s Wi-Fi. This is done by switching your IP address and routing your traffic through a VPN server in another location.

Use A Proxy Server

The purpose of a proxy server is to act as an intermediary between your computer and the internet. It masks your IP address so that websites you visit cannot see it, making it a good option for accessing blocked websites over university Wi-Fi. Using one is relatively straightforward. Once you have set up the software on your computer or mobile device, you just enter the URL of a website you want to visit. The proxy server will then connect to that site on your behalf, forwarding the web page to you. 

Switch Between HTTP And HTTPS

This small activity is helpful because it may be a way for you to access banned websites on university Wi-Fi. It involves switching between the HTTP and HTTPS protocols, which are two ways of sending information over the internet. HTTP stands for Hypertext Transfer Protocol, and it is used for transferring data from one source to another. Data sent through it can easily be intercepted and read by third parties. HTTPS stands for Hypertext Transfer Protocol Secure, and it adds an extra layer of encryption to the data that is sent over the internet. This makes it difficult for anyone who is not intended to receive the data (like a school’s Wi-Fi administrator) to access or intercept it. 

Connect To A Tor Network 

Tor networks (also known as The Onion Router) allow you to access websites that are otherwise restricted. The way they work is by connecting to a series of computers, randomly connecting you to different IP addresses each time. This makes it difficult for anyone tracking your activity online to trace back and find out who is actually accessing the website. For example, connecting to a Tor network may allow you access to websites that are normally blocked on university campuses. It is important to note, however, that these networks are not 100% secure and can be vulnerable to attacks from third parties. You should always be diligent when connecting to a Tor network and make sure to follow recommended security protocols. 

Utilize Google Cache 

Another great way to access blocked websites on university Wi-Fi is by utilizing Google Cache. It stores a copy of webpages found through its search engine, allowing you to access them even if the original website has been blocked or removed from the internet. Simply search for the website in Google and look for the ‘Cached’ link under the page title. This will open up a version of the website as it appeared when Google last indexed it. Bear in mind that this version may not be completely up to date, but should still provide you with access to the content you need. 

Use A URL Shortener

This process involves using a service that converts a long URL into a shorter one using special characters. This can be done with any number of popular websites, like Bitly or TinyURL. Once you have created the shortened link, all you need to do is paste it into your browser and connect to the university’s Wi-Fi. The university network will read the URL as something that has been approved, even though it is actually providing an access point to a banned website. For example, if you wanted to access a website that was banned by your school, using a URL shortener could help you do it. All you would need to do is find the original URL, copy it, and paste it into a website like Bitly or TinyURL. 

Universities often have a blacklist of websites you simply cannot use on their networks, but there are ways around it. One of the best methods is switching your IP address whether it’s through a VPN or a proxy server. You could also try switching between an HTTP and HTTPS or connect to a tor network. Others tend to utilize Google Cache or use a URL shortener. Whichever method you pick, make sure to learn about them and do it right!

Check Next >https://www.neoadviser.com/how-to-keep-your-online-security-strong/