A restaurant WiFi filtering service can help to keep customers safe when they use the Internet by blocking access to websites known to contain malware. A restaurant WiFi filtering service will also ensure that patrons can only view website content that is suitable for families.
WiFi networks are often abused and used by some individuals to view pornography or other material that has no place in a restaurant. If one diner chooses to view such material on a personal device while in a restaurant, other diners may catch glimpses of the screen – That hardly makes for a pleasant dining experience.
However, there is another important reason why a restaurant WiFi filtering service should be used. Diners can be protected from a range of web-borne threats while using free wi-Fi networks, but also the computer systems of the restaurant.
Each year, many restaurants discover that their computers and networks have been infected with malware. Malware infections are often random; however, restaurants are now being targeted by cybercriminals. If a hacker can gain access to a restaurant’s computer network and succeeds in loading malware onto its POS system, every customer who pays for a meal with their debit or credit card could have their credentials sent to the hacker.
Restaurants, especially restaurant chains, are targeted for this very reason. One infected POS system will give a cybercriminal a steady source of credit card numbers. Each year, there are many examples of restaurants that have been attacked in this manner. One of the latest restaurant chains to be attacked was Popeye’s Louisiana Kitchen – A multinational chain of fried chicken and fast food restaurants.
Popeyes recently discovered a cyberattack that resulted in malware being installed on its systems. The attack started on or around May 5, 2016 and continued undiscovered until August 18, 2016. During that time, certain customers who paid for their meals on their credit and debit cards had their card numbers stolen by the malware and passed on to the attackers.
Popeyes only discovered the cyberattack when it received notification from its credit card processor of suspicious activity on customers’ accounts. CCC Restaurant Enterprises, which operates Popeyes, retained a forensic expert to analyze its systems for signs of its systems having been compromised. That analysis revealed a malware infection. The information stealing malware was passing credentials to the attacker and those details were being used to defraud customers. Ten restaurants in the chain were known to have been affected. Those restaurants were located in Georgia, North Carolina, and Texas. The malware infection has now been removed and customers are no longer at risk, although the cyberattack undoubtedly caused reputation damage for the chain.
Malware can be installed via a number of different vectors. Vulnerabilities can be exploited in servers and software. It is therefore essential to ensure that all software is patched and kept up to date. Attacks can occur via email, with malicious links and attachments sent to employees. A spam filter can block those emails and prevent infection. Attacks can also take place over the Internet. The number of malicious websites now produced every day has reached record levels and the threat level is critical.
A restaurant WiFi filtering service will not protect against every possible type of attack but it does offer excellent protection against web-borne threats. A web filtering service can also prevent users from visiting malicious links sent in spam and phishing emails, blocking users’ attempts to click the links. A restaurant WiFi filtering service will also ensure family-friendly Internet access is provided to customers. Something that is increasingly important for parents when choosing a restaurant.
To find out more about how a restaurant WiFi filtering service can be implemented, the wide range of benefits that such a service offers, and for details of how you can trial the WebTitan restaurant WiFI filtering service for 30 days without charge, contact the TitanHQ team today.