Show A cybersecurity specialist is working with the IT staff to establish aneffective information security plan. Which combination of securityprinciples forms the foundation of a security plan?secrecy, identify, and nonrepudiationconfidentiality, integrity, and availabilitytechnologies, policies, and awarenessencryption, authentication, and identification 1.What are the two most effective ways to defend against malware?(Choose two.) Get answer to your question and much more 2.What is an impersonation attack that takes advantage of a trustedrelationship between two systems? Get answer to your question and much more Users report that the network access is slow. After questioning theemployees, the network administrator learned that one employeedownloaded a third-party scanning program for the printer. What type ofmalware might be introduced that causes slow performance of thenetwork? Get answer to your question and much more Which statement describes a distributed denial of service attack?”An attacker views network traffic to learn authentication credentials.An attacker builds a botnet comprised of zombies.An attacker sends an enormous quantity of data that a server cannothandle.One computer accepts data packets based on the MAC address ofanother computer. What type of attack has an organization experienced when an employeeinstalls an unauthorized device on the network to view network traffic? Get answer to your question and much more A penetration testing service hired by the company has reported that abackdoor was identified on the network. What action should theorganization take to find out if systems have been compromised? Get answer to your question and much more Upload your study docs or become a Course Hero member to access this document Upload your study docs or become a Course Hero member to access this document End of preview. Want to read all 8 pages? Upload your study docs or become a Course Hero member to access this document Denial of service attack, Spyware
An attack surface is defined as the total number of all possible entry points for unauthorized access into any system. It includes all vulnerabilities and endpoints that can be exploited to carry out a security attack. The attack surface is also the entire area of an organization or system that is susceptible to hacking. For most modern businesses, the attack surface is complex and massive. The large number of devices, web applications and network nodes create many potential cybersecurity threats. IT leaders, despite their best efforts, can only see a subset of the security risks faced by their organization. What are the different types of attack surfaces?Attack surfaces can be physical or digital:
Both physical and digital attack surfaces should be limited in size to protect surfaces from anonymous, public access. What is attack surface management?Attack surface management refers to the continuous surveillance and vigilance required to mitigate all current and future cyberthreats. It includes all risk assessments, security controls and security measures that go into mapping and protecting the attack surface, mitigating the chances of a successful attack. Attack surface management requires organizations assess their risks and put into place the security measures and controls to protect themselves as part of an overall risk mitigation strategy.Key questions answered in attack surface management include the following:
How can the attack surface be limited?Organizations can have information security experts conduct attack surface analysis and management. Some ideas for attack surface reduction include the following:
What is the difference between an attack surface and an attack vector?The term attack surface is often confused with the term attack vector, but they are not the same thing. The surface is what is being attacked; the vector is the means by which an intruder gains access. Some common attack vectors include the following:
How to manage digital attack surfacesA network attack surface is the totality of all vulnerabilities in connected hardware and software. In order to keep the network secure, network administrators must proactively seek ways to reduce the number and size of attack surfaces. There is a law of computing that states that the more code you have running on a system, the greater the chance that the system will have an exploitable security vulnerability. This means that one of the most important steps IT administrators can take to secure a system is to reduce the amount of code being executed, which helps reduce the software attack surface. One popular approach to limiting the size of attack surfaces is a strategy called microsegmentation. With microsegmentation, the data center is divided into logical units, each of which has its own unique security policies. The idea is to significantly reduce the surface available for malicious activity and restrict unwanted lateral (east-west) traffic once the perimeter has been penetrated. Policies are tied to logical segments, so any workload migration will also move the security policies. Network microsegmentation isn't new. But its adoption has been sparked by software-defined networking and software-defined data center technologies. Traditional firewalls remain in place to maintain north-south defenses, while microsegmentation significantly limits unwanted communication between east-west workloads within the enterprise. How to manage physical attack surfacesA physical attack surface includes access to all endpoint devices, including desktop systems, laptops, mobile devices, USB ports and improperly discarded hard drives. Once an attacker has accessed a computing device physically, the intruder will look for digital attack surfaces left vulnerable by poor coding, default security settings or poorly maintained software that has not been updated or patched. The physical attack surface is exploitable through inside threats, such as rogue employees, social engineering ploys and intruders posing as service workers, especially in public companies. External threats include password retrieval from carelessly discarded hardware, passwords on sticky notes and physical break-ins. Physical security has three important components: access control, surveillance and testing. Obstacles should be placed in the way of potential attackers and physical sites should be hardened against accidents, attacks or environmental disasters. Such hardening measures include fencing, locks, access control cards, biometric access control systems and fire suppression systems. Second, physical locations should be monitored using surveillance cameras and notification systems, such as intrusion detection sensors, heat sensors and smoke detectors. Third, disaster recovery policies and procedures should be tested regularly to ensure safety and to reduce the time it takes to recover from disruptive man-made or natural disasters. |