What is the status of OS Identification?
A.
It is only enabled to identify “Cisco IOS” OS using statically mapped OS fingerprinting
B.
OS mapping information will not be used for Risk Rating calculations.
C.
It is configured to enable OS mapping and ARR only for the 10.0.0.0/24 network.
D.
It is enabled for passive OS fingerprinting for all networks.
Explanation:
Understanding Passive OS Fingerprinting
Passive OS fingerprinting lets the sensor determine the OS that hosts are running. The sensor
analyzes network traffic between hosts and stores the OS of these hosts with their IP addresses. The
sensor inspects TCP SYN and SYNACK packets exchanged on the network to determine the OS type.
The sensor then uses the OS of the target host OS to determine the relevance of the attack to the
victim by computing the attack relevance rating component of the risk rating. Based on the
relevance of the attack, the sensor may alter the risk rating of the alert for the attack and/or the
sensor may filter the alert for the attack. You can then use the risk rating to reduce the number of
false positive alerts (a benefit in IDS mode) or definitively drop suspicious packets (a benefit in IPS
mode). Passive OS fingerprinting also enhances the alert output by reporting the victim OS, the
source of the OS identification, and the relevance to the victim OS in the alert.
Passive OS fingerprinting consists of three components:
•Passive OS learning
Passive OS learning occurs as the sensor observes traffic on the network. Based on the
characteristics of TCP SYN and SYNACK packets, the sensor makes a determination of the OS running
on the host of the source IP address.
•User-configurable OS identificationYou can configure OS host mappings, which take precedence over learned OS mappings.
•Computation of attack relevance rating and risk rating.