CCNA Security Interview Preparation Guide
Refine your CCNA Security interview skills with our 6 critical questions. These questions will test your expertise and readiness for any CCNA Security interview scenario. Ideal for candidates of all levels, this collection is a must-have for your study plan. Secure the free PDF to access all 6 questions and guarantee your preparation for your CCNA Security interview. This guide is crucial for enhancing your readiness and self-assurance.6 CCNA Security Questions and Answers:
1 :: Define the term “DMZ” as it pertains to network security, and name three different common network devices that are typically found there?
It’s easy to think of your network as the “inside”, and everything else as “outside”. However, we’ve got a third area when it comes to firewalls - the DMZ.
From an IT standpoint, the DMZ is the part of our network that is exposed to outside networks. It’s common to find the following devices in a DMZ:
• FTP server
• Email server
• E-commerce server
• DNS servers
• Web servers
From an IT standpoint, the DMZ is the part of our network that is exposed to outside networks. It’s common to find the following devices in a DMZ:
• FTP server
• Email server
• E-commerce server
• DNS servers
• Web servers
2 :: Identify the true statements in below
A. Stateless packet filtering considers the TCP connection state. B. Stateful packet filtering considers the TCP connection state.
C. Neither stateless nor stateful packet filtering monitor the TCP connection state.
D. Both stateless and stateful packet filtering monitor the TCP connection state, and keep a state table containing that information.
Ans: (B.) Stateful packet filtering does monitor the connection state, and that’s particularly important when it comes to preventing TCP attacks. A stateful firewall will not only monitor the state of the TCP connection, but also the sequence numbers. Stateful firewalls accomplish this by keeping a session table, or state table.
C. Neither stateless nor stateful packet filtering monitor the TCP connection state.
D. Both stateless and stateful packet filtering monitor the TCP connection state, and keep a state table containing that information.
Ans: (B.) Stateful packet filtering does monitor the connection state, and that’s particularly important when it comes to preventing TCP attacks. A stateful firewall will not only monitor the state of the TCP connection, but also the sequence numbers. Stateful firewalls accomplish this by keeping a session table, or state table.
3 :: Does the Cisco IOS Firewall feature set act as a stateful or stateless packet filter?
The Cisco IOS Firewall is a stateful filter.
4 :: Which of the following are considered parts of the IOS Firewall feature set?
A. IOS Firewall
B. Intrusion Prevention System
C. RADIUS
D. Authentication Proxy
E. Password Encryption
Ans:(A, B, D.) There are three major components to the IOS Firewall feature set - the IOS
Firewall, the Intrusion Prevention System (IPS), and the Authentication Proxy.
B. Intrusion Prevention System
C. RADIUS
D. Authentication Proxy
E. Password Encryption
Ans:(A, B, D.) There are three major components to the IOS Firewall feature set - the IOS
Firewall, the Intrusion Prevention System (IPS), and the Authentication Proxy.
5 :: Identify the true statements regarding the Authentication Proxy
A. It’s part of the IOS Firewall Feature Set.
B. It allows creation of per-user security profiles, rather than more general profiles.
C. It allows creation of general security profiles, but not per-user profiles. D. Profiles can be stored locally, but not remotely.
E. Profiles can be stored on a RADIUS server.
F. Profiles can be stored on a TACACS+ server.
Ans: (A, B, E, F. T he Authentication Proxy allows us to create security profiles that will be applied on a per-user basis, rather than a per-subnet or per-address basis. These profiles can be kept
on either of the following:
• RADIUS server
• TACACS+ server
Upon successful authentication, that particular user’s security policy is downloaded from the
RADIUS or TACACS+ server and applied by the IOS Firewall router.
B. It allows creation of per-user security profiles, rather than more general profiles.
C. It allows creation of general security profiles, but not per-user profiles. D. Profiles can be stored locally, but not remotely.
E. Profiles can be stored on a RADIUS server.
F. Profiles can be stored on a TACACS+ server.
Ans: (A, B, E, F. T he Authentication Proxy allows us to create security profiles that will be applied on a per-user basis, rather than a per-subnet or per-address basis. These profiles can be kept
on either of the following:
• RADIUS server
• TACACS+ server
Upon successful authentication, that particular user’s security policy is downloaded from the
RADIUS or TACACS+ server and applied by the IOS Firewall router.
6 :: Configuring ACLs is an important part of working with the IOS Firewall. What wildcard masks are replaced in ACLs by the words host and any?
We have the option of using the word host to represent a wildcard mask of 0.0.0.0.
Consider a configuration where only packets from IP source 10.1.1.1 should be allowed and all other packets denied. The following ACLs both do that.
R3#conf t
R3(config)#access-list 6 permit 10.1.1.1 0.0.0.0
R3(config)#conf t
R3(config)#access-list 7 permit host 10.1.1.1
The keyword any can be used to represent a wildcard mask of 255.255.255.255. Both of the following lines permit all traffic.
R3(config)#access-list 15 permit any
R3(config)#access-list 15 permit 0.0.0.0 255.255.255.255
There’s no “right” or “wrong” decision to make when you’re configuring ACLs in the real world. For your exam, though, I’d be very familiar with the proper use of host and any.
Consider a configuration where only packets from IP source 10.1.1.1 should be allowed and all other packets denied. The following ACLs both do that.
R3#conf t
R3(config)#access-list 6 permit 10.1.1.1 0.0.0.0
R3(config)#conf t
R3(config)#access-list 7 permit host 10.1.1.1
The keyword any can be used to represent a wildcard mask of 255.255.255.255. Both of the following lines permit all traffic.
R3(config)#access-list 15 permit any
R3(config)#access-list 15 permit 0.0.0.0 255.255.255.255
There’s no “right” or “wrong” decision to make when you’re configuring ACLs in the real world. For your exam, though, I’d be very familiar with the proper use of host and any.