Exam series: FCSS_EFW_AD-7.4
Number of questions: 36
Exam time: 70 minutes
Language: English, Japanese
Product version: FortiOS 7.4, FortiManager 7.4, FortiAnalyzer 7.4
Status: Available
Exam details: exam description
Exam Topics
Successful candidates have applied knowledge and skills in the following areas and tasks:
* System configuration
* Implement the Fortinet Security Fabric
* Configure hardware acceleration on FortiGate
* Configure different operation modes for an HA cluster
* Implement enterprise networks using VLANs and VDOMs
* Explain various use case scenarios of a secure network using Fortinet solutions
* Centra* management
* Implement centra* management
* Security profiles
* Given a scenario, manage SSL/SSH inspection profiles
* Use a combination of web filters, application control, and ISDB to secure a network
* Integrate IPS to perform security checks in enterprise networks
* Routing
* Implement OSPF to route enterprise traffic
* Implement BGP to route enterprise traffic
* VPN
* Implement IPsec VPN IKE version 2
* Implement ADVPN to enable on-demand VPN tunnels between sites
The Fortinet FCSS – Enterprise Firewall 7.4 Administrator (FCSS_EFW_AD-7.4) exam tests your ability to design, administer, and troubleshoot Fortinet network security solutions, focusing on FortiOS 7.4, FortiManager 7.4, and FortiAnalyzer
7.4.
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Here’s a summary of the key details:
Certification Name: Fortinet FCSS – Enterprise Firewall 7.4 Administrator.
Exam Code: FCSS\_EFW\_AD-7.4.
Exam Duration: 70 minutes.
Number of Questions: 36 multiple-choice questions.
Exam Format: Multiple-choice and scenario-based questions.
Target Audience: Network and security professionals responsible for designing, administering, and supporting enterprise security infrastructures using FortiGate devices.
Topics Covered: The exam covers topics related to configuring and troubleshooting Fortinet Security Fabric, implementing secure enterprise networks, and managing security profiles and routing.
Product Version: FortiOS 7.4, FortiManager 7.4, and FortiAnalyzer 7.4.
Language: English, Japanese.
Status: Available.
Passing Score: Pass or Fail.
Upgraded Version: The FCSS\_EFW\_AD-7.4 is an upgraded version of the NSE7\_EFW-7.2 exam.
NSE7\_EFW-7.2 availability: The NSE7\_EFW-7.2 exam is available until May 31, 2025.
Description
The FCSS in Network Security certification validates your ability to design, administer, monitor, and troubleshoot Fortinet network security solutions. This curriculum covers network security infrastructures using advanced Fortinet solutions.
Who Should Attempt the FCSS in Network Security Certification?
We recommend this certification for cybersecurity professionals who require the expertise needed to design, manage, support, and analyze advanced Fortinet network security solutions.
Program Requirements
To achieve this certification, you are required to pass the core exam and one elective exam within two years.
Core Exam
NSE 7 Enterprise Firewall / FCSS – Enterprise Firewall Administrator
Elective Exams
NSE 7 LAN Edge
FCSS – Network Security Support Engineer
NSE 7 SD-WAN / FCSS – SD-WAN Architect
To prepare for the certification exams, we recommend that you take the associated NSE courses.
Digital Badges
You will receive digital badges under the following circumstances:
Exam badge: Each time you pass any version of the exam included in FCSS – Network Security.
Certification badge: Once you achieve the requirements for the FCSS – Network Security certification.
For more information, see the following knowledge base article in the Fortinet Training Institute Helpdesk.
Sample Question and Answers
QUESTION 1
A company that acquired multiple branches across different countries needs to install new FortiGate
devices on each of those branches. However, the IT staff lacks sufficient knowledge to implement the
initial configuration on the FortiGate devices.
Which three approaches can the company take to successfully deploy advanced initial configurations
on remote branches? (Choose three.)
A. Use metadata variables to dynamically assign values according to each FortiGate device.
B. Use provisioning templates and install configuration settings at the device layer.
C. Use the Global ADOM to deploy global object configurations to each FortiGate device.
D. Apply Jinja in the FortiManager scripts for large-scale and advanced deployments.
E. Add FortiGate devices on FortiManager as model devices, and use ZTP or LTP to connect to FortiGate devices.
Answer: A, B, E
Explanation:
Use metadata variables to dynamically assign values according to each FortiGate device:
Metadata variables in FortiManager allow device-specific configurations to be dynamically assigned
without manually configuring each FortiGate. This is especially useful when deploying multiple
devices with similar base configurations.
Use provisioning templates and install configuration settings at the device layer:
Provisioning templates in FortiManager provide a structured way to configure FortiGate devices.
These templates can define interfaces, policies, and settings, ensuring that each device is correctly
configured upon deployment.
Add FortiGate devices on FortiManager as model devices, and use ZTP or LTP to connect to FortiGate devices:
Zero-Touch Provisioning (ZTP) and Local Touch Provisioning (LTP) help automate the deployment of
FortiGate devices. By adding devices as model devices in FortiManager, configurations can be pushed
automatically when devices connect for the first time, reducing manual effort.
QUESTION 2
An administrator is checking an enterprise network and sees a suspicious packet with the MAC address e0:23:ff:fc:00:86.
What two conclusions can the administrator draw? (Choose two.)
A. The suspicious packet is related to a cluster that has VDOMs enabled.
B. The network includes FortiGate devices configured with the FGSP protocol.
C. The suspicious packet is related to a cluster with a group-id value lower than 255.
D. The suspicious packet corresponds to port 7 on a FortiGate device.
Answer: A, C
Explanation:
The MAC address e0:23:ff:fc:00:86 follows the format used in FortiGate High Availability (HA)
clusters. When FortiGate devices are in an HA configuration, they use virtual MAC addresses for
failover and redundancy purposes.
The suspicious packet is related to a cluster that has VDOMs enabled:
FortiGate devices with Virtual Domains (VDOMs) enabled use specific MAC address ranges to
differentiate HA-related traffic. This MAC address is likely part of that mechanism.
The suspicious packet is related to a cluster with a group-id value lower than 255:
FortiGate HA clusters assign virtual MAC addresses based on the group ID. The last octet (00:86)
corresponds to a group ID that is below 255, confirming this option.
QUESTION 3
A company’s guest internet policy, operating in proxy mode, blocks access to Artificial Intelligence
Technology sites using FortiGuard. However, a guest user accessed a page in this category using port 8443.
Which configuration changes are required for FortiGate to analyze HTTPS traffic on nonstandard
ports like 8443 when full SSL inspection is active in the guest policy?
A. Add a URL wildcard domain to the website CA certificate and use it in the SSL/SSH Inspection Profile.
B. In the Protocol Port Mapping section of the SSL/SSH Inspection Profile, enter 443, 8443 to analyze both standard (443) and non-standard (8443) HTTPS ports.
C. To analyze nonstandard ports in web filter profiles, use TLSv1.3 in the SSL/SSH Inspection Profile.
D. Administrators can block traffic on nonstandard ports by enabling the SNI check in the SSL/SSH Inspection Profile.
Answer: B
Explanation:
When FortiGate is operating in proxy mode with full SSL inspection enabled, it inspects encrypted
HTTPS traffic by default on port 443. However, some websites may use non-standard HTTPS ports
(such as 8443), which FortiGate does not inspect unless explicitly configured.
To ensure that FortiGate inspects HTTPS traffic on port 8443, administrators must manually add port
8443 in the Protocol Port Mapping section of the SSL/SSH Inspection Profile. This allows FortiGate to
treat HTTPS traffic on port 8443 the same as traffic on port 443, enabling proper inspection and
enforcement of FortiGuard category-based web filtering.
QUESTION 4
An administrator needs to install an IPS profile without triggering false positives that can impact
applications and cause problems with the user’s normal traffic flow.
Which action can the administrator take to prevent false positives on IPS analysis?
A. Use the IPS profile extension to select an operating system, protocol, and application for all the network internal services and users to prevent false positives.
B. Enable Scan Outgoing Connections to avoid clicking suspicious links or attachments that can deliver botnet malware and create false positives.
C. Use an IPS profile with action monitor, however, the administrator must be aware that this can compromise network integrity.
D. Install missing or expired SSUTLS certificates on the client PC to prevent expected false positives.
Answer: A
Explanation:
False positives in Intrusion Prevention System (IPS) analysis can disrupt legitimate traffic and
negatively impact user experience. To reduce false positives while maintaining security,
administrators can:
* Use IPS profile extensions to fine-tune the settings based on the organization’s environment.
* Select the correct operating system, protocol, and application types to ensure that IPS signatures
match the network’s actual traffic patterns, reducing false positives.
* Customize signature selection based on the networks specific services, filtering out unnecessary
or irrelevant signatures.
QUESTION 5
Refer to the exhibit, which shows a hub and spokes deployment.
An administrator is deploying several spokes, including the BGP configuration for the spokes to connect to the hub.
Which two commands allow the administrator to minimize the configuration? (Choose two.)
A. neighbor-group
B. route-reflector-client
C. neighbor-range
D. ibgp-enforce-multihop
Answer: A, C
Explanation:
neighbor-group:
* This command is used to group multiple BGP neighbors with the same configuration, reducing redundant configuration.
* Instead of defining individual BGP settings for each spoke, the administrator can create a neighbor-group and apply the same policies, reducing manual work. neighbor-range:
* This command allows the configuration of a range of neighbor IPs dynamically, reducing the need
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