PCNSE Practice Test

Palo Alto PCNSE Practice Exam Questions

Question # 1

A network administrator is trying to prevent domain username and password submissions to phishing sites on some allowed URL categories Which set of steps does the administrator need to take in the URL Filtering profile to prevent credential phishing on the firewall?
A. Choose the URL categories in the User Credential Submission column and set action to block Select the User credential Detection tab and select Use Domain Credential Filter Commit
B. Choose the URL categories in the User Credential Submission column and set action to block Select the User credential Detection tab and select use IP User Mapping Commit
C. Choose the URL categories on Site Access column and set action to block Click the User credential Detection tab and select IP User Mapping Commit
D. Choose the URL categories in the User Credential Submission column and set action to block Select the URL filtering settings and enable Domain Credential Filter Commit

A. Choose the URL categories in the User Credential Submission column and set action to block Select the User credential Detection tab and select Use Domain Credential Filter Commit

Question # 2

An engineer is pushing configuration from Panorama to a managed firewall What happens when the pushed Panorama configuration has Address Object names that duplicate the Address Objects already configured on the firewall?
A. The firewall ignores only the pushed objects that have the same name as the locally configured objects, and it will commit the rest of the pushed configuration.
B. The firewall fully commits all of the pushed configuration and overwrites its locally configured objects
C. The firewall rejects the pushed configuration, and the commit fails.
D. The firewall renames the duplicate local objects with "-1" at the end signifying they are clones; it will update the references to the objects accordingly and fully commit the pushed configuration.

C. The firewall rejects the pushed configuration, and the commit fails.

Question # 3

Review the information below. A firewall engineer creates a U-NAT rule to allow users in the trust zone access to a server in the same zone by using an external, public NAT IP for that server. Given the rule below, what change should be made to make sure the NAT works as expected?
A. Change destination NAT zone to Trust_L3.
B. Change destination translation to Dynamic IP (with session distribution) using firewall ethI/2 address.
C. Change Source NAT zone to Untrust_L3.
D. Add source Translation to translate original source IP to the firewall eth1/2 interface translation.

D. Add source Translation to translate original source IP to the firewall eth1/2 interface translation.

Question # 4

Exhibit. An organization has Palo Alto Networks NGFWs that send logs to remote monitoring and security management platforms The network team has reported excessive traffic on the corporate WAN How could the Palo Alto Networks NGFW administrator reduce WAN traffic while maintaining support for all the existing monitoring/security platforms?
A. Any configuration on an M-500 would address the insufficient bandwidth concerns
B. Forward logs from external sources to Panorama for correlation, and from Panorama send them to the NGFW
C. Configure log compression and optimization features on all remote firewalls
D. Forward logs from firewalls only to Panorama and have Panorama forward logs to other external services

D. Forward logs from firewalls only to Panorama and have Panorama forward logs to other external services

Explanation:

In the image, we see multiple firewalls at a remote site sending logs directly to both Panorama and to various management and monitoring systems at the data center, which consumes significant WAN bandwidth.

To reduce WAN traffic while maintaining the existing log visibility:
🔄 Centralize log forwarding: Send logs only once across the WAN — from the firewalls to Panorama — and let Panorama handle the log forwarding to all other systems (SIEM, monitoring tools, etc.).
This drastically cuts down on duplicate log traffic over the WAN.

🔍 Why the other options are incorrect:

A. Any configuration on an M-500 would address the insufficient bandwidth concerns:
❌ Incorrect. The M-500 is a Panorama appliance, and its configuration affects log storage/management but doesn't inherently reduce WAN bandwidth unless used properly in architecture like option D.

B. Forward logs from external sources to Panorama for correlation, and from Panorama send them to the NGFW:
❌ Reversed logic. Logs go from NGFWs to Panorama, not the other way around.

C. Configure log compression and optimization features on all remote firewalls:
❌ PAN-OS does not support log compression across WAN links for remote log forwarding. So this option is not feasible.

🧠 Best Practice:

Use Panorama in "Log Collector mode" or dedicated log collectors to centralize logs.
Use Panorama’s Log Forwarding feature to relay logs to external monitoring and SIEM systems.
This keeps only one copy of each log traveling across the WAN, minimizing traffic and duplication.

📚 Reference:
Palo Alto Networks – Log Forwarding
Palo Alto Networks – Best Practices for Distributed Log Collection

Question # 5

A network administrator notices a false-positive state after enabling Security profiles. When the administrator checks the threat prevention logs, the related signature displays the following: threat type: spyware category: dns-c2 threat ID: 1000011111 Which set of steps should the administrator take to configure an exception for this signature?
A. Navigate to Objects > Security Profiles > Anti-Spyware Select related profile Select DNS exceptions tabs Search related threat ID and click enable Commit
B. Navigate to Objects > Security Profiles > Vulnerability Protection Select related profile Select the signature exceptions tab and then click show all signatures Search related threat ID and click enable Change the default action Commit
C. Navigate to Objects > Security Profiles > Vulnerability Protection Select related profile Select the Exceptions lab and then click show all signatures Search related threat ID and click enable Commit
D. Navigate to Objects > Security Profiles > Anti-Spyware Select related profile Select the Exceptions lab and then click show all signatures Search related threat ID and click enable Commit

A. Navigate to Objects > Security Profiles > Anti-Spyware Select related profile Select DNS exceptions tabs Search related threat ID and click enable Commit

Explanation: When dealing with a false positive, particularly for a spyware threat detected through DNS queries (as indicated by the category "dns-c2"), the correct course of action involves creating an exception in the Anti-Spyware profile, not the Vulnerability Protection profile. This is because the Anti-Spyware profile in Palo Alto Networks firewalls is designed to detect and block spyware threats, which can include command and control (C2) activities often signaled by DNS queries.
The steps to configure an exception for this specific spyware signature (threat ID: 1000011111) are as follows:
Navigate to Objects > Security Profiles > Anti-Spyware. This is where all the Anti- Spyware profiles are listed.
Select the related Anti-Spyware profile that is currently applied to the security policy which is generating the false positive.
Within the profile, go to the DNS Exceptions tab. This tab allows you to specify exceptions based on DNS signatures.
Search for the related threat ID (in this case, 1000011111) and click enable to create an exception for it. By doing this, you instruct the firewall to bypass the detection for this specific signature, effectively treating it as a false positive.
Commit the changes to make the exception active.
By following these steps, the administrator can effectively address the false positive without disabling the overall spyware protection capabilities of the firewall.

Question # 6

A firewall administrator is configuring an IPSec tunnel between a company's HQ and a remote location. On the HQ firewall, the interface used to terminate the IPSec tunnel has a static IP. At the remote location, the interface used to terminate the IPSec tunnel has a DHCP assigned IP address. Which two actions are required for this scenario to work? (Choose two.)
A. On the HQ firewall select peer IP address type FQDN
B. On the remote location firewall select peer IP address type Dynamic
C. On the HQ firewall enable DDNS under the interface used for the IPSec tunnel
D. On the remote location firewall enable DONS under the interface used for the IPSec tunnel

A. On the HQ firewall select peer IP address type FQDN
C. On the HQ firewall enable DDNS under the interface used for the IPSec tunnel

Question # 7

Exhibit. Review the screenshots and consider the following information: 1. FW-1is assigned to the FW-1_DG device group, and FW-2 is assigned to OFFICE_FW_DC 2. There are no objects configured in REGIONAL_DG and OFFICE_FW_DG device groups. Which IP address will be pushed to the firewalls inside Address Object Server-1?
A. Server-1 on FW-1 will have IP 4.4.4.4. Server-1 on FW-2 will have IP 1.1.1.1
B. Server-1 on FW-1 will have IR 111.1. Server-1 will not be pushed to FW-2.
C. Server-1 on FW-1 will have IP 2.2.2.2. Server-1 will not be pushed to FW-2.
D. Server-1 on FW-1 will have IP 3.3.3.3. Server-1 will not be pushed to FW-2.

A. Server-1 on FW-1 will have IP 4.4.4.4. Server-1 on FW-2 will have IP 1.1.1.1

Explanation: Device Group Hierarchy
Shared
DATACENTER_DG
DC_FW_DG
REGIONAL_DG
OFFICE_FW_DG
FW-1_DG
Analysis
Considerations:
FW-1 is assigned to the FW-1_DG device group.
FW-2 is assigned to the OFFICE_FW_DG device group.
There are no objects configured in REGIONAL_DG and OFFICE_FW_DG device groups.
The address object Server-1 appears in multiple device groups with different IP addresses.
The device groups have a hierarchy, which means objects can be inherited from parent groups unless overridden in the child group.

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