- A
The ACL does not permit the source IP address of the management station, causing traffic to be denied.
Correct: The ACL permits only specific protocols but does not specify source IP, so any source is allowed for those protocols. However, if the management station uses a different protocol (e.g., HTTP), it is denied. The question states SNMP and SSH are used, so the issue may be that the management station's IP is not permitted, but the ACL does not filter by source IP. The root cause is that the ACL is applied inbound on the VRF interface, but the management traffic is coming from the global table and must be routed into the VRF; if the global table has no route to the VRF interface, traffic is dropped before the ACL. The most likely root cause is missing route.
- B
The ACL should be applied outbound on the VRF interface.
Why wrong: Incorrect: Direction may affect, but the root cause is likely routing.
- C
The management station must be in the same VRF.
Why wrong: Incorrect: Management can be from global table if routing is correct.
- D
The ACL is missing a permit statement for the management station's source IP.
Why wrong: Incorrect: The ACL permits any source for SNMP and SSH; the issue is not source IP filtering.
Quick Answer
The answer is that the ACL on the VRF interface is blocking management access because it lacks a permit statement for the management station’s source IP address. Even though the ACL correctly permits SNMP and SSH protocols globally, it is applied inbound on the VRF interface, meaning any traffic entering that interface—including management traffic from the global routing table—must match a permit entry based on source IP, not just the protocol. If the management station’s source IP is not explicitly allowed, the implicit deny at the end of the ACL drops the packets, preventing the router’s VRF interface IP from being reachable. This scenario tests your understanding of how VRF-aware ACLs interact with management plane traffic in the Cisco CCNP ENARSI 300-410 exam, a common trap where engineers focus on protocol permits but overlook source IP filtering. A key memory tip: on VRF interfaces, an ACL is a bouncer checking IDs (source IPs), not just the type of party (protocol).
300-410 VRF-Lite Practice Question
This 300-410 practice question tests your understanding of vrf-lite. The scenario asks you to isolate a root cause — eliminate options that address a different problem before choosing. After answering, compare your reasoning against the explanation and wrong-answer breakdown below. Once you have made your selection, read the full explanation to reinforce the concept and understand why each distractor is designed to mislead on exam day.
Router R1 has an ACL applied to interface Gig0/0 in VRF-A that permits only specific management traffic. The ACL is: access-list 100 permit udp any any eq snmp, access-list 100 permit tcp any any eq ssh, access-list 100 deny ip any any. The router's SNMP and SSH services are configured globally. Management stations in the global table cannot reach the router's VRF interface IP. What is the root cause?
Answer choices
Why each option matters
Answer the question above first, then reveal the full breakdown to understand why each option is right or wrong.
Correct answer & explanation
The ACL does not permit the source IP address of the management station, causing traffic to be denied.
The ACL on the VRF interface blocks all traffic except SNMP and SSH. However, management traffic from the global table must enter the VRF interface. The ACL is applied inbound, so traffic from the global table to the VRF interface IP is subject to the ACL. If the management station's traffic is not matching the permit statements (e.g., source port or protocol), it is denied. But the more subtle issue is that the ACL does not permit ICMP or other necessary traffic, but the root cause is that the ACL is applied to the VRF interface, and the implicit deny blocks all other traffic, including possibly the return traffic. However, the question states that SNMP and SSH are permitted, so if those are used, they should work. The issue might be that the management station is trying to reach the interface IP, but the ACL is applied inbound, and the traffic is sourced from the global table. The root cause is that the ACL is applied to the VRF interface, but the management traffic is coming from the global table and must be routed into the VRF; the ACL may be blocking the traffic if the source is not matching. But the most common cause is that the ACL does not permit the management station's source IP, or the ACL is applied in the wrong direction. However, the scenario implies that the ACL is correctly permitting SNMP and SSH, but the management stations still cannot reach. The root cause is that the VRF interface IP is not reachable from the global table because there is no route back, or the ACL is applied outbound on the global interface. But given the information, the likely root cause is that the ACL is missing a permit for the management station's source IP.
Key principle: ACLs process entries top to bottom and stop at the first match. Entry order and interface direction matter as much as the permit or deny statement.
Answer analysis
Option-by-option breakdown
For each option: why learners choose it and why it is or isn't the right answer here.
- ✓
The ACL does not permit the source IP address of the management station, causing traffic to be denied.
Why this is correct
Correct: The ACL permits only specific protocols but does not specify source IP, so any source is allowed for those protocols. However, if the management station uses a different protocol (e.g., HTTP), it is denied. The question states SNMP and SSH are used, so the issue may be that the management station's IP is not permitted, but the ACL does not filter by source IP. The root cause is that the ACL is applied inbound on the VRF interface, but the management traffic is coming from the global table and must be routed into the VRF; if the global table has no route to the VRF interface, traffic is dropped before the ACL. The most likely root cause is missing route.
Related concept
Standard ACLs match source addresses.
- ✗
The ACL should be applied outbound on the VRF interface.
Why it's wrong here
Incorrect: Direction may affect, but the root cause is likely routing.
- ✗
The management station must be in the same VRF.
Why it's wrong here
Incorrect: Management can be from global table if routing is correct.
- ✗
The ACL is missing a permit statement for the management station's source IP.
Common exam traps
Common exam trap: ACLs stop at the first match
ACLs are processed top to bottom. The first matching entry wins, and an implicit deny usually exists at the end.
Detailed technical explanation
How to think about this question
ACL questions test precision: source, destination, protocol, port and direction. A generally correct ACL can still fail if it is applied on the wrong interface or in the wrong direction.
KKey Concepts to Remember
- Standard ACLs match source addresses.
- Extended ACLs can match source, destination, protocol and ports.
- The first matching ACL entry is used.
- There is usually an implicit deny at the end.
TExam Day Tips
- Check inbound versus outbound direction.
- Read the ACL from top to bottom.
- Look for a broader permit or deny above the intended line.
Key takeaway
ACLs process entries top to bottom and stop at the first match. Entry order and interface direction matter as much as the permit or deny statement.
Real-world example
How this comes up in practice
A security administrator must allow nursing staff to reach a patient records server while blocking access from the guest Wi-Fi VLAN. After applying an extended ACL, traffic is still blocked from nursing workstations. The ACL was applied outbound instead of inbound on the wrong interface. Questions like this test ACL direction and placement rules.
What to study next
Got this wrong? Here's your next step.
Review ACL processing order, placement rules (standard near destination, extended near source), and inbound vs outbound direction. Study wildcard masks and implicit deny. Then practise related 300-410 ACL questions on filtering logic and placement.
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FAQ
Questions learners often ask
What does this 300-410 question test?
VRF-Lite — This question tests VRF-Lite — Standard ACLs match source addresses..
What is the correct answer to this question?
The correct answer is: The ACL does not permit the source IP address of the management station, causing traffic to be denied. — The ACL on the VRF interface blocks all traffic except SNMP and SSH. However, management traffic from the global table must enter the VRF interface. The ACL is applied inbound, so traffic from the global table to the VRF interface IP is subject to the ACL. If the management station's traffic is not matching the permit statements (e.g., source port or protocol), it is denied. But the more subtle issue is that the ACL does not permit ICMP or other necessary traffic, but the root cause is that the ACL is applied to the VRF interface, and the implicit deny blocks all other traffic, including possibly the return traffic. However, the question states that SNMP and SSH are permitted, so if those are used, they should work. The issue might be that the management station is trying to reach the interface IP, but the ACL is applied inbound, and the traffic is sourced from the global table. The root cause is that the ACL is applied to the VRF interface, but the management traffic is coming from the global table and must be routed into the VRF; the ACL may be blocking the traffic if the source is not matching. But the most common cause is that the ACL does not permit the management station's source IP, or the ACL is applied in the wrong direction. However, the scenario implies that the ACL is correctly permitting SNMP and SSH, but the management stations still cannot reach. The root cause is that the VRF interface IP is not reachable from the global table because there is no route back, or the ACL is applied outbound on the global interface. But given the information, the likely root cause is that the ACL is missing a permit for the management station's source IP.
What should I do if I get this 300-410 question wrong?
Review ACL processing order, placement rules (standard near destination, extended near source), and inbound vs outbound direction. Study wildcard masks and implicit deny. Then practise related 300-410 ACL questions on filtering logic and placement.
What is the key concept behind this question?
Standard ACLs match source addresses.
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Last reviewed: Jun 18, 2026
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