R3204P16-HP Load Balancing Module Network Management Configuration Guide-6PW101
Table Of Contents
- Title page
- Contents
- Interface management configuration
- IP addressing configuration
- MAC address table configuration
- Layer 2 forwarding configuration
- Layer 2 forwarding overview
- Configuring general Layer 2 forwarding
- Configuring inline Layer 2 forwarding
- Configuring inter-VLAN Layer 2 forwarding
- Forward-type inline Layer 2 forwarding configuration example
- Blackhole-type inline Layer 2 forwarding configuration example
- Inter-VLAN Layer 2 forwarding configuration example
- VLAN configuration
- ARP configuration
- Gratuitous ARP configuration
- Proxy ARP configuration
- Layer 3 forwarding configuration
- NAT configuration
- Overview
- Configuring a NAT policy in the web interface
- Configuring NAT in the CLIs
- Configuration guidelines
- ALG configuration
- Static route configuration
- RIP configuration
- OSPF configuration
- BGP configuration
- Policy-based routing configuration
- Route displaying
- DNS configuration
- Overview
- Configuring DNS on the web interface
- Configuring DNS in the CLIs
- Troubleshooting IPv4 DNS configuration
- Support and other resources
- Index
50
Allow jumbo frame to pass
PVID: 100
Mdi type: auto
Link delay is 0(sec)
Port link-type: trunk
VLAN passing : 2, 6-50, 100
VLAN permitted: 2, 6-50, 100
Trunk port encapsulation: IEEE 802.1q
Port priority: 0
Last 300 seconds input: 0 packets/sec 0 bytes/sec
Last 300 seconds output: 0 packets/sec 0 bytes/sec
Input (total): 0 packets, 0 bytes
0 broadcasts, 0 multicasts
Input (normal): 0 packets, 0 bytes
0 broadcasts, 0 multicasts
Input: 0 input errors, 0 runts, 0 giants, 0 throttles
0 CRC, 0 frame, 0 overruns, 0 aborts
0 ignored, 0 parity errors
Output (total): 0 packets, 0 bytes
0 broadcasts, 0 multicasts, 0 pauses
Output (normal): 0 packets, 0 bytes
0 broadcasts, 0 multicasts, 0 pauses
Output: 0 output errors, 0 underruns, 0 buffer failures
0 aborts, 0 deferred, 0 collisions, 0 late collisions
0 lost carrier, 0 no carrier
The output shows that:
• Ten-GigabitEthernet 0/0 is a trunk port.
• The PVID of the port is VLAN 100.
• The port permits packets of VLAN 2, VLANs 6 through VLAN 50, and VLAN 100 to pass through.
Configuring isolate-user-VLAN
Overview
An isolate-user-VLAN adopts a two-tier VLAN structure. In this approach, two types of VLANs,
isolate-user-VLAN and secondary VLAN, are configured on the same LB module.
The following are the characteristics of the isolate-user-VLAN implementation:
• Isolate-user-VLANs are mainly used for upstream data exchange. An isolate-user-VLAN can be
associated with multiple secondary VLANs. As the upstream device is aware of only the
isolate-user-VLAN but not the secondary VLANs, network configuration is simplified and VLAN
resources are saved.
• You can isolate the Layer 2 traffic of different users by assigning the ports connected to them to
different secondary VLANs. To enable communication between secondary VLANs associated with
the same isolate-user-VLAN, you can enable local proxy ARP on the upstream device to realize
Layer 3 communication between the secondary VLANs.