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- Table of Contents
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- H3C S12500R Ethernet Switch Router Series Config Examples-6W101
- 01-Login Management Configuration Examples
- 02-RBAC Configuration Examples
- 03-Software Upgrade Examples
- 04-Ethernet Link Aggregation Configuration Examples
- 05-Port Isolation Configuration Examples
- 06-Spanning Tree Configuration Examples
- 07-VLAN Configuration Examples
- 08-VLAN Tagging Configuration Examples
- 09-DHCP Snooping Configuration Examples
- 10-Cross-Subnet Dynamic IP Address Allocation Configuration Examples
- 11-IPv6 over IPv4 Tunneling with OSPFv3 Configuration Examples
- 12-GRE Tunnel Configuration Examples
- 13-GRE with OSPF Configuration Examples
- 14-OSPF Configuration Examples
- 15-IS-IS Configuration Examples
- 16-BGP Configuration Examples
- 17-Policy-Based Routing Configuration Examples
- 18-OSPFv3 Configuration Examples
- 19-IPv6 IS-IS Configuration Examples
- 20-Routing Policy Configuration Examples
- 21-IGMP Snooping Configuration Examples
- 22-IGMP Configuration Examples
- 23-MLD Snooping Configuration Examples
- 24-Basic MPLS Configuration Examples
- 25-MPLS L3VPN Configuration Examples
- 26-ACL Configuration Examples
- 27-Control Plane-Based QoS Policy Configuration Examples
- 28-Traffic Policing Configuration Examples
- 29-GTS and Rate Limiting Configuration Examples
- 30-Priority Mapping and Queue Scheduling Configuration Examples
- 31-Traffic Filtering Configuration Examples
- 32-AAA Configuration Examples
- 33-SSH Configuration Examples
- 34-IP Source Guard Configuration Examples
- 35-Ethernet OAM Configuration Examples
- 36-CFD Configuration Examples
- 37-DLDP Configuration Examples
- 38-VRRP Configuration Examples
- 39-BFD Configuration Examples
- 40-NTP Configuration Examples
- 41-SNMP Configuration Examples
- 42-NQA Configuration Examples
- 43-Mirroring Configuration Examples
- 44-sFlow Configuration Examples
- 45-OpenFlow Configuration Examples
- 46-MAC Address Table Configuration Examples
- 47-Static Multicast MAC Address Entry Configuration Examples
- 48-IP Unnumbered Configuration Examples
- 49-Congestion Avoidance and Queue Scheduling Configuration Examples
- 50-Attack Protection Configuration Examples
- 51-Smart Link Configuration Examples
- 52-RRPP Configuration Examples
- 53-BGP Route Selection Configuration Examples
- 54-IS-IS Route Summarization Configuration Examples
- 55-MPLS OAM Configuration Examples
- 56-MPLS TE Configuration Examples
- 57-VXLAN Configuration Examples
- 58-NetStream Configuration Examples
- 59-EVPN-DCI over an MPLS L3VPN Network Configuration Examples
- 60-PTP Configuration Examples
- 61-S-MLAG Configuration Examples
- 62-MPLS SR Configuration Examples
- 63-Puppet Configuration Examples
- 64-Configuration Example of Using Ethernet OAM to Monitor ERPS Ring Link Performance
- 65-GRE Tunneling Between DHCP Relay and DHCP Server Configuration Examples
- 66-Loop Detection Configuration Examples
- 67-MPLS L3VPN+VRRP Configuration Examples
- 68-MSTP and VRRP Load Balancing Configuration Examples
- 69-Routing Policy for VPN Access Control Configuration Examples
- 70-Switch and Firewall Connection Configuration Examples for External Network Access
- 71-Switch and Router Connection Configuration Examples for External Network Access
- 72-VRRP Network Multicast Data Transmission Configuration Examples
- Related Documents
-
| Title | Size | Download |
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| 18-OSPFv3 Configuration Examples | 127.49 KB |
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H3C S12500R Switch Router Series |
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OSPFv3 Configuration Examples |
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Copyright © 2024 New H3C Technologies Co., Ltd. All rights reserved.
No part of this manual may be reproduced or transmitted in any form or by any means without prior written consent of New H3C Technologies Co., Ltd.
Except for the trademarks of New H3C Technologies Co., Ltd., any trademarks that may be mentioned in this document are the property of their respective owners.
The information in this document is subject to change without notice.
Contents
Example: Configuring OSPFv3 route filtering
Configuring route redistribution
Configuring OSPFv3 route filtering
Introduction
This document provides OSPFv3 route filtering configuration examples.
Prerequisites
This document is not restricted to specific software or hardware versions.
The configuration examples in this document were created and verified in a lab environment, and all the devices were started with the factory default configuration. When you are working on a live network, make sure you understand the potential impact of every command on your network.
This document assumes that you have basic knowledge of OSPFv3 route filtering.
Example: Configuring OSPFv3 route filtering
Network configuration
As shown in Figure 1, the devices of an enterprise reside in OSPFv3 and RIPng domains.
Configure route redistribution between OSPFv3 and RIPng to interconnect the devices.
Configure route filtering on Device E, Device C, and Device D to meet the following requirements:
· The route destined for R&D department 2 is not redistributed to OSPFv3.
· Marketing department 1 cannot reach R&D department 1.
· R&D department 1 and the After-sale service department cannot reach Marketing department 2.
Table 1 Interface and IP address assignment
|
Device |
Interface |
IP address |
Device |
Interface |
IP address |
|
Device A |
HundredGigE1/0/1 |
1::1/64 |
Device B |
HundredGigE1/0/1 |
1::2/64 |
|
|
HundredGigE1/0/2 |
2::1/64 |
|
HundredGigE1/0/2 |
3::1/64 |
|
|
HundredGigE1/0/3 |
4::1/64 |
|
|
|
|
Device C |
HundredGigE1/0/1 |
2::2/64 |
Device D |
HundredGigE1/0/1 |
3::2/64 |
|
|
Loop0 |
13::1/64 |
|
Loop0 |
11::1/64 |
|
|
|
|
|
Loop1 |
12::1/64 |
|
Device E |
HundredGigE1/0/1 |
4::2/64 |
Device F |
HundredGigE1/0/1 |
5::2/64 |
|
|
HundredGigE1/0/2 |
5::1/64 |
|
Loop0 |
14::1/64 |
|
|
|
|
|
Loop1 |
15::1/64 |
Software versions used
This configuration example was created and verified on Release 3606.
Restrictions and guidelines
When you configure OSPFv3 route filtering, follow these restrictions and guidelines:
· The filter-policy export command that filters redistributed routes takes effect only on an ASBR.
· OSPFv3 filters routes calculated using received LSAs. It does not filter LSAs.
· IP communication is bidirectional. If a router filters out a route destined for Network A, the subnets attached to the router cannot reach Network A, and Network A cannot reach the subnets.
· When you configure route filtering by referencing an ACL, configure the rule permit source any item following multiple rule deny source items to allow unmatched routes to pass.
· Specify a Router ID when you configure OSPFv3.
· By default, interfaces on the device are disabled (in ADM or Administratively Down state). To have an interface operate, you must use the undo shutdown command to enable that interface.
Procedures
Configuring IPv6 addresses
# Configure an IPv6 address for HundredGigE 1/0/1.
<DeviceA> system-view
[DeviceA] interface hundredgige 1/0/1
[DeviceA-HundredGigE1/0/1] ipv6 address 1::1 64
[DeviceA-HundredGigE1/0/1] undo shutdown
[DeviceA-HundredGigE1/0/1] quit
# Configure IPv6 addresses for other interfaces in the same way VLAN-interface 100 is configured. (Details not shown.)
Configuring OSPFv3
# Enable OSPFv3 on Device A.
[DeviceA] ospfv3
[DeviceA-ospfv3-1] router-id 6.6.6.6
[DeviceA-ospfv3-1] quit
[DeviceA] interface hundredgige 1/0/1
[DeviceA-HundredGigE1/0/1] ospfv3 1 area 0
[DeviceA-HundredGigE1/0/1] quit
[DeviceA] interface hundredgige 1/0/2
[DeviceA-HundredGigE1/0/2] ospfv3 1 area 2
[DeviceA-HundredGigE1/0/2] quit
[DeviceA] interface hundredgige 1/0/3
[DeviceA-HundredGigE1/0/3] ospfv3 1 area 1
[DeviceA-HundredGigE1/0/3] quit
# Enable OSPFv3 on Device B.
[DeviceB] ospfv3
[DeviceB-ospfv3-1] router-id 5.5.5.5
[DeviceB-ospfv3-1] quit
[DeviceB] interface hundredgige 1/0/1
[DeviceB-HundredGigE1/0/1] ospfv3 1 area 0
[DeviceB-HundredGigE1/0/1] quit
[DeviceB] interface hundredgige 1/0/2
[DeviceB-HundredGigE1/0/2] ospfv3 1 area 3
[DeviceB-HundredGigE1/0/2] quit
# Enable OSPFv3 on Device C.
[DeviceC] ospfv3
[DeviceC-ospfv3-1] router-id 4.4.4.4
[DeviceC-ospfv3-1] quit
[DeviceC] interface hundredgige 1/0/1
[DeviceC-HundredGigE1/0/1] ospfv3 1 area 2
[DeviceC-HundredGigE1/0/1] quit
[DeviceC] interface loopback 0
[DeviceC-LoopBack0] ospfv3 1 area 2
[DeviceC-LoopBack0] quit
# Enable OSPFv3 on Device D.
[DeviceD] ospfv3
[DeviceD-ospfv3-1] router-id 3.3.3.3
[DeviceD-ospfv3-1] quit
[DeviceD] interface hundredgige 1/0/1
[DeviceD-HundredGigE1/0/1] ospfv3 1 area 3
[DeviceD-HundredGigE1/0/1] quit
[DeviceD] interface loopback 0
[DeviceD-LoopBack0] ospfv3 1 area 3
[DeviceD-LoopBack0] quit
[DeviceD] interface loopback 1
[DeviceD-LoopBack1] ospfv3 1 area 3
[DeviceD-LoopBack1] quit
# Enable OSPFv3 on Device E.
[DeviceE] ospfv3
[DeviceE-ospfv3-1] router-id 2.2.2.2
[DeviceE-ospfv3-1] quit
[DeviceE] interface hundredgige 1/0/1
[DeviceE-HundredGigE1/0/1] ospfv3 1 area 1
[DeviceE-HundredGigE1/0/1] quit
Configure RIPng
# Enable RIPng on Device E.
[DeviceE] ripng
[DeviceE-ripng-1] quit
[DeviceE] interface hundredgige 1/0/2
[DeviceE-HundredGigE1/0/2] ripng 1 enable
[DeviceE-HundredGigE1/0/2] quit
# Enable RIPng on Device F.
[DeviceF] ripng
[DeviceF-ripng-1] quit
[DeviceF] interface hundredgige 1/0/1
[DeviceF-HundredGigE1/0/1] ripng 1 enable
[DeviceF-HundredGigE1/0/1] quit
[DeviceF] interface loopback 0
[DeviceF-LoopBack0] ripng 1 enable
[DeviceF-LoopBack0] quit
[DeviceF] interface loopback 1
[DeviceF-LoopBack0] ripng 1 enable
[DeviceF-LoopBack0] quit
Configuring route redistribution
# Configure Device E to redistribute OSPFv3 and direct routes to RIPng.
[DeviceE] ripng
[DeviceE-ripng-1] import-route direct
[DeviceE-ripng-1] import-route ospfv3
[DeviceE-ripng-1] quit
# Configure Device E to redistribute RIPng and direct routes to OSPFv3.
[DeviceE] ospfv3
[DeviceE-ospfv3-1] import-route direct
[DeviceE-ospfv3-1] import-route ripng
[DeviceE-ospfv3-1] quit
# Verify that Device E has routes to all networks.
[DeviceE] display ipv6 routing-table
Destinations : 15 Routes : 15
Destination: ::1/128 Protocol : Direct
NextHop : ::1 Preference: 0
Interface : InLoop0 Cost : 0
Destination: 1::/64 Protocol : OSPFv3
NextHop : FE80::2E0:FCFF:FE58:124D Preference: 10
Interface : HGE1/0/1 Cost : 2
Destination: 2::/64 Protocol : OSPFv3
NextHop : FE80::2E0:FCFF:FE58:124D Preference: 10
Interface : HGE1/0/1 Cost : 2
Destination: 3::/64 Protocol : OSPFv3
NextHop : FE80::2E0:FCFF:FE58:124D Preference: 10
Interface : HGE1/0/1 Cost : 3
Destination: 4::/64 Protocol : Direct
NextHop : :: Preference: 0
Interface : HGE1/0/1 Cost : 0
Destination: 4::2/128 Protocol : Direct
NextHop : ::1 Preference: 0
Interface : InLoop0 Cost : 0
Destination: 5::/64 Protocol : Direct
NextHop : :: Preference: 0
Interface : HGE1/0/2 Cost : 0
Destination: 5::1/128 Protocol : Direct
NextHop : ::1 Preference: 0
Interface : InLoop0 Cost : 0
Destination: 11::1/128 Protocol : OSPFv3
NextHop : FE80::2E0:FCFF:FE58:124D Preference: 10
Interface : HGE1/0/1 Cost : 3
Destination: 12::1/128 Protocol : OSPFv3
NextHop : FE80::2E0:FCFF:FE58:124D Preference: 10
Interface : HGE1/0/1 Cost : 3
Destination: 13::1/128 Protocol : OSPFv3
NextHop : FE80::2E0:FCFF:FE58:124D Preference: 10
Interface : HGE1/0/1 Cost : 2
Destination: 14::/64 Protocol : RIPng
NextHop : FE80::2E0:FCFF:FE11:19B5 Preference: 100
Interface : HGE1/0/2 Cost : 1
Destination: 15::/64 Protocol : RIPng
NextHop : FE80::2E0:FCFF:FE11:19B5 Preference: 100
Interface : HGE1/0/2 Cost : 1
Destination: FE80::/10 Protocol : Direct
NextHop : :: Preference: 0
Interface : InLoop0 Cost : 0
Destination: FF00::/8 Protocol : Direct
NextHop : :: Preference: 0
Interface : NULL0 Cost : 0
# Verify that other devices have routes to all networks. (Details not shown.)
Configuring OSPFv3 route filtering
# On Device C, configure IPv6 basic ACL 2000 to permit any subnet except 12::1/64.
[DeviceC] acl ipv6 basic 2000
[DeviceC-acl-ipv6-basic-2000] rule 0 deny source 12::1 64
[DeviceC-acl-ipv6-basic-2000] rule permit source any
[DeviceC-acl-ipv6-basic-2000] quit
# On Device C, use ACL 2000 to filter received routes.
[DeviceC] ospfv3
[DeviceC-ospfv3-1] filter-policy 2000 import
[DeviceC-ospfv3-1] quit
# On Device D, configure IPv6 basic ACL 2000 to permit any subnet except 15::1/64.
[DeviceD] acl ipv6 basic 2000
[DeviceD-acl-ipv6-basic-2000] rule 0 deny source 15::1 64
[DeviceD-acl-ipv6-basic-2000] rule permit source any
[DeviceD-acl-ipv6-basic-2000] quit
# On Device D, use ACL 2000 to filter received routes.
[DeviceD] ospfv3
[DeviceD-ospfv3-1] filter-policy 2000 import
[DeviceD-ospfv3-1] quit
# On Device E, configure IPv6 basic ACL 2000 to permit any subnet except 14::1/64.
[DeviceE] acl ipv6 basic 2000
[DeviceE-acl-ipv6-basic-2000] rule 0 deny source 14::1 64
[DeviceE-acl-ipv6-basic-2000] rule permit source any
[DeviceE-acl-ipv6-basic-2000] quit
# On Device E, use ACL 2000 to filter routes redistributed from RIPng.
[DeviceE] ospfv3
[DeviceE-ospfv3-1] filter-policy 2000 export ripng 1
[DeviceE-ospfv3-1] quit
Verifying the configuration
# Verify that Device C does not have a route to 12::/64.
[DeviceC] display ipv6 routing-table
Destinations : 13 Routes : 13
Destination: ::1/128 Protocol : Direct
NextHop : ::1 Preference: 0
Interface : InLoop0 Cost : 0
Destination: 1::/64 Protocol : OSPFv3
NextHop : FE80::2E0:FCFF:FE58:1245 Preference: 10
Interface : HGE1/0/1 Cost : 2
Destination: 2::/64 Protocol : Direct
NextHop : :: Preference: 0
Interface : HGE1/0/1 Cost : 0
Destination: 2::2/128 Protocol : Direct
NextHop : ::1 Preference: 0
Interface : InLoop0 Cost : 0
Destination: 3::/64 Protocol : OSPFv3
NextHop : FE80::2E0:FCFF:FE58:1245 Preference: 10
Interface : HGE1/0/1 Cost : 3
Destination: 4::/64 Protocol : OSPFv3
NextHop : FE80::2E0:FCFF:FE58:1245 Preference: 10
Interface : HGE1/0/1 Cost : 2
Destination: 5::/64 Protocol : OSPFv3
NextHop : FE80::2E0:FCFF:FE58:1245 Preference: 150
Interface : HGE1/0/1 Cost : 1
Destination: 11::1/128 Protocol : OSPFv3
NextHop : FE80::2E0:FCFF:FE58:1245 Preference: 10
Interface : HGE1/0/1 Cost : 3
Destination: 13::/64 Protocol : Direct
NextHop : :: Preference: 0
Interface : Loop0 Cost : 0
Destination: 13::1/128 Protocol : Direct
NextHop : ::1 Preference: 0
Interface : InLoop0 Cost : 0
Destination: 15::/64 Protocol : OSPFv3
NextHop : FE80::2E0:FCFF:FE58:1245 Preference: 150
Interface : HGE1/0/1 Cost : 1
Destination: FE80::/10 Protocol : Direct
NextHop : :: Preference: 0
Interface : InLoop0 Cost : 0
# Verify that Marketing department 1 cannot reach R&D department 1.
[DeviceC] ping ipv6 -a 13::1 12::1
Ping6(56 data bytes) 13::1 --> 12::1, press CTRL+C to break
Request time out
Request time out
Request time out
Request time out
Request time out
--- Ping6 statistics for 12::1 ---
5 packet(s) transmitted, 0 packet(s) received, 100.0% packet loss
# Verify that Device D does not have a route to 15::/64.
[DeviceD] display ipv6 routing-table
Destinations : 14 Routes : 14
Destination: ::1/128 Protocol : Direct
NextHop : ::1 Preference: 0
Interface : InLoop0 Cost : 0
Destination: 1::/64 Protocol : OSPFv3
NextHop : FE80::2A0:FCFF:FE00:5815 Preference: 10
Interface : HGE1/0/1 Cost : 2
Destination: 2::/64 Protocol : OSPFv3
NextHop : FE80::2A0:FCFF:FE00:5815 Preference: 10
Interface : HGE1/0/1 Cost : 3
Destination: 3::/64 Protocol : Direct
NextHop : :: Preference: 0
Interface : HGE1/0/1 Cost : 0
Destination: 3::2/128 Protocol : Direct
NextHop : ::1 Preference: 0
Interface : InLoop0 Cost : 0
Destination: 4::/64 Protocol : OSPFv3
NextHop : FE80::2A0:FCFF:FE00:5815 Preference: 10
Interface : HGE1/0/1 Cost : 3
Destination: 5::/64 Protocol : OSPFv3
NextHop : FE80::2A0:FCFF:FE00:5815 Preference: 150
Interface : HGE1/0/1 Cost : 1
Destination: 11::/64 Protocol : Direct
NextHop : :: Preference: 0
Interface : Loop0 Cost : 0
Destination: 11::1/128 Protocol : Direct
NextHop : ::1 Preference: 0
Interface : InLoop0 Cost : 0
Destination: 12::/64 Protocol : Direct
NextHop : :: Preference: 0
Interface : Loop1 Cost : 0
Destination: 12::1/128 Protocol : Direct
NextHop : ::1 Preference: 0
Interface : InLoop0 Cost : 0
Destination: 13::1/128 Protocol : OSPFv3
NextHop : FE80::2A0:FCFF:FE00:5815 Preference: 10
Interface : HGE1/0/1 Cost : 3
Destination: FE80::/10 Protocol : Direct
NextHop : :: Preference: 0
Interface : NULL0 Cost : 0
# Verify that the After-sale service department cannot reach Marketing department 2.
[DeviceD] ping ipv6 -a 11::1 15::1
Ping6(56 data bytes) 11::1 --> 15::1, press CTRL+C to break
Request time out
Request time out
Request time out
Request time out
Request time out
--- Ping6 statistics for 15::1 ---
5 packet(s) transmitted, 0 packet(s) received, 100.0% packet loss
# Verify that R&D department 1 cannot reach Marketing department 2.
[DeviceD] ping ipv6 -a 12::1 15::1
Ping6(56 data bytes) 12::1 --> 15::1, press CTRL+C to break
Request time out
Request time out
Request time out
Request time out
Request time out
--- Ping6 statistics for 15::1 ---
5 packet(s) transmitted, 0 packet(s) received, 100.0% packet loss
The output on Device C and Device D shows that Device E has filtered out the route destined for R&D development 2.
Configuration files
· Device A:
#
ospfv3 1
router-id 6.6.6.6
area 0.0.0.0
area 0.0.0.1
area 0.0.0.2
#
interface HundredGigE1/0/1
ospfv3 1 area 0.0.0.0
ipv6 address 1::1/64
#
interface HundredGigE1/0/2
ospfv3 1 area 0.0.0.2
ipv6 address 2::1/64
#
interface HundredGigE1/0/3
ospfv3 1 area 0.0.0.1
ipv6 address 4::1/64
#
· Device B:
#
ospfv3 1
router-id 5.5.5.5
area 0.0.0.0
area 0.0.0.3
#
interface HundredGigE1/0/1
ospfv3 1 area 0.0.0.0
ipv6 address 1::2/64
#
interface HundredGigE1/0/2
ospfv3 1 area 0.0.0.3
ipv6 address 3::1/64
#
· Device C:
#
ospfv3 1
router-id 4.4.4.4
filter-policy 2000 import
area 0.0.0.2
#
interface LoopBack0
ospfv3 1 area 0.0.0.2
ipv6 address 13::1/64
#
interface HundredGigE1/0/1
ospfv3 1 area 0.0.0.2
ipv6 address 2::2/64
#
acl ipv6 basic 2000
rule 0 deny source 12::/64
rule 5 permit
#
· Device D:
#
ospfv3 1
router-id 3.3.3.3
filter-policy 2000 import
area 0.0.0.3
#
interface LoopBack0
ospfv3 1 area 0.0.0.3
ipv6 address 11::1/64
#
interface LoopBack1
ospfv3 1 area 0.0.0.3
ipv6 address 12::1/64
#
interface HundredGigE1/0/1
ospfv3 1 area 0.0.0.3
ipv6 address 3::2/64
#
acl ipv6 basic 2000
rule 0 deny source 15::/64
rule 5 permit
#
· Device E:
#
ospfv3 1
router-id 2.2.2.2
import-route direct
import-route ripng 1
filter-policy 2000 export ripng 1
area 0.0.0.1
#
ripng 1
import-route direct
import-route ospfv3 1
#
interface HundredGigE1/0/1
ospfv3 1 area 0.0.0.1
ipv6 address 4::2/64
#
interface HundredGigE1/0/2
ipv6 address 5::1/64
ripng 1 enable
#
acl ipv6 basic 2000
rule 0 deny source 14::/64
rule 5 permit
#
· Device F:
#
ripng 1
#
interface LoopBack0
ipv6 address 14::1/64
ripng 1 enable
#
interface LoopBack1
ipv6 address 15::1/64
ripng 1 enable
#
interface HundredGigE1/0/1
ipv6 address 5::2/64
ripng 1 enable
#
Related documentation
· H3C S12500R Switch Router Series Layer 3—IP Routing Command Reference-R3606
· H3C S12500R Switch Router Series Layer 3—IP Routing Configuration Guide-R3606
