华为运营商级路由器配置示例 | 公网IPv6 over SRv6 TE Policy
组网需求
如图1所示:PE1、P和PE2属于同一自治系统,要求它们之间通过IS-IS协议达到IPv6网络互连的目的。PE1、P和PE2属于IS-IS进程1,都是Level-1设备。PE1与PE2之间部署IBGP邻居,PE和Device之间部署EBGP邻居。
要求在PE1和PE2之间建立双向SRv6 TE Policy路径,承载公网IPv6业务。
图1 配置公网IPv6 over SRv6 TE Policy组网图
配置思路
- 使能PE1、P和PE2各接口的IPv6转发能力,配置各接口的IPv6地址。
- 在PE1、P和PE2上使能IS-IS,配置Level级别,指定网络实体名称。
- 在PE和Device之间建立EBGP对等体关系。
- 在PE之间建立MP-IBGP对等体关系。
- 在PE1和PE2上配置SRv6 TE Policy;配置IS-IS的SRv6能力。End.DT6 SID采用BGP动态分配。
操作步骤
1.使能各接口的IPv6能力,配置IPv6地址,以PE1为例,其他路由器的配置过程相同,不再赘述
<HUAWEI> system-view
[~HUAWEI] sysname PE1
[*HUAWEI] commit
[~PE1] interface gigabitethernet 1/0/0
[~PE1-GigabitEthernet1/0/0] ipv6 enable
[*PE1-GigabitEthernet1/0/0] ipv6 address 2001:DB8:10::1 64
[*PE1-GigabitEthernet1/0/0] quit
[*PE1] interface gigabitethernet 2/0/0
[*PE1-GigabitEthernet2/0/0] ipv6 enable
[*PE1-GigabitEthernet2/0/0] ipv6 address 2001:DB8:11::2 64
[*PE1-GigabitEthernet2/0/0] quit
[*PE1] interface loopback1
[*PE1-LoopBack1] ipv6 enable
[*PE1-LoopBack1] ipv6 address 2001:DB8:1::1 128
[*PE1-LoopBack1] commit
[~PE1-LoopBack1] quit
2.配置IS-IS
# 配置PE1。
[~PE1] isis 1
[*PE1-isis-1] is-level level-1
[*PE1-isis-1] cost-style wide
[*PE1-isis-1] network-entity 10.0000.0000.0001.00
[*PE1-isis-1] ipv6 enable topology ipv6
[*PE1-isis-1] quit
[*PE1] interface gigabitethernet 1/0/0
[*PE1-GigabitEthernet1/0/0] isis ipv6 enable 1
[*PE1-GigabitEthernet1/0/0] quit
[*PE1] interface loopback1
[*PE1-LoopBack1] isis ipv6 enable 1
[*PE1-LoopBack1] commit
[~PE1-LoopBack1] quit
# 配置P。
[~P] isis 1
[*P-isis-1] is-level level-1
[*P-isis-1] cost-style wide
[*P-isis-1] network-entity 10.0000.0000.0002.00
[*P-isis-1] ipv6 enable topology ipv6
[*P-isis-1] quit
[*P] interface gigabitethernet 1/0/0
[*P-GigabitEthernet1/0/0] isis ipv6 enable 1
[*P-GigabitEthernet1/0/0] quit
[*P] interface gigabitethernet 2/0/0
[*P-GigabitEthernet2/0/0] isis ipv6 enable 1
[*P-GigabitEthernet2/0/0] commit
[~P-GigabitEthernet2/0/0] quit
# 配置PE2。
[~PE2] isis 1
[*PE2-isis-1] is-level level-1
[*PE2-isis-1] cost-style wide
[*PE2-isis-1] network-entity 10.0000.0000.0003.00
[*PE2-isis-1] ipv6 enable topology ipv6
[*PE2-isis-1] quit
[*PE2] interface gigabitethernet 1/0/0
[*PE2-GigabitEthernet1/0/0] isis ipv6 enable 1
[*PE2-GigabitEthernet1/0/0] quit
[*PE2] interface loopback1
[*PE2-LoopBack1] isis ipv6 enable 1
[*PE2-LoopBack1] commit
[~PE2-LoopBack1] quit
配置完成后,可按如下指导检查IS-IS是否配置成功。
# 显示IS-IS邻居信息。以PE1为例。
[~PE1] display isis peerPeer information for ISIS(1)System Id Interface Circuit Id State HoldTime Type PRI
--------------------------------------------------------------------------------
0000.0000.0002 GE1/0/0 0000.0000.0002.01 Up 8s L1 64 Total Peer(s): 1
# 显示IS-IS路由表信息。以PE1为例。
[~PE1] display isis routeRoute information for ISIS(1)-----------------------------ISIS(1) Level-1 Forwarding Table--------------------------------IPV6 Dest. ExitInterface NextHop Cost Flags
------------------------------------------------------------------------------------------
2001:DB8:1::1/128 Loop1 Direct 0 D/-/L/-
2001:DB8:2::2/128 GE1/0/0 FE80::3ABD:6CFF:FE31:306 20 A/-/-/-
2001:DB8:10::/64 GE1/0/0 Direct 10 D/-/L/-
2001:DB8:20::/64 GE1/0/0 FE80::3ABD:6CFF:FE31:306 20 A/-/-/-Flags: D-Direct, A-Added to URT, L-Advertised in LSPs, S-IGP Shortcut,U-Up/Down Bit Set, LP-Local Prefix-SidProtect Type: L-Link Protect, N-Node Protect
3.在PE与Device之间建立EBGP对等体关系
# 配置DeviceA。
[~DeviceA] bgp 200
[*DeviceA-bgp] router-id 4.4.4.4
[*DeviceA-bgp] peer 2001:DB8:11::2 as-number 100
[*DeviceA-bgp] ipv6-family unicast
[*DeviceA-bgp-af-ipv6] peer 2001:DB8:11::2 enable
[*DeviceA-bgp-af-ipv6] commit
[~DeviceA-bgp-af-ipv6] quit
[~DeviceA-bgp] quit
# 配置PE1。
[~PE1] bgp 100
[*PE1-bgp] router-id 1.1.1.1
[*PE1-bgp] peer 2001:DB8:11::1 as-number 200
[*PE1-bgp] ipv6-family unicast
[*PE1-bgp-af-ipv6] peer 2001:DB8:11::1 enable
[*PE1-bgp-af-ipv6] network 2001:DB8:11::1 64
[*PE1-bgp-af-ipv6] commit
[~PE1-bgp-af-ipv6] quit
[~PE1-bgp] quit
# 配置DeviceB。
[~DeviceB] bgp 300
[*DeviceB-bgp] router-id 5.5.5.5
[*DeviceB-bgp] peer 2001:DB8:22::2 as-number 100
[*DeviceB-bgp] ipv6-family unicast
[*DeviceB-bgp-af-ipv6] peer 2001:DB8:22::2 enable
[*DeviceB-bgp-af-ipv6] commit
[~DeviceB-bgp-af-ipv6] quit
[~DeviceB-bgp] quit
# 配置PE2。
[~PE2] bgp 100
[*PE2-bgp] router-id 2.2.2.2
[*PE2-bgp] peer 2001:DB8:22::1 as-number 300
[*PE2-bgp] ipv6-family unicast
[*PE2-bgp-af-ipv6] peer 2001:DB8:22::1 enable
[*PE2-bgp-af-ipv6] network 2001:DB8:22::1 64
[*PE2-bgp-af-ipv6] commit
[~PE2-bgp-af-ipv6] quit
[~PE2-bgp] quit
配置完成后,在PE设备上执行display bgp ipv6 peer命令,可以看到PE与Device之间的BGP对等体关系已建立,并达到Established状态。
以PE1与DeviceA的对等体关系为例:
[~PE1] display bgp ipv6 peerBGP local router ID : 1.1.1.1Local AS number : 100Total number of peers : 1 Peers in established state : 1Peer V AS MsgRcvd MsgSent OutQ Up/Down State PrefRcv2001:DB8:11::1 4 200 1624 1622 0 00:06:37 Established 1
4.在PE之间建立MP-IBGP对等体关系
# 配置PE1。
[~PE1] bgp 100
[~PE1-bgp] peer 2001:DB8:2::2 as-number 100
[*PE1-bgp] peer 2001:DB8:2::2 connect-interface loopback1
[*PE1-bgp] ipv6-family unicast
[*PE1-bgp-af-ipv6] peer 2001:DB8:2::2 enable
[*PE1-bgp-af-ipv6] peer 2001:DB8:2::2 next-hop-local
[*PE1-bgp-af-ipv6] commit
[~PE1-bgp-af-ipv6] quit
[~PE1-bgp] quit
# 配置PE2。
[~PE2] bgp 100
[~PE2-bgp] peer 2001:DB8:1::1 as-number 100
[*PE2-bgp] peer 2001:DB8:1::1 connect-interface loopback1
[*PE2-bgp] ipv6-family unicast
[*PE2-bgp-af-ipv6] peer 2001:DB8:1::1 enable
[*PE2-bgp-af-ipv6] peer 2001:DB8:1::1 next-hop-local
[*PE2-bgp-af-ipv6] commit
[~PE1-bgp-af-ipv6] quit
[~PE2-bgp] quit
配置完成后,在PE设备上执行display bgp ipv6 peer命令,可以看到PE之间的BGP对等体关系已建立,并达到Established状态。以PE1的显示为例:
[~PE1] display bgp ipv6 peer BGP local router ID : 1.1.1.1 Local AS number : 100 Total number of peers : 2 Peers in established state : 2 Peer V AS MsgRcvd MsgSent OutQ Up/Down State PrefRcv 2001:DB8:11::1 4 200 10 11 0 00:05:15 Established 2 2001:DB8:2::2 4 100 10 11 0 00:05:15 Established 2
5.在PE上配置公网路由携带Color属性和SID属性
# 配置PE1。
[~PE1] segment-routing ipv6
[*PE1-segment-routing-ipv6] encapsulation source-address 2001:DB8:1::1
[*PE1-segment-routing-ipv6] locator aa ipv6-prefix 2001:DB8:100:: 64 static 32
[*PE1-segment-routing-ipv6-locator] opcode ::100 end psp
[*PE1-segment-routing-ipv6-locator] quit
[*PE1-segment-routing-ipv6] quit
[*PE1] isis 1
[*PE1-isis-1] segment-routing ipv6 locator aa
[*PE1-isis-1] quit
[*PE1] route-policy color permit node 10
[*PE1-route-policy] apply extcommunity color 0:101
[*PE1-route-policy] quit
[~PE1] bgp 100
[*PE1-bgp] ipv6-family unicast
[*PE1-bgp-af-ipv6] peer 2001:DB8:2::2 route-policy color export
[*PE1-bgp-af-ipv6] peer 2001:DB8:2::2 advertise-ext-community
[*PE1-bgp-af-ipv6] peer 2001:DB8:2::2 prefix-sid
[*PE1-bgp-af-ipv6] segment-routing ipv6 locator aa
[*PE1-bgp-af-ipv6] commit
[~PE1-bgp-af-ipv6] quit
[~PE1-bgp] quit
# 配置PE2。
[~PE2] segment-routing ipv6
[*PE2-segment-routing-ipv6] encapsulation source-address 2001:DB8:2::2
[*PE2-segment-routing-ipv6] locator aa ipv6-prefix 2001:DB8:200:: 64 static 32
[*PE2-segment-routing-ipv6-locator] opcode ::100 end psp
[*PE2-segment-routing-ipv6-locator] quit
[*PE2-segment-routing-ipv6] quit
[*PE2] isis 1
[*PE2-isis-1] segment-routing ipv6 locator aa
[*PE2-isis-1] quit
[*PE2] route-policy color permit node 10
[*PE2-route-policy] apply extcommunity color 0:101
[*PE2-route-policy] quit
[~PE2] bgp 100
[~PE2-bgp] ipv6-family unicast
[*PE2-bgp-af-ipv6] peer 2001:DB8:1::1 route-policy color export
[*PE2-bgp-af-ipv6] peer 2001:DB8:1::1 advertise-ext-community
[*PE2-bgp-af-ipv6] peer 2001:DB8:1::1 prefix-sid
[*PE2-bgp-af-ipv6] segment-routing ipv6 locator aa
[*PE2-bgp-af-ipv6] commit
[~PE2-bgp-af-ipv6] quit
[~PE2-bgp] quit
执行命令display segment-routing ipv6 local-sid end forwarding查看SRv6的Local SID表信息。
[~PE1] display segment-routing ipv6 local-sid end forwardingMy Local-SID End Forwarding Table --------------------------------- SID : 2001:DB8:100::100/128 FuncType : End
Flavor : PSP
LocatorName : aa LocatorID : 2
ProtocolType: STATIC ProcessID : --
UpdateTime : 2021-08-30 03:57:38.782 SID : 2001:DB8:100::1:0:1/128 FuncType : End
Flavor : NO-FLAVOR
LocatorName : aa LocatorID : 2
ProtocolType: ISIS ProcessID : 1
UpdateTime : 2021-08-30 04:02:38.500 SID : 2001:DB8:100::1:0:2/128 FuncType : End
Flavor : PSP USP USD
LocatorName : aa LocatorID : 2
ProtocolType: ISIS ProcessID : 1
UpdateTime : 2021-08-30 04:02:38.500 Total SID(s): 3
[~PE2] display segment-routing ipv6 local-sid end forwardingMy Local-SID End Forwarding Table --------------------------------- SID : 2001:DB8:200::100/128 FuncType : End
Flavor : PSP
LocatorName : aa LocatorID : 1
ProtocolType: STATIC ProcessID : --
UpdateTime : 2021-08-30 03:58:56.659 SID : 2001:DB8:200::1:0:0/128 FuncType : End
Flavor : NO-FLAVOR
LocatorName : aa LocatorID : 1
ProtocolType: ISIS ProcessID : 1
UpdateTime : 2021-08-30 03:58:58.649 SID : 2001:DB8:200::1:0:1/128 FuncType : End
Flavor : PSP USP USD
LocatorName : aa LocatorID : 1
ProtocolType: ISIS ProcessID : 1
UpdateTime : 2021-08-30 03:58:58.649 Total SID(s): 3
执行display segment-routing ipv6 local-sid end-dt6 forwarding命令查看SRv6的Local SID表信息。以PE1为例:
[~PE1] display segment-routing ipv6 local-sid end-dt6 forwardingMy Local-SID End.DT6 Forwarding Table-------------------------------------SID : 2001:DB8:100::1:0:3E/128 FuncType : End.DT6
VPN Name : _public_ VPN ID : 0
LocatorName: aa LocatorID: 1Total SID(s): 1
执行display bgp ipv6 routing-table命令,可以看到BGP路由表信息。以PE2的显示为例:
[~PE2] display bgp ipv6 routing-table 2001:DB8:11::1 BGP local router ID : 2.2.2.2Local AS number : 100Paths: 1 available, 1 best, 1 select, 0 best-external, 0 add-pathBGP routing table entry information of 2001:DB8:11::0/64:From: 2001:DB8:1::1 (1.1.1.1)Route Duration: 0d00h02m24sRelay IP Nexthop: FE80::3ABD:6CFF:FE31:300Relay IP Out-Interface: GigabitEthernet1/0/0Relay Tunnel Out-Interface:Original nexthop: 2001:DB8:1::1Qos information : 0x0Ext-Community: Color <0 : 101>Prefix-sid: 2001:DB8:100::1:0:3EAS-path Nil, origin igp, MED 0, localpref 100, pref-val 0, valid, internal, best, select, pre 255Advertised to such 1 peers:2001:DB8:22::1
6.配置SRv6 TE Policy
# 配置PE1。
[~PE1] segment-routing ipv6
[~PE1-segment-routing-ipv6] segment-list list1
[*PE1-segment-routing-ipv6-segment-list-list1] index 5 sid ipv6 2001:DB8:200::100
[*PE1-segment-routing-ipv6-segment-list-list1] quit
[*PE1-segment-routing-ipv6] srv6-te policy policy1 endpoint 2001:DB8:2::2 color 101
[*PE1-segment-routing-ipv6-policy-policy1] candidate-path preference 100
[*PE1-segment-routing-ipv6-policy-policy1-path] segment-list list1
[*PE1-segment-routing-ipv6-policy-policy1-path] commit
[~PE1-segment-routing-ipv6-policy-policy1-path] quit
[~PE1-segment-routing-ipv6-policy-policy1] quit
[~PE1-segment-routing-ipv6] quit
# 配置PE2。
[~PE2] segment-routing ipv6
[~PE2-segment-routing-ipv6] segment-list list1
[*PE2-segment-routing-ipv6-segment-list-list1] index 5 sid ipv6 2001:DB8:100::100
[*PE2-segment-routing-ipv6-segment-list-list1] quit
[*PE2-segment-routing-ipv6] srv6-te policy policy1 endpoint 2001:DB8:1::1 color 101
[*PE2-segment-routing-ipv6-policy-policy1] candidate-path preference 100
[*PE2-segment-routing-ipv6-policy-policy1-path] segment-list list1
[*PE2-segment-routing-ipv6-policy-policy1-path] commit
[~PE2-segment-routing-ipv6-policy-policy1-path] quit
[~PE2-segment-routing-ipv6-policy-policy1] quit
[~PE2-segment-routing-ipv6] quit
执行命令display srv6-te policy查看SRv6 TE Policy信息。以PE1的显示为例:
[~PE1] display srv6-te policy
PolicyName : policy1
Color : 101 Endpoint : 2001:DB8:2::2
TunnelId : 1 Binding SID : -
TunnelType : SRv6-TE Policy DelayTimerRemain : -
Policy State : Up State Change Time : 2021-03-25 13:13:36
Admin State : Up Traffic Statistics : Disable
Backup Hot-Standby : Disable BFD : Disable
Interface Index : - Interface Name : -
Interface State : - Encapsulation Mode : Insert
Candidate-path Count : 1Candidate-path Preference : 100Path State : Active Path Type : PrimaryProtocol-Origin : Configuration(30) Originator : 0, 0.0.0.0Discriminator : 100 Binding SID : -GroupId : 1 Policy Name : policy1Template ID : 0 Path Verification : DisableDelayTimerRemain : -Segment-List Count : 1Segment-List : list1Segment-List ID : 2 XcIndex : 2List State : Up DelayTimerRemain : -Verification State : - SuppressTimeRemain : -PMTU : 9600 Active PMTU : 9600Weight : 1 BFD State : -SID :2001:DB8:200::100
7.配置隧道策略,引入公网流量
# 配置PE1。
[~PE1] tunnel-policy p1
[*PE1-tunnel-policy-p1] tunnel select-seq ipv6 srv6-te-policy load-balance-number 1
[*PE1-tunnel-policy-p1] quit
[*PE1] tunnel-selector p1 permit node 1
[*PE1-tunnel-selector] apply tunnel-policy p1
[*PE1-tunnel-selector] quit
[*PE1] bgp 100
[*PE1-bgp] ipv6-family unicast
[*PE1-bgp-af-ipv6] unicast-route recursive-lookup tunnel-v6 tunnel-selector p1
[*PE1-bgp-af-ipv6] segment-routing ipv6 traffic-engineer
[*PE1-bgp-af-ipv6] commit
[~PE1-bgp-af-ipv6] quit
[~PE1-bgp] quit
# 配置PE2。
[~PE2] tunnel-policy p1
[*PE2-tunnel-policy-p1] tunnel select-seq ipv6 srv6-te-policy load-balance-number 1
[*PE2-tunnel-policy-p1] quit
[*PE2] tunnel-selector p1 permit node 1
[*PE2-tunnel-selector] apply tunnel-policy p1
[*PE2-tunnel-selector] quit
[*PE2] bgp 100
[*PE2-bgp] ipv6-family unicast
[*PE2-bgp-af-ipv6] unicast-route recursive-lookup tunnel-v6 tunnel-selector p1
[*PE2-bgp-af-ipv6] segment-routing ipv6 traffic-engineer
[*PE2-bgp-af-ipv6] commit
[~PE2-bgp-af-ipv6] quit
[~PE2-bgp] quit
配置完成后,执行display bgp ipv6 routing-table命令,可以看到BGP路由表信息。以PE2的显示为例:
[~PE2] display bgp ipv6 routing-table 2001:DB8:11::1 BGP local router ID : 2.2.2.2Local AS number : 100Paths: 1 available, 1 best, 1 select, 0 best-external, 0 add-pathBGP routing table entry information of 2001:DB8:11::0/64:From: 2001:DB8:1::1 (1.1.1.1)Route Duration: 0d00h39m53sRelay IP Nexthop: FE80::3A83:DEFF:FE21:301Relay IP Out-Interface: GigabitEthernet1/0/0Relay Tunnel Out-Interface: policy1(srv6tepolicy)Original nexthop: 2001:DB8:1::1Qos information : 0x0Ext-Community: Color <0 : 101>Prefix-sid: 2001:DB8:100::1:0:3EAS-path Nil, origin igp, MED 0, localpref 100, pref-val 0, valid, internal, best, select, pre 255Advertised to such 1 peers:2001:DB8:22::1
执行命令display ipv6 routing-table查看IPv6路由表信息,可以看到公网IPv6路由已经成功迭代到SRv6 TE Policy。
以PE1的显示为例:
[~PE1] display ipv6 routing-table
Routing Table : _public_Destinations : 10 Routes : 10Destination : 2001:DB8:1::1 PrefixLength : 128
NextHop : ::1 Preference : 0
Cost : 0 Protocol : Direct
RelayNextHop : :: TunnelID : 0x0
Interface : LoopBack1 Flags : DDestination : 2001:DB8:2::2 PrefixLength : 128
NextHop : FE80::3A03:6DFF:FE21:300 Preference : 15
Cost : 20 Protocol : ISIS-L1
RelayNextHop : :: TunnelID : 0x0
Interface : GigabitEthernet1/0/0 Flags : DDestination : 2001:DB8:10:: PrefixLength : 96
NextHop : 2001:DB8:10::1 Preference : 0
Cost : 0 Protocol : Direct
RelayNextHop : :: TunnelID : 0x0
Interface : GigabitEthernet1/0/0 Flags : DDestination : 2001:DB8:10::1 PrefixLength : 128
NextHop : ::1 Preference : 0
Cost : 0 Protocol : Direct
RelayNextHop : :: TunnelID : 0x0
Interface : GigabitEthernet1/0/0 Flags : DDestination : 2001:DB8:11:: PrefixLength : 64
NextHop : 2001:DB8:11::2 Preference : 0
Cost : 0 Protocol : Direct
RelayNextHop : :: TunnelID : 0x0
Interface : GigabitEthernet2/0/0 Flags : DDestination : 2001:DB8:11::2 PrefixLength : 128
NextHop : ::1 Preference : 0
Cost : 0 Protocol : Direct
RelayNextHop : :: TunnelID : 0x0
Interface : GigabitEthernet2/0/0 Flags : DDestination : 2001:DB8:20:: PrefixLength : 96
NextHop : FE80::3A03:6DFF:FE21:300 Preference : 15
Cost : 20 Protocol : ISIS-L1
RelayNextHop : :: TunnelID : 0x0
Interface : GigabitEthernet2/0/0 Flags : DDestination : 2001:DB8:22:: PrefixLength : 64
NextHop : 2001:DB8:2::2 Preference : 255
Cost : 0 Protocol : IBGP
RelayNextHop : :: TunnelID : 0x000000003400000001
Interface : policy1 Flags : RDDestination : 2001:DB8:100:: PrefixLength : 64
NextHop : :: Preference : 15
Cost : 0 Protocol : ISIS-L1
RelayNextHop : :: TunnelID : 0x0
Interface : NULL0 Flags : DBDestination : 2001:DB8:200:: PrefixLength : 64
NextHop : FE80::3A03:6DFF:FE21:300 Preference : 15
Cost : 20 Protocol : ISIS-L1
RelayNextHop : :: TunnelID : 0x0
Interface : GigabitEthernet1/0/0 Flags : D
Device之间能够相互Ping通,例如:
[~DeviceA] ping ipv6 -a 2001:DB8:11::1 2001:DB8:22::1PING 2001:DB8:22::1 : 56 data bytes, press CTRL_C to breakReply from 2001:DB8:22::1bytes=56 Sequence=1 hop limit=62 time=166 msReply from 2001:DB8:22::1bytes=56 Sequence=2 hop limit=62 time=10 msReply from 2001:DB8:22::1bytes=56 Sequence=3 hop limit=62 time=9 msReply from 2001:DB8:22::1bytes=56 Sequence=4 hop limit=62 time=11 msReply from 2001:DB8:22::1bytes=56 Sequence=5 hop limit=62 time=14 ms--- 2001:DB8:22::1 ping statistics---5 packet(s) transmitted5 packet(s) received0.00% packet lossround-trip min/avg/max=9/42/166 ms
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组网需求 如图1所示:PE1.P和PE2属于同一自治系统,要求它们之间通过IS-IS协议达到IPv6网络互连.然后在PE1和PE2之间通过建立双向SRv6 TE Policy承载EVPN E-LAN业 ...
- 华为运营商级路由器配置示例 | 公网IPv4 over SRv6 BE
组网需求 如图1所示:路由器PE1.P和PE2属于同一自治系统,要求它们之间通过IS-IS协议达到IPv6网络互连的目的.PE1.P和PE2属于IS-IS进程1,都是Level-1设备.PE1与PE2 ...
- 华为运营商级路由器配置示例 | 合集
VPN VPLS配置 配置静态方式VPLS示例 华为运营商级路由器配置示例 | 配置静态方式VPLS示例_COCO_gsta的博客-CSDN博客 配置LDP方式VPLS示例 华为运营商级路由器配置示例 ...
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组网需求 如图1所示: 路由器PE1.P1.P2和PE2属于同一自治系统,要求它们之间通过IS-IS协议达到IPv6网络互连的目的. PE1.P1.P2和PE2属于IS-IS进程1,都是Level-2 ...
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组网需求 如图1所示,CE2和CE3同时双归接入到PE2和PE3.要求CE1发往CE2的流量采用负载分担方式进行传输,而CE1发往CE3的流量采用非负载分担方式进行传输. 为了实现上述需求,可以基于E ...
- 华为运营商级路由器配置示例 | EVdPdNd VPLS over SRv6 BE(CE双归接入)
组网需求 如图1所示,CE2和CE3同时双归接入到PE2和PE3.要求CE1发往CE2的流量采用负载分担方式进行传输,而CE1发往CE3的流量采用非负载分担方式进行传输. 为了实现上述需求,可以基于E ...
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