Aruba JL850AAE Configuration Guide

Category
Networking
Type
Configuration Guide

This manual is also suitable for

i
IMC Orchestrator 6.2 DCI Configuration
Guide
The information in this document is subject to change without notice.
© Copyright 2022 Hewlett Packard Enterprise Development LP
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Contents
Overview ························································································1
Configure controller-deployed DCI ·······················································3
Deployment workflows ·················································································································· 3
Network planning ························································································································· 6
Network topology ·················································································································· 6
Resource plan ···················································································································· 11
Procedure ································································································································· 13
Configure underlay network basic settings ··············································································· 13
Configure basic security service resource settings ····································································· 17
Pre-configure basic multicast settings ····················································································· 18
Configure controller basic settings ·························································································· 18
Configure overlay Layer 2 interconnection ················································································ 26
Configure overlay Layer 3 interconnection without firewall traversal ·············································· 31
Configure overlay Layer 3 interconnection with firewall traversal ·················································· 40
Configure Layer 2 multicast interconnection ············································································· 55
Configure Layer 3 multicast interconnection ············································································· 60
O&M monitoring ························································································································· 69
Configure Super Controller-deployed multi-DC interconnection ················ 70
Deployment workflows ················································································································ 70
Network planning ······················································································································· 71
Network topology ················································································································ 71
Resource plan ···················································································································· 76
Procedure ································································································································· 77
Configure underlay network basic settings ··············································································· 77
Configure basic security service resource settings ····································································· 80
Configure controller basic settings ·························································································· 81
Configure basic settings of Super Controller ············································································· 88
Configure overlay Layer 3 interconnection without firewall traversal ·············································· 93
Configure overlay Layer 3 interconnection without firewall traversal ············································ 100
Restrictions and guidelines ········································································································ 114
O&M monitoring ······················································································································· 114
1
Overview
EVPN VXLAN DCI uses a three-hop VXLAN tunnel:
The first hop is from the local DC leaf device to the local DC ED device.
The second hop is from the local DC ED device to the remote DC ED device.
The third hop is from the remote DC ED device to the remote DC leaf device.
To enable overlay Layer 2 VXLAN interconnection, Layer 3 VXLAN interconnection without firewall
traversal, and Layer 3 VXLAN interconnection with firewall traversal, establish EBGP neighbor
relationships between EDs and IBGP neighbors between EDs and devices in the DC, and configure
VXLAN mapping, route reorigination, PBR and other technologies. In different DCs, the same subnet
of the same tenant might use different VXLANs. When these DCs are interconnected, to ensure that
traffic between the same tenant and the same subnet is forwarded at Layer 2, VXLAN mapping
needs to be performed on the EDs. Modify the RD, L3VNI, and RTs in EVPN routes by using route
reorigination to achieve DC interconnection without exposing the L3 VNIs of DCs.
Detailed configuration is as follows:
Overlay Layer 2 VLAN interconnection—DC 1 EDs and DC 2 EDs map their local tenant
VXLANs to the same intermediate VXLAN. The EDs of both DCs exchange type-2 EVPN
routes for service interconnection of the same network segment in different DCs.
Overlay Layer 3 VXLAN interconnection without firewall traversalVPN mapping is
enabled on DC 1 EDs and DC 2 EDs. The import RTs of one VPN are the export RTs of the
other VPN, and vice versa. Route replication is performed on local tenant VPNs to enable
service interconnection between different network segments in different DCs.
Overlay Layer 3 VXLAN interconnection with firewall traversal—VPN mapping is enabled
on DC 1 EDs and DC 2 EDs. The import RTs of one VPN are the export RTs of the other
VPN, and vice versa. Route replication is performed on local tenant VPNs and PBR is used to
direct the traffic to the firewalls to ensure service security of different network segments in
different DCs.
Figure 1 Network diagram
Dedicated EDs, border devices collocated with EDs, and spine and border devices collocated with
EDs are available. To ensure availability, the two EDs of each DC form a DR system. The above
figure shows the spine and border devices collocated with EDs.
Spine-
Border1 Spine-
Border2
Leaf1 Leaf2 Leaf3 Leaf4
Server1 Server2 Server3 Server4
FW1 FW2
IPL
IPL IPL
Spine-
Border1 Spine-
Border2
Leaf1 Leaf2 Leaf3 Leaf4
Server1 Server2 Server3 Server4
FW1 FW2
IPL
IPL IPL
DC1 DC2
Internet
Internet
DCI
2
Basic underlay configurations for EDs are consistent with those for border devices. See IMC
Orchestrator 6.2 Solution Underlay Configuration Guide to complete the underlay configurations for
EDs. Then, manually configure EBGP neighbors and route reorigination.
This document introduces the following DCI solutions:
Controller-deployed DCI—This solution offers DCI Layer 2 interconnection and DCI Layer 3
interconnection with or without firewall traversal. This solution requires pre-configuration on
EDs and deployment from the controller.
Super Controller-deployed multi-DC interconnection—This solution offers DCI Layer 3
interconnection with or without firewall traversal. This solution requires the Super Controller
component to be deployed on the IMC PLAT in one DC. Super Controller will act as the upper
level controller to manage the SDN controller clusters of multiple DCs. It automates EBGP
connection setup between multiple sites to simplify configuration. This solution requires pre-
configuration on EDs and deployment from Super Controller.
3
Configure controller-deployed DCI
If route reduction is configured, reserve one interface for the service loopback group feature on each
ED. Do not use those interfaces for any other purposes.
Deployment workflows
Overlay Layer 2 interconnect deployment workflow
Figure 2 Deployment workflow
Overlay Layer 3 interconnect without firewall traversal deployment workflow
Figure 3 Deployment workflow
Configure basic controller Settings
Configure basic underlay network
Settings Configure the tenant external
network
Configure the tenant network
Add a border device group
Bind the tenant to a border
gateway
Add Layer 2 DC interconnect
Configure DCI End
Required sub-process
Required main process
Add a fabric
Configure a VDS
Add physical devices
Add an IP address pool
Add a VLAN pool
Add a tenant
Bind the border gateway to the
vRouter
Add a vNetwork
Add a vRouter
Start
Configure basic controller Settings
Configure basic underlay network
Settings Configure the tenant external
network
Configure the tenant network
Add a border device group
Bind the tenant to a border
gateway
Add Layer 3 DC interconnect
Configure DCI End
Required sub-process
Required main process
Add a fabric
Configure a VDS
Add physical devices
Add an IP address pool
Add a VLAN pool
Add a tenant
Bind the border gateway to the
vRouter
Add a vNetwork
Add a vRouter
Start
4
Overlay Layer 3 interconnect with firewall traversal deployment workflow
Figure 4 Deployment workflow
Layer 2 multicast interconnection deployment workflow
Figure 5 Deployment workflow
Configure basic controller Settings
Configure basic underlay network
Settings Configure the tenant external
network
Configure the tenant network
Add a border device group
Configure a FW resource pool and
template
Add Layer 3 DC interconnect
Configure DCI End
Required sub-process
Required main process
Add a fabric
Configure a VDS
Add physical devices
Add an IP address pool
Add a VLAN pool
Add a tenant
Add an egress gateway
Add a vNetwork
Add a vRouter
Start
Add an external network
Bind the tenant to a border
gateway
Bind the egress gateway to the
vRouter
Bind the vRouter to the external
network
Create a FW resource for the
tenant
Add a FW
Bind the FW resource to the
vRouter
Configure basic security service
resource Settings
Configure basic underlay network
Settings Configure the tenant network
Configure basic controller Settings End
Required sub-process
Required main process
Configure the tenant gateway and
service resources
Bind the vRouter to the border
gateway
Start
Add a fabric
Configure a VDS
Add a border device group
Add a border gateway
Add a VLAN-VXLAN mapping
Add a tenant
Bind the tenant to the border
gateway
Add a vNetwork
Add a vRouter
Configure DCI
Add a Layer 2 DC interconnect
5
Layer 3 multicast interconnection deployment workflow
Figure 6 Deployment workflow
Note: If firewalls are disabled, services might not be isolated. For example, there are two subnets
under a vRouter. Subnet A is configured with Layer 2 DCI, Subnet B is configured with Layer 3 DCI,
and peer DC Subnet C is configured with Layer 3 DCI to interconnect with Subnet B. In this scenario,
Subnet C can also communicate with Subnet A. They cannot be isolated.#
Configure basic security service
resource Settings
Configure basic underlay network
Settings Configure the tenant network
Configure basic controller Settings End
Required sub-process
Required main process
Configure the tenant gateway and
service resources
Bind the vRouter to the border
gateway
Start
Add a fabric
Configure a VDS
Add a border device group
Add a border gateway
Add a VLAN-VXLAN mapping
Add a tenant
Bind the tenant to the border
gateway
Add a vNetwork
Add a vRouter
Configure DCI
Add a Layer 3 DC interconnect
Configure Layer 3 multicast
6
Network planning
Three network models are supported: dedicated EDs, border devices collocated with EDs, and spine
and border devices collocated with EDs. The three network models have the same overlay
configuration with different underlay configurations.
Network topology
Dedicated EDs network diagram
The dedicated EDs model supports overlay Layer 2 interconnect scenario and overlay Layer 3
interconnect without firewall traversal scenarios, but does not support the overlay Layer 3
interconnect with firewall traversal scenario.
Figure 7 Dedicated EDs
For the connection s between switching devices, see IMC Orchestrator 6.2 Underlay Network
Configuration Guide. For planning of the management and service IP addresses of the devices, see
Table 1.
Table 1 IP assignment
Device
Management IP
addresses
ED 1 (DC 1)
192.168.11.10/24
ED 2 (DC 1)
192.168.11.11/24
Internet
Border1 Border2
Leaf1 Leaf2 Leaf3 Leaf4
Server1 Server2 Server3 Server4
IPL
IPL IPL
Spine1 Spine2
ED1 ED2
IPL
Internet
Border1 Border2
Leaf1 Leaf2 Leaf3 Leaf4
Server1 Server2 Server3 Server4
IPL
IPL IPL
Spine1 Spine2
ED1 ED2
IPL
DC1 DC2
ED1
DCI switch
7
Device
Management IP
addresses
Spine 1 (DC 1)
192.168.11.2/24
Spine 2 (DC 1)
192.168.11.3/24
Leaf 1 (DC 1)
192.168.11.4/24
Leaf 2 (DC 1)
192.168.11.5/24
Leaf 3 (DC 1)
192.168.11.6/24
Leaf 4 (DC 1)
192.168.11.7/24
ED 1 (DC 2)
192.168.21.10/24
ED 2 (DC 2)
192.168.21.11/24
Spine 1 (DC 2)
192.168.21.2/24
Spine 2 (DC 2)
192.168.21.3/24
Leaf 1 (DC 2)
192.168.21.4/24
Leaf 2 (DC 2)
192.168.21.5/24
Leaf 3 (DC 2)
192.168.21.6/24
Leaf 4 (DC 2)
192.168.21.7/24
Border devices collocated with EDs
Border 1 and Border 2 for a DR system. Border devices connect with DCI devices through Layer 3
interfaces and connect FW and external network devices through DR interfaces.
Border devices collocated with EDs supports overlay Layer 2 interconnect and overlay Layer 3
interconnect with or without firewall traversal scenarios.
Figure 8 Border devices collocated with EDs
Internet
Border1 Border2
Leaf1 Leaf2 Leaf3 Leaf4
Server1 Server2 Server3 Server4
FW1 FW2
IPL
IPL IPL
Spine1 Spine2
Internet
Border1 Border2
Leaf1 Leaf2 Leaf3 Leaf4
Server1 Server2 Server3 Server4
FW1 FW2
IPL
IPL IPL
Spine1 Spine2
DC1 DC2
Uplink
Downlink DCI switch
8
For the connections between switching devices, see IMC Orchestrator 6.2 Underlay Network
Configuration Guide for planning. For planning of the management and service IP addresses of the
devices, see Table 2.
Table 2 IP assignment
Device
Management IP
addresses
Service IP addresses
Border 1 (DC1)
192.168.11.8/24
VTEP IP: 10.1.1.8/24
Interconnection IP with DCI switch: 12.1.1.1/30
Interconnection interface with DCI switch: Ten-
GigabitEthernet1/0/17
Interface reserved for route reduction: Ten-
GigabitEthernet1/0/44
The connection with FW interfaces is shown in Table 3.
Border 2 (DC1)
192.168.11.9/24
VTEP IP: 10.1.1.9/24
Interconnection IP with DCI switch: 12.1.1.5/30
Interconnection interface with DCI switch: Ten-
GigabitEthernet1/0/17
Interface reserved for route reduction: Ten-
GigabitEthernet1/0/44
The connection with FW interfaces is shown in Table 3.
Spine 1 (DC1)
192.168.11.2/24
VTEP IP: 10.1.1.2/24
Spine 2 (DC1)
192.168.11.3/24
VTEP IP: 10.1.1.3/24
Leaf 1 (DC1)
192.168.11.4/24
VTEP IP: 10.1.1.4/24
Leaf 2 (DC1)
192.168.11.5/24
VTEP IP: 10.1.1.5/24
Leaf 3 (DC1)
192.168.11.6/24
VTEP IP: 10.1.1.6/24
Leaf 4 (DC1)
192.168.11.7/24
VTEP IP: 10.1.1.7/24
FW 1 (DC1)
192.168.11.12/24
/
FW 2 (DC1)
192.168.11.13/24
/
Border 1 (DC2)
192.168.21.8/24
VTEP IP: 10.1.2.8/24
Interconnection IP with DCI switch: 12.1.1.9/30
Border 2 (DC2)
192.168.21.9/24
VTEP IP: 10.1.2.9/24
Interconnection IP with DCI switch: 12.1.1.13/30
Spine 1 (DC2)
192.168.21.2/24
VTEP IP: 10.1.2.2/24
Spine 2 (DC2)
192.168.21.3/24
VTEP IP: 10.1.2.3/24
Leaf 1 (DC2)
192.168.21.4/24
VTEP IP: 10.1.2.4/24
Leaf 2 (DC2)
192.168.21.5/24
VTEP IP: 10.1.2.5/24
Leaf 3 (DC2)
192.168.21.6/24
VTEP IP: 10.1.2.6/24
Leaf 4 (DC2)
192.168.21.7/24
VTEP IP: 10.1.2.7/24
FW 1 (DC2)
192.168.21.12/24
The connection with border interfaces is shown in Table 3.
FW 2 (DC2)
192.168.21.13/24
The connection with border interfaces is shown in Table 3.
The connections of service interfaces between the border devices and FWs are shown in Table 3:
9
Table 3 Service interface aggregation between the border devices and FWs
FW
Border
Downlink interfaces:
FW 1 XGE2/0/3, member port of RAGG 2
FW 1 XGE2/0/4, member port of RAGG 2
Uplink interfaces:
FW 1 XGE2/0/5, member port of RAGG 3
FW 1 XGE2/0/6, member port of RAGG 3
Downlink interfaces:
Border 1 XGE6/0/1, member port of BAGG1 in
DR group 1
Border 2 XGE6/0/1, member port of BAGG1 in
DR group 1
Uplink interfaces:
Border 1 XGE6/0/2, member port of BAGG2 in
DR group 2
Border 2 XGE6/0/2, member port of BAGG2 in
DR group 2
Downlink interfaces:
FW 2 XGE2/0/3, member port of RAGG 2
FW 2 XGE2/0/4, member port of RAGG 2
Uplink interfaces:
FW 2 XGE2/0/5, member port of RAGG 3
FW 2 XGE2/0/6, member port of RAGG 3
Downlink interfaces:
Border 1 XGE6/0/5, member port of BAGG5 in
DR group 5
Border 2 XGE6/0/5, member port of BAGG5 in
DR group 5
Uplink interfaces:
Border 1 XGE6/0/6, member port of BAGG6 in
DR group 5
Border 2 XGE6/0/6, member port of BAGG6 in
DR group 6
Spine and border devices collocated with EDs
Spine-Border 1 and Spine-Border 2 for a DR system. Spine-Border devices connect with DCI devices
through Layer 3 interfaces and connect FWs and external network devices through DR interfaces.
Spine and border devices collocated with EDs supports overlay Layer 2 interconnect and overlay
Layer 3 interconnect with or without firewall traversal scenarios.
Figure 9 Spine and border devices collocated with EDs
For the connections between switching devices, see IMC Orchestrator 6.2 Underlay Network
Configuration Guide. For planning of the management and service IP addresses of the devices, see
Table 4.
Spine-
Border1 Spine-
Border2
Leaf1 Leaf2 Leaf3 Leaf4
Server1 Server2 Server3 Server4
FW1 FW2
IPL
IPL IPL
Spine-
Border1 Spine-
Border2
Leaf1 Leaf2 Leaf3 Leaf4
Server1 Server2 Server3 Server4
FW1 FW2
IPL
IPL IPL
DC1 DC2
Internet
Internet
Uplink
Downlink DCI switch
10
Table 4 IP assignment
Device
Management IP
addresses
Service IP addresses
Spine-Border 1
(DC 1)
192.168.11.2/24
VTEP IP: 10.1.1.2/24
Interconnection IP with DCI switch: 12.1.1.1/30
Interconnection interface with DCI switch: Ten-
GigabitEthernet1/0/17
Interface reserved for route reduction: Ten-
GigabitEthernet1/0/44
The connection with FW interfaces is shown in Table 5.
Spine-Border 2
(DC 1)
192.168.11.3/24
VTEP IP: 10.1.1.3/24
Interconnection IP with DCI switch: 12.1.1.5/30
Interconnection interface with DCI switch: Ten-
GigabitEthernet1/0/17
Interface reserved for route reduction: Ten-
GigabitEthernet1/0/44
The connection with FW interfaces is shown in Table 5.
Leaf 1 (DC1)
192.168.11.4/24
VTEP IP: 10.1.1.4/24
Leaf 2 (DC1)
192.168.11.5/24
VTEP IP: 10.1.1.5/24
Leaf 3 (DC1)
192.168.11.6/24
VTEP IP: 10.1.1.6/24
Leaf 4 (DC1)
192.168.11.7/24
VTEP IP: 10.1.1.7/24
FW 1 (DC1)
192.168.11.12/24
/
FW 2 (DC1)
192.168.11.13/24
/
Spine-Border 1 (DC
1)
192.168.21.2/24
VTEP IP: 10.1.2.2/24
Interconnection IP with DCI switch: 12.1.1.9/30
Spine-Border
2(DC2)
192.168.21.3/24
VTEP IP: 10.1.2.3/24
Interconnection IP with DCI switch: 12.1.1.13/30
Leaf 1 (DC2)
192.168.21.4/24
VTEP IP: 10.1.2.4/24
Leaf 2 (DC2)
192.168.21.5/24
VTEP IP: 10.1.2.5/24
Leaf 3 (DC2)
192.168.21.6/24
VTEP IP: 10.1.2.6/24
Leaf 4 (DC2)
192.168.21.7/24
VTEP IP: 10.1.2.7/24
FW 1 (DC2)
192.168.21.12/24
The connection with border interfaces is shown in Table 5.
FW 2 (DC2)
192.168.21.13/24
The connection with border interfaces is shown in Table 5.
Table 5 Service interface aggregation between the border devices and FWs
FW
Border
Downlink interfaces:
FW 1 XGE2/0/3, member port of RAGG 2
FW 1 XGE2/0/4, member port of RAGG 2
Uplink interfaces:
FW 1 XGE2/0/5, member port of RAGG 3
FW 1 XGE2/0/6, member port of RAGG 3
Downlink interfaces:
Border 1 XGE6/0/1, member port of BAGG1 in
DR group 1
Border 2 XGE6/0/1, member port of BAGG1 in
DR group 1
Uplink interfaces:
Border 1 XGE6/0/1, member port of BAGG2 in
DR group 2
11
FW
Border
Border 2 XGE6/0/2, member port of BAGG2 in
DR group 2
Downlink interfaces:
FW 2 XGE2/0/3, member port of RAGG 2
FW 2 XGE2/0/4, member port of RAGG 2
Uplink interfaces:
FW 1 XGE2/0/5, member port of RAGG 3
FW 1 XGE2/0/6, member port of RAGG 3
Downlink interfaces:
Border 1 XGE6/0/5, member port of BAGG5 in
DR group 5
Border 2 XGE6/0/5, member port of BAGG5 in
DR group 5
Uplink interfaces:
Border 1 XGE6/0/6, member port of BAGG6 in
DR group 6
Border 2 XGE6/0/6, member port of BAGG6 in
DR group 6
Resource plan
Table 6 Resource plan
Resource
DC 1 configuration example
DC 2 configuration example
Device management network
Subnet: 192.168.11.0/24
Gateway: 192.168.11.1
Subnet: 192.168.21.0/24
Gateway: 192.168.21.1
IP
address
pool
DC interconnection
network
Name: DC interconnection
network 1
Subnets: 10.70.1.0/24;
2001::10:70:1:/112
Default address pool: Not
selected
Name: DC interconnection
network 2
Subnets: 10.70.10.0/24;
2001: 10:70:10::/112
Default address pool: Not
selected
Tenant carrier LB
internal network
Name: Tenant carrier LB
internal network 1
10.50.1.0/24
2001::10:50:1:/112
Name: Tenant carrier LB
internal network 2
10.50.10.0/24
2001:10:50:10::/112
Tenant carrier FW
internal network
Name: Tenant carrier FW
internal network 1
Subnets: 10.60.1.0/24;
2001::10:60:1:/112
Default address pool: Not
selected
Name: Tenant carrier FW
internal network 2
Subnets: 10.60.10.0/24:
2001:10:60:10::/112
Default address pool: Not
selected
Virtual
management
network
Name: Virtual management
network 1
Subnets: 192.168.10.0/24
Gateway address:
192.168.10.1
Default address pool: Not
selected
Name: Virtual management
network 2
Subnets: 192.168.100.0/24
Gateway address:
192.168.100.1
Default address pool: Not
selected
VLAN
pool
Tenant carrier
network
Name: Tenant carrier VLAN 1
VLAN range: 500 - 999
Default VLAN pool: Not
selected
Name: Tenant carrier VLAN 2
VLAN range: 500 - 999
Default VLAN pool: Not
selected
Overlay
resources
Fabric
Name: Fabric 1
AS number: 100
Name: Fabric 2
AS number: 1000
12
Resource
DC 1 configuration example
DC 2 configuration example
VDS
Name: VDS 1
Carrier fabric: Fabric 1
VXLAN ID range: 1-
16777215
Name: VDS 1
Carrier fabric: Fabric 2
VXLAN ID range: 1-
16777215
vRouter
Layer 2 interconnect:
router2801
Layer 3 interconnect:
router2802
Layer 3 interconnect (with
firewall traversal): router2803
Layer 2 interconnect:
router2804
Layer 3 interconnect:
router2805
Layer 3 interconnect (with
firewall traversal): router2806
Subnet:
Layer 2 interconnect:
11.28.1.0/24;
2001:11:28:1::/64
Layer 3 interconnect:
11.28.2.0/24:
2001:11:28:2::/64
Layer 3 interconnect (with
firewall traversal):
11.28.3.0/24;
2001:11:28:3::/64
Layer 2 interconnect:
11.28.1.0/24;
2001:11:28:1::/64
Layer 3 interconnect:
11.28.3.0/24:
2001:11:28:3::/64
Layer 4 interconnect (with
firewall traversal):
11.28.4.0/24;
2001:11:28:3::/64
13
Procedure
Configure underlay network basic settings
Incorporate switching devices
Configure and incorporate switching devices in the network. For details, see IMC Orchestrator 6.2
Underlay Network Configuration Guide.
Underlay network basic configurations of EDs are the same as border devices.
Pre-configure DCI
Interconnection is required between the loopback interfaces that are used to establish BGP
neighbors between EDs of two DCs and between the DRNI virtual addresses. Static or dynamic
routing can be configured according to networking requirements to achieve interconnection. OSPF
is used as an example. The following steps are performed manually.
Pre-configure route reduction
Reserve an interface for route reduction. The interface is not required to be up.
[ED1] system-view
[ED1] service-loopback group 5 type inter-vpn-fwd
[ED1] interface Twenty-FiveGigE1/0/44
[ED1-Twenty-FiveGigE1/0/44] port link-mode bridge
[ED1-Twenty-FiveGigE1/0/44] port service-loopback group 5
Pre-configure DCI for dedicated ED devices
ED 1 of DC 1 is used as an example.
Configure OSPF.
[ED1] ospf 1
[ED1-ospf-1] non-stop-routing
[ED1-ospf-1] area 0.0.0.0
[ED1-ospf-1] quit
Configure the interfaces that connect DCI switch to the ED to enable Layer 3 interconnection
between the local and remote VTEPs.
[ED1] interface Ten-GigabitEthernet1/0/17
[ED1-Ten-GigabitEthernet1/0/17] port link-mode route
[ED1-Ten-GigabitEthernet1/0/17] ip address 12.1.1.1 255.255.255.252
[ED1-Ten-GigabitEthernet1/0/17] ospf network-type p2p
[ED1-Ten-GigabitEthernet1/0/17] ospf 1 area 0.0.0.0
[ED1-Ten-GigabitEthernet1/0/17] quit
Configure BGP:
The command descriptions are as follows:
peer ebgp as-number: 1000, AS number of remote DC.
peer 10.1.2.10 group ebgp: 10.1.2.10 is the VTEP IP address of ED 1 (DC 2) (real
IP address of the device as a DR member device).
peer 10.1.2.11 group ebgp: 10.1.2.11 is the VTEP IP address of ED 2 (DC 2) (real
IP address of the device as a DR member device).
peer ebgp route-policy SDN_POLICY_DCI_L3CONNECT export: the
SDN_POLICY_DCI_L3CONNECT name is fixed and when the Layer 3 DC
interconnection is created, the controller issues the route policy. Verify the configuration by
14
executing the display current-configuration configuration route-policy
command on the device.
peer{ group-name } re-originated [ imet | mac-ip ] replace-rt:
Regenerate the EVPN route.
[ED1] bgp 100
[ED1-bgp-default] group ebgp external
[ED1-bgp-default] peer ebgp as-number 1000
[ED1-bgp-default] peer ebgp connect-interface LoopBack0
[ED1-bgp-default] peer ebgpebgp-max-hop 64
[ED1-bgp-default] peer 10.1.2.10 group ebgp
[ED1-bgp-default] peer 10.1.2.11 group ebgp
[ED1-bgp-default] address-family l2vpn evpn
[ED1-bgp-default-evpn] peer ebgp enable
[ED1-bgp-default-evpn] peer ebgp route-policy SDN_POLICY_DCI_L3CONNECT export
[ED1-bgp-default-evpn] peer ebgp router-mac-local dci
[ED1-bgp-default-evpn] peer ebgp re-originated replace-rt
[ED1-bgp-default-evpn] peer ebgp re-originated mac-IP replace-rt
[ED1-bgp-default-evpn] peer ebgp re-originated imet replace-rt
[ED1-bgp-default-evpn] peer ebgp re-originated smet replace-rt
[ED1-bgp-default-evpn] peer ebgp re-originated s-pmsi replace-rt
[ED1-bgp-default-evpn] peer evpn re-originated replace-rt
[ED1-bgp-default-evpn] peer evpn re-originated mac-IP replace-rt
[ED1-bgp-default-evpn] peer evpn re-originated imet replace-rt
[ED1-bgp-default-evpn] peer evpn re-originated smet replace-rt
[ED1-bgp-default-evpn] peer evpn re-originated s-pmsi replace-rt
[ED1-bgp-default-evpn] quit
[ED1-bgp-default] quit
Configure a route policy:
Execute the route-policy SDN_PREDEF_deny_default command on the ED device to filter
the default routes and prevent loops. This route policy will not be restored by the controller,
and is used when a border device creates a VPN at the creation of overlay Layer 3 DC
interconnect (with firewall traversal).
[ED1] ip prefix-list SDN_PREDEF_default index 10 permit 0.0.0.0 0
[ED1] ipv6 prefix-list SDN_PREDEF_default index 10 permit :: 0
[ED1] route-policy SDN_PREDEF_deny_default deny node 0
[ED1-route-policy-SDN_PREDEF_default-0] if-match ip address prefix-list
SDN_PREDEF_default
[ED1-route-policy-SDN_PREDEF_default-0] if-match ipv6 address prefix-list
SDN_PREDEF_default
[ED1-route-policy-SDN_PREDEF_default-0] quit
[ED1] route-policy SDN_PREDEF_deny_default permit node 1000
Pre-configure DCI on border devices collocated with EDs
The Border 1 device in DC 1 is used as an example.
Configure OSPF.
[border1] ospf 1
[border1-ospf-1] non-stop-routing
[border1-ospf-1] area 0.0.0.0
[border1-ospf-1] quit
15
Configure the interconnection interfaces between Border 1 and DCI switch to enable Layer 3
interconnect between the local and remote VTEPs.
[border1] interface Ten-GigabitEthernet1/0/17
[border1-Ten-GigabitEthernet1/0/17] port link-mode route
[border1-Ten-GigabitEthernet1/0/17] ip address 12.1.1.1 255.255.255.252
[border1-Ten-GigabitEthernet1/0/17] ospf network-type p2p
[border1-Ten-GigabitEthernet1/0/17] ospf 1 area 0.0.0.0
[border1-Ten-GigabitEthernet1/0/17] quit
Configure BGP:
The command descriptions are as follows:
peer ebgp as-number 1000: 1000, AS number of remote DC.
peer 10.1.2.8 group ebgp: 10.1.2.8 is the VTEP IP address of Border 1 (DC 2) (real
IP address of the device as a DR member device).
peer 10.1.2.9 group ebgp: 10.1.2.9 is the VTEP IP address of Border 2 (DC 2) (real IP
address of the device as a DR member device).
peer ebgp route-policy SDN_POLICY_DCI_L3CONNECT export: The
SDN_POLICY_DCI_L3CONNECT name is fixed and when the Layer 3 DC
interconnection is created, the controller issues the route policy. Verify the configuration by
executing the display current-configuration configuration route-policy
command on the device.
peer { group-name } re-originated [ imet | mac-ip ] replace-rt:
Regenerate the EVPN route.
[border1] bgp 100
[border1-bgp-default] group ebgp external
[border1-bgp-default] peer ebgp as-number 1000
[border1-bgp-default] peer ebgp connect-interface LoopBack0
[border1-bgp-default] peer ebgpebgp-max-hop 64
[border1-bgp-default] peer 10.1.2.8 group ebgp
[border1-bgp-default] peer 10.1.2.9 group ebgp
[border1-bgp-default] address-family l2vpn evpn
[border1-bgp-default-evpn] nexthopevpn-drni group-address
[border1-bgp-default-evpn] peer ebgp enable
[border1-bgp-default-evpn] peer ebgp route-policy SDN_POLICY_DCI_L3CONNECT export
[border1-bgp-default-evpn] peer ebgp router-mac-local dci
[border1-bgp-default-evpn] peer ebgp re-originated replace-rt
[border1-bgp-default-evpn] peer ebgp re-originated mac-IP replace-r
[border1-bgp-default-evpn] peer ebgp re-originated imet replace-rt
[border1-bgp-default-evpn] peer evpn re-originated replace-rt
[border1-bgp-default-evpn] peer evpn re-originated mac-IP replace-rt
[border1-bgp-default-evpn] peer evpn re-originated imet replace-rt
[border1-bgp-default-evpn] quit
[border1-bgp-default] quit
Configure a route policy:
Execute the route-policy SDN_PREDEF_deny_default command on the ED device to filter
the default routes to prevent loops. This route policy will not be restored by the controller, and
is used when a border device creates a VPN at the creation of overlay Layer 3 DC
interconnect (with firewall traversal).
[border1] ip prefix-list SDN_PREDEF_default index 10 permit 0.0.0.0 0
[border1] ipv6 prefix-list SDN_PREDEF_default index 10 permit :: 0
16
[border1] route-policy SDN_PREDEF_deny_default deny node 0
[border1-route-policy- DN_PREDEF_deny_default-0] if-match ip address prefix-list
SDN_PREDEF_default
[border1-route-policy-SDN_PREDEF_deny_default-0] if-match ipv6 address prefix-
list SDN_PREDEF_default
[border1-route-policy-SDN_PREDEF_deny_default-0] quit
[border1] route-policy SDN_PREDEF_deny_default permit node 1000
[border1-route-policy-SDN_PREDEF_deny_default-1000] quit
Assign the links between Border 1 and the firewalls to VLANs.
[border1] interface Bridge-Aggregation1
[border1-Bridge-Aggregation1] port trunk permitvlan 1 500 to 999
[border1-Bridge-Aggregation1] quit
[border1] interface Bridge-Aggregation2
[border1-Bridge-Aggregation2] port trunk permit vlan1 500 to 999
[border1-Bridge-Aggregation2] quit
Pre-configure DCI on spine and border devices collocated with EDs
Spine-Border 1 in DC 1 is used as an example.
Configure OSPF.
[spine-border1] ospf 1
[spine-border1-ospf-1] non-stop-routing
[spine-border1-ospf-1] area 0.0.0.0
[spine-border1-ospf-1] quit
Configure the ED connection interfaces
[spine-border1] interface Ten-GigabitEthernet1/0/17
[spine-border1-Ten-GigabitEthernet1/0/17] port link-mode route
[spine-border1-Ten-GigabitEthernet1/0/17] ip address 12.1.1.1 255.255.255.252
[spine-border1-Ten-GigabitEthernet1/0/17] ospf network-type p2p
[spine-border1-Ten-GigabitEthernet1/0/17] ospf 1 area 0.0.0.0
[spine-border1-Ten-GigabitEthernet1/0/17] quit
Configure BGP:
The command descriptions are as follows:
peer ebgp as-number 1000: 1000, AS number of remote DC.
peer 10.1.2.2 group ebgp: 10.1.2.2 is the VTEP IP address of Spine-Border 1 (DC
2) (real IP address of the device as a DR member device).
peer 10.1.2.3 group ebgp: 10.1.2.3 is the VTEP IP address of Spine-Border 2 (DC
2) (real IP address of the device as a DR member device).
peer ebgp route-policy SDN_POLICY_DCI_L3CONNECT export: The
SDN_POLICY_DCI_L3CONNECT name is fixed and when the Layer 3 DC interconnection
is created, the controller issues the route policy. Verify the configuration by executing the
display current-configuration configuration route-policy command on
the device.
peer { group-name } re-originated [ imet | mac-ip ] replace-rt:
Regenerate the EVPN route.
peer evpn advertise original-route: This command is required in spine and
border devices collocated with EDs.
[spine-border1] bgp 100
[spine-border1-bgp-default] groupebgp external
[spine-border1-bgp-default] peerebgp as-number 1000
17
[spine-border1-bgp-default] peerebgp connect-interface LoopBack0
[spine-border1-bgp-default] peerebgpebgp-max-hop 64
[spine-border1-bgp-default] peer 10.1.2.2 group ebgp
[spine-border1-bgp-default] peer 10.1.2.3 group ebgp
[spine-border1-bgp-default] address-family l2vpn evpn
[spine-border1-bgp-default-evpn] peer ebgp enable
[spine-border1-bgp-default-evpn] peer ebgp route-policy SDN_POLICY_DCI_L3CONNECT
export
[spine-border1-bgp-default-evpn] peer ebgp router-mac-local dci
[spine-border1-bgp-default-evpn] peer ebgp re-originated replace-rt
[spine-border1-bgp-default-evpn] peer ebgp re-originated mac-IP replace-r
[spine-border1-bgp-default-evpn] peer ebgp re-originated imet replace-rt
[spine-border1-bgp-default-evpn] peer evpn re-originated replace-rt
[spine-border1-bgp-default-evpn] peer evpn re-originated mac-IP replace-rt
[spine-border1-bgp-default-evpn] peer evpn re-originated imet replace-rt
[spine-border1-bgp-default-evpn] peer evpn advertise original-route
[spine-border1-bgp-default-evpn] quit
[spine-border1-bgp-default] quit
Configure a route policy:
Execute the route-policy SDN_PREDEF_deny_default command on the ED device to filter
the default routes to prevent loops. This route policy will not be restored by the controller, and
is used when a border device creates a VPN at the creation of overlay Layer 3 DC
interconnect (with firewall traversal).
[spine-border1] ip prefix-list SDN_PREDEF_default index 10 permit 0.0.0.0 0
[spine-border1] ipv6 prefix-list SDN_PREDEF_default index 10 permit :: 0
[spine-border1] route-policy SDN_PREDEF_deny_default deny node 0
[spine-border1-SDN_PREDEF_deny_default-0] if-match ip address prefix-list
SDN_PREDEF_default
[spine-border1-SDN_PREDEF_deny_default-0] if-match ipv6 address prefix-list
SDN_PREDEF_default
[spine-border1-SDN_PREDEF_deny_default-0] quit
[spine-border1] route-policy SDN_PREDEF_deny_default permit node 1000
[spine-border1-SDN_PREDEF_deny_default-1000] quit
Assign the links between Spine-Border 1 and the firewalls to VLANs.
[spine-border1] interface Bridge-Aggregation1
[spine-border1-Bridge-Aggregation1] port trunk permitvlan 1 500 to 999
[spine-border1-Bridge-Aggregation1] quit
[spine-border1] interface Bridge-Aggregation2
[spine-border1-Bridge-Aggregation2] port trunk permit vlan1 500 to 999
[spine-border1-Bridge-Aggregation2] quit
Configure basic security service resource settings
Configure basic security service resources as described in the service gateway chapter of IMC
Orchestrator 6.2 Security Service Resources Configuration Guide.
Complete the following configurations for DC 1:
Configure IP address pools. In this scenario, four IP address pools need to be configured: The
DC interconnection network, the tenant carrier LB internal network, the tenant carrier FW
18
internal network, and the virtual management network. For the address pool planning, see
!未找到引用源。.
Configure the VLAN pool. In this scenario, you need to configure the tenant carrier network
VLAN pool. For the VLAN pool planning, see 错误!未找到引用源。.
Configure and incorporate the security devices in the network and complete the creation of
L4-L7 resource pools and templates.
Create the tenant publictenant1. Assign service resources pubfwcontext1 and publbcontext1
to the tenant publictenant1.
Complete the following configurations for DC 2:
Configure IP address pools. In this scenario, four IP address pools need to be configured: The
DC interconnection network, the tenant carrier LB internal network, the tenant carrier FW
internal network, and the virtual management network. For the address pool planning, see
!未找到引用源。.
Configure the VLAN pool. In this scenario, you need to configure the tenant carrier network
VLAN pool. For the VLAN pool planning, see 错误!未找到引用源。.
Configure and incorporate the security devices in the network and complete the creation of
L4-L7 resource pools and templates.
Create the tenant publictenant2. Assign service resources pubfwcontext2 and publbcontext2
to the tenant publictenant2.
Pre-configure basic multicast settings
Pre-configure the EDs
[ED1] interface Ten-GigabitEthernet 1/0/17
[ED1-Ten-GigabitEthernet 1/0/17] pim sm
[ED2] interface Ten-GigabitEthernet 1/0/17
[ED2-Ten-GigabitEthernet 1/0/17] pim sm
Pre-configure the spine devices
[spine] multicast routing
Configure controller basic settings
This section only introduces the configuration procedures of basic settings. For specific configuration
data, see "Configure controller basic settings" in the chapter of each scenario.
Log in to the controller
After the controller is deployed, the corresponding menu will be loaded in IMC PLAT. You can use
the controller functions after logging in to IMC PLAT.
To log in to IMC PLAT:
Enter the login address to IMC PLAT (default login address:
http://ucenter_ip_address:30000/central/index.html) in the browser. Press Enter to open the login
page as shown in Figure 10.
Ucenter_ip_address: North-bound service virtual IP address of the Installer cluster where IMC PLAT
locates.
In the login address, 30000 is the port number.
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Aruba JL850AAE Configuration Guide

Category
Networking
Type
Configuration Guide
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