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|
##############################################
L3VPN for Hub-and-Spoke connectivity with VyOS
##############################################
IP/MPLS technology is widely used by various service providers and large
enterprises in order to achieve better network scalability, manageability
and flexibility. It also provides the possibility to deliver different
services for the customers in a seamless manner.
Layer 3 VPN (L3VPN) is a type of VPN mode that is built and delivered
through OSI layer 3 networking technologies. Often the border gateway
protocol (BGP) is used to send and receive VPN-related data that is
responsible for the control plane. L3VPN utilizes virtual routing and
forwarding (VRF) techniques to receive and deliver user data as well as
separate data planes of the end-users. It is built using a combination of
IP- and MPLS-based information. Generally, L3VPNs are used to send data
on back-end VPN infrastructures, such as for VPN connections between data
centres, HQs and branches.
An L3VPN consists of multiple access links, multiple VPN routing and
forwarding (VRF) tables, and multiple MPLS paths or multiple P2MP LSPs.
An L3VPN can be configured to connect two or more customer sites.
In hub-and-spoke MPLS L3VPN environments, the spoke routers need to have
unique Route Distinguishers (RDs). In order to use the hub site as a
transit point for connectivity in such an environment, the spoke sites
export their routes to the hub. Spokes can talk to hubs, but never have
direct paths to other spokes. All traffic between spokes is controlled
and delivered over the hub site.
To deploy a Layer3 VPN with MPLS on VyOS, we should meet a couple
requirements in order to properly implement the solution.
We'll use the following nodes in our LAB environment:
* 2 x Route reflectors (VyOS-RRx)
* 4 x Provider routers (VyOS-Px)
* 3 x Provider Edge (VyOs-PEx)
* 3 x Customer Edge (VyOS-CEx)
The following software was used in the creation of this document:
* Operating system: VyOS
* Version: 1.4-rolling-202110310317
* Image name: vyos-1.4-rolling-202110310317-amd64.iso
**NOTE:** VyOS Router (tested with VyOS 1.4-rolling-202110310317)
– The configurations below are specifically for VyOS 1.4.x.
General information can be found in the :ref:`l3vpn-vrfs` chapter.
********
Topology
********
.. image:: /_static/images/L3VPN_hub_spoke.png
:width: 80%
:align: center
:alt: Network Topology Diagram
*****************
How does it work?
*****************
As we know the main assumption of L3VPN “Hub and Spoke” is, that the traffic
between spokes have to pass via hub, in our scenario VyOS-PE2 is the Hub PE
and the VyOS-CE1-HUB is the central customer office device that is responsible
for controlling access between all spokes and announcing its network prefixes
(100.100.100.100/32). VyOS-PE2 has the main VRF (its name is BLUE_HUB), its
own Route-Distinguisher(RD) and route-target import/export lists.
Multiprotocol-BGP(MP-BGP) delivers L3VPN related control-plane information to
the nodes across network where PEs Spokes import the route-target 60535:1030
(this is export route-target of vrf BLUE_HUB) and export its own route-target
60535:1011(this is vrf BLUE_SPOKE export route-target). Therefore, the
Customer edge nodes can only learn the network prefixes of the HUB site
[100.100.100.100/32]. For this example VyOS-CE1 has network prefixes
[80.80.80.80/32] / VyOS-CE2 has network prefixes [90.90.90.90/32].
Route-Reflector devices VyOS-RR1 and VyOS-RR2 are used to simplify network
routes exchange and minimize iBGP peerings between devices.
L3VPN configuration parameters table:
+----------+-------+------------+-----------------+-------------+-------------+
| Node | Role | VRF | RD | RT import | RT export |
+----------+-------+------------+-----------------+-------------+-------------+
| VyOS-PE2 | Hub | BLUE_HUB | 10.80.80.1:1011 | 65035:1011 | 65035:1030 |
| | | | | 65035:1030 | |
+----------+-------+------------+-----------------+-------------+-------------+
| VyOS-PE1 | Spoke | BLUE_SPOKE | 10.50.50.1:1011 | 65035:1030 | 65035:1011 |
+----------+-------+------------+-----------------+-------------+-------------+
| VyOS-PE3 | Spoke | BLUE_SPOKE | 10.60.60.1:1011 | 65035:1030 | 65035:1011 |
+----------+-------+------------+-----------------+-------------+-------------+
*************
Configuration
*************
Step-1: Configuring IGP and enabling MPLS LDP
=====================================
At the first step we need to configure the IP/MPLS backbone network using OSPF as
IGP protocol and LDP as label-switching protocol for the base connectivity between
**P** (rovider), **P** (rovider) **E** (dge) and **R** (oute) **R** (eflector) nodes:
- VyOS-P1:
.. code-block:: none
# interfaces
set interfaces dummy dum10 address '3.3.3.3/32'
set interfaces ethernet eth0 address '172.16.30.1/24'
set interfaces ethernet eth1 address '172.16.40.1/24'
set interfaces ethernet eth2 address '172.16.90.1/24'
set interfaces ethernet eth3 address '172.16.10.1/24'
set interfaces ethernet eth5 address '172.16.100.1/24'
# protocols ospf+ldp
set protocols mpls interface 'eth1'
set protocols mpls interface 'eth2'
set protocols mpls interface 'eth3'
set protocols mpls interface 'eth5'
set protocols mpls interface 'eth0'
set protocols mpls ldp discovery transport-ipv4-address '3.3.3.3'
set protocols mpls ldp interface 'eth0'
set protocols mpls ldp interface 'eth1'
set protocols mpls ldp interface 'eth2'
set protocols mpls ldp interface 'eth3'
set protocols mpls ldp interface 'eth5'
set protocols mpls ldp router-id '3.3.3.3'
set protocols ospf area 0 network '0.0.0.0/0'
set protocols ospf parameters abr-type 'cisco'
set protocols ospf parameters router-id '3.3.3.3
- VyOS-P2:
.. code-block:: none
# interfaces
set interfaces dummy dum10 address '4.4.4.4/32'
set interfaces ethernet eth0 address '172.16.30.2/24'
set interfaces ethernet eth1 address '172.16.20.1/24'
set interfaces ethernet eth2 address '172.16.120.1/24'
set interfaces ethernet eth3 address '172.16.60.1/24'
# protocols ospf+ldp
set protocols mpls interface 'eth1'
set protocols mpls interface 'eth2'
set protocols mpls interface 'eth3'
set protocols mpls interface 'eth0'
set protocols mpls ldp discovery transport-ipv4-address '4.4.4.4'
set protocols mpls ldp interface 'eth0'
set protocols mpls ldp interface 'eth1'
set protocols mpls ldp interface 'eth2'
set protocols mpls ldp interface 'eth3'
set protocols mpls ldp router-id '4.4.4.4'
set protocols ospf area 0 network '0.0.0.0/0'
set protocols ospf parameters abr-type 'cisco'
set protocols ospf parameters router-id '4.4.4.4'
- VyOS-P3:
.. code-block:: none
# interfaces
set interfaces dummy dum10 address '5.5.5.5/32'
set interfaces ethernet eth0 address '172.16.110.1/24'
set interfaces ethernet eth1 address '172.16.40.2/24'
set interfaces ethernet eth2 address '172.16.50.1/24'
set interfaces ethernet eth3 address '172.16.70.1/24'
# protocols ospf + ldp
set protocols mpls interface 'eth1'
set protocols mpls interface 'eth2'
set protocols mpls interface 'eth3'
set protocols mpls interface 'eth0'
set protocols mpls ldp discovery transport-ipv4-address '5.5.5.5'
set protocols mpls ldp interface 'eth0'
set protocols mpls ldp interface 'eth1'
set protocols mpls ldp interface 'eth2'
set protocols mpls ldp interface 'eth3'
set protocols mpls ldp router-id '5.5.5.5'
set protocols ospf area 0 network '0.0.0.0/0'
set protocols ospf parameters abr-type 'cisco'
set protocols ospf parameters router-id '5.5.5.5'
- VyOS-P4:
.. code-block:: none
# interfaces
set interfaces dummy dum10 address '6.6.6.6/32'
set interfaces ethernet eth0 address '172.16.80.2/24'
set interfaces ethernet eth1 address '172.16.130.1/24'
set interfaces ethernet eth2 address '172.16.50.2/24'
set interfaces ethernet eth3 address '172.16.60.2/24'
set interfaces ethernet eth5 address '172.16.140.1/24'
# protocols ospf + ldp
set protocols mpls interface 'eth1'
set protocols mpls interface 'eth2'
set protocols mpls interface 'eth3'
set protocols mpls interface 'eth0'
set protocols mpls interface 'eth5'
set protocols mpls ldp discovery transport-ipv4-address '6.6.6.6'
set protocols mpls ldp interface 'eth0'
set protocols mpls ldp interface 'eth1'
set protocols mpls ldp interface 'eth2'
set protocols mpls ldp interface 'eth3'
set protocols mpls ldp interface 'eth5'
set protocols mpls ldp router-id '6.6.6.6'
set protocols ospf area 0 network '0.0.0.0/0'
set protocols ospf parameters abr-type 'cisco'
set protocols ospf parameters router-id '6.6.6.6'
- VyOS-PE1:
.. code-block:: none
# interfaces
set interfaces dummy dum10 address '7.7.7.7/32'
set interfaces ethernet eth0 address '172.16.90.2/24'
# protocols ospf + ldp
set protocols mpls interface 'eth0'
set protocols mpls ldp discovery transport-ipv4-address '7.7.7.7'
set protocols mpls ldp interface 'eth0'
set protocols mpls ldp router-id '7.7.7.7'
set protocols ospf area 0 network '0.0.0.0/0'
set protocols ospf parameters abr-type 'cisco'
set protocols ospf parameters router-id '7.7.7.7'
- VyOS-PE2:
.. code-block:: none
# interfaces
set interfaces dummy dum10 address '8.8.8.8/32'
set interfaces ethernet eth0 address '172.16.110.2/24'
set interfaces ethernet eth1 address '172.16.100.2/24'
set interfaces ethernet eth2 address '172.16.80.1/24'
# protocols ospf + ldp
set protocols mpls interface 'eth0'
set protocols mpls interface 'eth1'
set protocols mpls ldp discovery transport-ipv4-address '8.8.8.8'
set protocols mpls ldp interface 'eth0'
set protocols mpls ldp interface 'eth1'
set protocols mpls ldp router-id '8.8.8.8'
set protocols ospf area 0 network '0.0.0.0/0'
set protocols ospf parameters abr-type 'cisco'
set protocols ospf parameters router-id '8.8.8.8'
- VyOS-PE3:
.. code-block:: none
# interfaces
set interfaces dummy dum10 address '10.10.10.10/32'
set interfaces ethernet eth0 address '172.16.140.2/24'
# protocols ospf + ldp
set protocols mpls interface 'eth0'
set protocols mpls ldp discovery transport-ipv4-address '10.10.10.10'
set protocols mpls ldp interface 'eth0'
set protocols mpls ldp router-id '10.10.10.10'
set protocols ospf area 0 network '0.0.0.0/0'
set protocols ospf parameters abr-type 'cisco'
set protocols ospf parameters router-id '10.10.10.10'
- VyOS-RR1:
.. code-block:: none
# interfaces
set interfaces ethernet eth1 address '172.16.20.2/24'
set interfaces ethernet eth2 address '172.16.10.2/24'
set interfaces dummy dum10 address '1.1.1.1/32'
# protocols ospf + ldp
set protocols mpls interface 'eth1'
set protocols mpls interface 'eth2'
set protocols mpls ldp discovery transport-ipv4-address '1.1.1.1'
set protocols mpls ldp interface 'eth1'
set protocols mpls ldp interface 'eth2'
set protocols mpls ldp router-id '1.1.1.1'
set protocols ospf area 0 network '0.0.0.0/0'
set protocols ospf parameters abr-type 'cisco'
set protocols ospf parameters router-id '1.1.1.1'
- VyOS-RR2:
.. code-block:: none
# interfaces
set interfaces ethernet eth0 address '172.16.80.1/24'
set interfaces ethernet eth1 address '172.16.70.2/24'
set interfaces dummy dum10 address '2.2.2.2/32'
# protocols ospf + ldp
set protocols mpls interface 'eth0'
set protocols mpls interface 'eth1'
set protocols mpls ldp discovery transport-ipv4-address '2.2.2.2'
set protocols mpls ldp interface 'eth1'
set protocols mpls ldp interface 'eth0'
set protocols mpls ldp router-id '2.2.2.2'
set protocols ospf area 0 network '0.0.0.0/0'
set protocols ospf parameters abr-type 'cisco'
set protocols ospf parameters router-id '2.2.2.2'
Step-2: Configuring iBGP for L3VPN control-plane
================================================
At this step we are going to enable iBGP protocol on MPLS nodes and
Route Reflectors (two routers for redundancy) that will deliver IPv4
VPN (L3VPN) routes between them:
- VyOS-RR1:
.. code-block:: none
set protocols bgp local-as '65001'
set protocols bgp neighbor 7.7.7.7 address-family ipv4-vpn route-reflector-client
set protocols bgp neighbor 7.7.7.7 peer-group 'RR_VPNv4'
set protocols bgp neighbor 8.8.8.8 address-family ipv4-vpn route-reflector-client
set protocols bgp neighbor 8.8.8.8 peer-group 'RR_VPNv4'
set protocols bgp neighbor 9.9.9.9 address-family ipv4-vpn route-reflector-client
set protocols bgp neighbor 9.9.9.9 peer-group 'RR_VPNv4'
set protocols bgp neighbor 10.10.10.10 address-family ipv4-vpn route-reflector-client
set protocols bgp neighbor 10.10.10.10 peer-group 'RR_VPNv4'
set protocols bgp parameters cluster-id '1.1.1.1'
set protocols bgp parameters default no-ipv4-unicast
set protocols bgp parameters log-neighbor-changes
set protocols bgp parameters router-id '1.1.1.1'
set protocols bgp peer-group RR_VPNv4 remote-as '65001'
set protocols bgp peer-group RR_VPNv4 update-source 'dum10'
- VyOS-RR2:
.. code-block:: none
set protocols bgp local-as '65001'
set protocols bgp neighbor 7.7.7.7 address-family ipv4-vpn route-reflector-client
set protocols bgp neighbor 7.7.7.7 peer-group 'RR_VPNv4'
set protocols bgp neighbor 8.8.8.8 address-family ipv4-vpn route-reflector-client
set protocols bgp neighbor 8.8.8.8 peer-group 'RR_VPNv4'
set protocols bgp neighbor 9.9.9.9 address-family ipv4-vpn route-reflector-client
set protocols bgp neighbor 9.9.9.9 peer-group 'RR_VPNv4'
set protocols bgp neighbor 10.10.10.10 address-family ipv4-vpn route-reflector-client
set protocols bgp neighbor 10.10.10.10 peer-group 'RR_VPNv4'
set protocols bgp parameters cluster-id '1.1.1.1'
set protocols bgp parameters default no-ipv4-unicast
set protocols bgp parameters log-neighbor-changes
set protocols bgp parameters router-id '2.2.2.2'
set protocols bgp peer-group RR_VPNv4 remote-as '65001'
set protocols bgp peer-group RR_VPNv4 update-source 'dum10'
- VyOS-PE1:
.. code-block:: none
set protocols bgp local-as '65001'
set protocols bgp neighbor 1.1.1.1 address-family ipv4-vpn nexthop-self
set protocols bgp neighbor 1.1.1.1 peer-group 'RR_VPNv4'
set protocols bgp neighbor 2.2.2.2 address-family ipv4-vpn nexthop-self
set protocols bgp neighbor 2.2.2.2 peer-group 'RR_VPNv4'
set protocols bgp parameters default no-ipv4-unicast
set protocols bgp parameters log-neighbor-changes
set protocols bgp parameters router-id '7.7.7.7'
set protocols bgp peer-group RR_VPNv4 remote-as '65001'
set protocols bgp peer-group RR_VPNv4 update-source 'dum10'
- VyOS-PE2:
.. code-block:: none
set protocols bgp local-as '65001'
set protocols bgp neighbor 1.1.1.1 address-family ipv4-vpn nexthop-self
set protocols bgp neighbor 1.1.1.1 peer-group 'RR_VPNv4'
set protocols bgp neighbor 2.2.2.2 address-family ipv4-vpn nexthop-self
set protocols bgp neighbor 2.2.2.2 peer-group 'RR_VPNv4'
set protocols bgp parameters default no-ipv4-unicast
set protocols bgp parameters log-neighbor-changes
set protocols bgp parameters router-id '8.8.8.8'
set protocols bgp peer-group RR_VPNv4 remote-as '65001'
set protocols bgp peer-group RR_VPNv4 update-source 'dum10'
- VyOS-PE3:
.. code-block:: none
set protocols bgp local-as '65001'
set protocols bgp neighbor 1.1.1.1 address-family ipv4-vpn nexthop-self
set protocols bgp neighbor 1.1.1.1 peer-group 'RR_VPNv4'
set protocols bgp neighbor 2.2.2.2 address-family ipv4-vpn nexthop-self
set protocols bgp neighbor 2.2.2.2 peer-group 'RR_VPNv4'
set protocols bgp parameters default no-ipv4-unicast
set protocols bgp parameters log-neighbor-changes
set protocols bgp parameters router-id '10.10.10.10'
set protocols bgp peer-group RR_VPNv4 remote-as '65001'
set protocols bgp peer-group RR_VPNv4 update-source 'dum10'
Step-3: Configuring L3VPN VRFs on PE nodes
==========================================
This section provides configuration steps for setting up VRFs on our
PE nodes including CE facing interfaces, BGP, rd and route-target
import/export based on the pre-defined parameters.
- VyOS-PE1:
.. code-block:: none
# VRF settings
set vrf name BLUE_SPOKE table '200'
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast export vpn
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast import vpn
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast label vpn export 'auto'
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast network 10.50.50.0/24
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast rd vpn export '10.50.50.1:1011'
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast redistribute connected
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast route-target vpn export '65035:1011'
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast route-target vpn import '65035:1030'
set vrf name BLUE_SPOKE protocols bgp local-as '65001'
set vrf name BLUE_SPOKE protocols bgp neighbor 10.50.50.2 address-family ipv4-unicast as-override
set vrf name BLUE_SPOKE protocols bgp neighbor 10.50.50.2 remote-as '65035'
# interfaces
set interfaces ethernet eth3 address '10.50.50.1/24'
set interfaces ethernet eth3 vrf 'BLUE_SPOKE'
- VyOS-PE2:
.. code-block:: none
# VRF settings
set vrf name BLUE_HUB table '400'
set vrf name BLUE_HUB protocols bgp address-family ipv4-unicast export vpn
set vrf name BLUE_HUB protocols bgp address-family ipv4-unicast import vpn
set vrf name BLUE_HUB protocols bgp address-family ipv4-unicast label vpn export 'auto'
set vrf name BLUE_HUB protocols bgp address-family ipv4-unicast network 10.80.80.0/24
set vrf name BLUE_HUB protocols bgp address-family ipv4-unicast rd vpn export '10.80.80.1:1011'
set vrf name BLUE_HUB protocols bgp address-family ipv4-unicast redistribute connected
set vrf name BLUE_HUB protocols bgp address-family ipv4-unicast route-target vpn export '65035:1030'
set vrf name BLUE_HUB protocols bgp address-family ipv4-unicast route-target vpn import '65035:1011 65050:2011 65035:1030'
set vrf name BLUE_HUB protocols bgp local-as '65001'
set vrf name BLUE_HUB protocols bgp neighbor 10.80.80.2 address-family ipv4-unicast as-override
set vrf name BLUE_HUB protocols bgp neighbor 10.80.80.2 remote-as '65035'
# interfaces
set interfaces ethernet eth3 address '10.80.80.1/24'
set interfaces ethernet eth3 vrf 'BLUE_HUB'
- VyOS-PE3:
.. code-block:: none
# VRF settings
set vrf name BLUE_SPOKE table '200'
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast export vpn
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast import vpn
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast label vpn export 'auto'
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast network 10.60.60.0/24
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast rd vpn export '10.60.60.1:1011'
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast redistribute connected
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast route-target vpn export '65035:1011'
set vrf name BLUE_SPOKE protocols bgp address-family ipv4-unicast route-target vpn import '65035:1030'
set vrf name BLUE_SPOKE protocols bgp local-as '65001'
set vrf name BLUE_SPOKE protocols bgp neighbor 10.60.60.2 address-family ipv4-unicast as-override
set vrf name BLUE_SPOKE protocols bgp neighbor 10.60.60.2 remote-as '65035'
# interfaces
set interfaces ethernet eth3 address '10.60.60.1/24'
set interfaces ethernet eth3 vrf 'BLUE_SPOKE'
Step-4: Configuring CE nodes
============================
Dynamic routing used between CE and PE nodes and eBGP peering
established for the route exchanging between them. All routes
received by PEs are then exported to L3VPN and delivered from
Spoke sites to Hub and vise-versa based on previously
configured L3VPN parameters.
- VyOS-CE1-SPOKE:
.. code-block:: none
# interfaces
set interfaces dummy dum20 address '80.80.80.80/32'
set interfaces ethernet eth0 address '10.50.50.2/24'
# BGP for peering with PE
set protocols bgp 65035 address-family ipv4-unicast network 80.80.80.80/32
set protocols bgp 65035 neighbor 10.50.50.1 ebgp-multihop '2'
set protocols bgp 65035 neighbor 10.50.50.1 remote-as '65001'
set protocols bgp 65035 neighbor 10.50.50.1 update-source 'eth0'
set protocols bgp 65035 parameters default no-ipv4-unicast
set protocols bgp 65035 parameters log-neighbor-changes
set protocols bgp 65035 parameters router-id '10.50.50.2'
- VyOS-CE1-HUB:
.. code-block:: none
# interfaces
set interfaces dummy dum20 address '100.100.100.100/32'
set interfaces ethernet eth0 address '10.80.80.2/24'
# BGP for peering with PE
set protocols bgp 65035 address-family ipv4-unicast network 100.100.100.100/32
set protocols bgp 65035 address-family ipv4-unicast redistribute connected
set protocols bgp 65035 neighbor 10.80.80.1 ebgp-multihop '2'
set protocols bgp 65035 neighbor 10.80.80.1 remote-as '65001'
set protocols bgp 65035 neighbor 10.80.80.1 update-source 'eth0'
set protocols bgp 65035 parameters default no-ipv4-unicast
set protocols bgp 65035 parameters log-neighbor-changes
set protocols bgp 65035 parameters router-id '10.80.80.2'
- VyOS-CE2-SPOKE:
.. code-block:: none
# interfaces
set interfaces dummy dum20 address '90.90.90.90/32'
set interfaces ethernet eth0 address '10.60.60.2/24'
# BGP for peering with PE
set protocols bgp 65035 address-family ipv4-unicast network 90.90.90.90/32
set protocols bgp 65035 neighbor 10.60.60.1 ebgp-multihop '2'
set protocols bgp 65035 neighbor 10.60.60.1 remote-as '65001'
set protocols bgp 65035 neighbor 10.60.60.1 update-source 'eth0'
set protocols bgp 65035 parameters default no-ipv4-unicast
set protocols bgp 65035 parameters log-neighbor-changes
set protocols bgp 65035 parameters router-id '10.60.60.2'
Step-5: Verification
====================
This section describes verification commands for MPLS/BGP/LDP
protocols and L3VPN related routes as well as diagnosis and
reachability checks between CE nodes.
Let’s check IPv4 routing and MPLS information on provider nodes
(same procedure for all P nodes):
- “show ip ospf neighbor” for checking ospf relationship
.. code-block:: none
vyos@VyOS-P1:~$ show ip ospf neighbor
Neighbor ID Pri State Dead Time Address Interface RXmtL RqstL DBsmL
4.4.4.4 1 Full/Backup 34.718s 172.16.30.2 eth0:172.16.30.1 0 0 0
5.5.5.5 1 Full/Backup 35.132s 172.16.40.2 eth1:172.16.40.1 0 0 0
7.7.7.7 1 Full/Backup 34.764s 172.16.90.2 eth2:172.16.90.1 0 0 0
1.1.1.1 1 Full/Backup 35.642s 172.16.10.2 eth3:172.16.10.1 0 0 0
8.8.8.8 1 Full/Backup 35.484s 172.16.100.2 eth5:172.16.100.1 0 0 0
- “show mpls ldp neighbor “ for checking ldp neighbors
.. code-block:: none
vyos@VyOS-P1:~$ show mpls ldp neighbor
AF ID State Remote Address Uptime
ipv4 1.1.1.1 OPERATIONAL 1.1.1.1 07w5d06h
ipv4 4.4.4.4 OPERATIONAL 4.4.4.4 09w3d00h
ipv4 5.5.5.5 OPERATIONAL 5.5.5.5 09w2d23h
ipv4 7.7.7.7 OPERATIONAL 7.7.7.7 03w0d01h
ipv4 8.8.8.8 OPERATIONAL 8.8.8.8 01w3d02h
- “show mpls ldp binding” for checking mpls label assignment
.. code-block:: none
vyos@VyOS-P1:~$ show mpls ldp discovery
AF Destination Nexthop Local Label Remote Label In Use
ipv4 1.1.1.1/32 1.1.1.1 23 imp-null yes
ipv4 1.1.1.1/32 4.4.4.4 23 20 no
ipv4 1.1.1.1/32 5.5.5.5 23 17 no
ipv4 1.1.1.1/32 7.7.7.7 23 16 no
ipv4 1.1.1.1/32 8.8.8.8 23 16 no
ipv4 2.2.2.2/32 1.1.1.1 20 16 no
ipv4 2.2.2.2/32 4.4.4.4 20 22 no
ipv4 2.2.2.2/32 5.5.5.5 20 24 yes
ipv4 2.2.2.2/32 7.7.7.7 20 17 no
ipv4 2.2.2.2/32 8.8.8.8 20 17 no
ipv4 3.3.3.3/32 1.1.1.1 imp-null 17 no
ipv4 3.3.3.3/32 4.4.4.4 imp-null 16 no
ipv4 3.3.3.3/32 5.5.5.5 imp-null 18 no
ipv4 3.3.3.3/32 7.7.7.7 imp-null 18 no
ipv4 3.3.3.3/32 8.8.8.8 imp-null 18 no
ipv4 4.4.4.4/32 1.1.1.1 16 18 no
ipv4 4.4.4.4/32 4.4.4.4 16 imp-null yes
ipv4 4.4.4.4/32 5.5.5.5 16 19 no
ipv4 4.4.4.4/32 7.7.7.7 16 19 no
ipv4 4.4.4.4/32 8.8.8.8 16 19 no
ipv4 5.5.5.5/32 1.1.1.1 21 19 no
ipv4 5.5.5.5/32 4.4.4.4 21 17 no
ipv4 5.5.5.5/32 5.5.5.5 21 imp-null yes
ipv4 5.5.5.5/32 7.7.7.7 21 20 no
ipv4 5.5.5.5/32 8.8.8.8 21 20 no
ipv4 6.6.6.6/32 1.1.1.1 17 20 no
ipv4 6.6.6.6/32 4.4.4.4 17 23 yes
ipv4 6.6.6.6/32 5.5.5.5 17 21 yes
ipv4 6.6.6.6/32 7.7.7.7 17 21 no
ipv4 6.6.6.6/32 8.8.8.8 17 21 no
ipv4 7.7.7.7/32 1.1.1.1 22 21 no
ipv4 7.7.7.7/32 4.4.4.4 22 18 no
ipv4 7.7.7.7/32 5.5.5.5 22 20 no
ipv4 7.7.7.7/32 7.7.7.7 22 imp-null yes
ipv4 7.7.7.7/32 8.8.8.8 22 22 no
ipv4 8.8.8.8/32 1.1.1.1 24 22 no
ipv4 8.8.8.8/32 4.4.4.4 24 19 no
ipv4 8.8.8.8/32 5.5.5.5 24 16 no
ipv4 8.8.8.8/32 7.7.7.7 24 22 no
ipv4 8.8.8.8/32 8.8.8.8 24 imp-null yes
ipv4 9.9.9.9/32 1.1.1.1 18 23 no
ipv4 9.9.9.9/32 4.4.4.4 18 21 yes
ipv4 9.9.9.9/32 5.5.5.5 18 22 no
ipv4 9.9.9.9/32 7.7.7.7 18 23 no
ipv4 9.9.9.9/32 8.8.8.8 18 23 no
ipv4 10.10.10.10/32 1.1.1.1 19 24 no
ipv4 10.10.10.10/32 4.4.4.4 19 24 yes
ipv4 10.10.10.10/32 5.5.5.5 19 23 yes
ipv4 10.10.10.10/32 7.7.7.7 19 24 no
ipv4 10.10.10.10/32 8.8.8.8 19 24 no
Now we’re checking iBGP status and routes from route-reflector
nodes to other devices:
- “show bgp ipv4 vpn summary” for checking BGP VPNv4 neighbors:
.. code-block:: none
vyos@VyOS-RR1:~$ show bgp ipv4 vpn summary
BGP router identifier 1.1.1.1, local AS number 65001 vrf-id 0
BGP table version 0
RIB entries 9, using 1728 bytes of memory
Peers 4, using 85 KiB of memory
Peer groups 1, using 64 bytes of memory
Neighbor V AS MsgRcvd MsgSent TblVer InQ OutQ Up/Down State/PfxRcd PfxSnt
7.7.7.7 4 65001 7719 7733 0 0 0 5d07h56m 2 10
8.8.8.8 4 65001 7715 7724 0 0 0 5d08h28m 4 10
9.9.9.9 4 65001 7713 7724 0 0 0 5d08h28m 2 10
10.10.10.10 4 65001 7713 7724 0 0 0 5d08h28m 2 10
Total number of neighbors 4
- “show bgp ipv4 vpn” for checking all VPNv4 prefixes information:
.. code-block:: none
vyos@VyOS-RR1:~$ show bgp ipv4 vpn
BGP table version is 2, local router ID is 1.1.1.1, vrf id 0
Default local pref 100, local AS 65001
Status codes: s suppressed, d damped, h history, * valid, > best, = multipath,
i internal, r RIB-failure, S Stale, R Removed
Nexthop codes: @NNN nexthop's vrf id, < announce-nh-self
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Weight Path
Route Distinguisher: 10.50.50.1:1011
*>i10.50.50.0/24 7.7.7.7 0 100 0 i
UN=7.7.7.7 EC{65035:1011} label=80 type=bgp, subtype=0
*>i80.80.80.80/32 7.7.7.7 0 100 0 65035 i
UN=7.7.7.7 EC{65035:1011} label=80 type=bgp, subtype=0
Route Distinguisher: 10.60.60.1:1011
*>i10.60.60.0/24 10.10.10.10 0 100 0 i
UN=10.10.10.10 EC{65035:1011} label=80 type=bgp, subtype=0
*>i90.90.90.90/32 10.10.10.10 0 100 0 65035 i
UN=10.10.10.10 EC{65035:1011} label=80 type=bgp, subtype=0
Route Distinguisher: 10.80.80.1:1011
*>i10.80.80.0/24 8.8.8.8 0 100 0 i
UN=8.8.8.8 EC{65035:1030} label=80 type=bgp, subtype=0
*>i100.100.100.100/32
8.8.8.8 0 100 0 65035 i
UN=8.8.8.8 EC{65035:1030} label=80 type=bgp, subtype=0
Route Distinguisher: 172.16.80.1:2011
*>i10.110.110.0/24 8.8.8.8 0 100 0 65050 i
UN=8.8.8.8 EC{65050:2011} label=81 type=bgp, subtype=0
*>i172.16.80.0/24 8.8.8.8 0 100 0 i
UN=8.8.8.8 EC{65050:2011} label=81 type=bgp, subtype=0
Route Distinguisher: 172.16.100.1:2011
*>i10.210.210.0/24 9.9.9.9 0 100 0 65050 i
UN=9.9.9.9 EC{65050:2011} label=80 type=bgp, subtype=0
*>i172.16.100.0/24 9.9.9.9 0 100 0 i
UN=9.9.9.9 EC{65050:2011} label=80 type=bgp, subtype=0
- “show bgp ipv4 vpn x.x.x.x/x” for checking best path selected
for specific VPNv4 destination
.. code-block:: none
vyos@VyOS-RR1:~$ show bgp ipv4 vpn 100.100.100.100/32
BGP routing table entry for 10.80.80.1:1011:100.100.100.100/32
not allocated
Paths: (1 available, best #1)
Advertised to non peer-group peers:
7.7.7.7 8.8.8.8 9.9.9.9 10.10.10.10
65035, (Received from a RR-client)
8.8.8.8 from 8.8.8.8 (8.8.8.8)
Origin incomplete, metric 0, localpref 100, valid, internal, best (First path received)
Extended Community: RT:65035:1030
Remote label: 80
Last update: Tue Oct 19 13:45:32 202
Also we can verify how PE devices receives VPNv4 networks from the RRs
and installing them to the specific customer VRFs:
- “show bgp ipv4 vpn summary” for checking iBGP neighbors against
route-reflector devices:
.. code-block:: none
vyos@VyOS-PE1:~$ show bgp ipv4 vpn summary
BGP router identifier 7.7.7.7, local AS number 65001 vrf-id 0
BGP table version 0
RIB entries 9, using 1728 bytes of memory
Peers 2, using 43 KiB of memory
Peer groups 1, using 64 bytes of memory
Neighbor V AS MsgRcvd MsgSent TblVer InQ OutQ Up/Down State/PfxRcd PfxSnt
1.1.1.1 4 65001 8812 8794 0 0 0 01:18:42 8 2
2.2.2.2 4 65001 8800 8792 0 0 0 6d02h27m 8 2
- “show bgp vrf all” for checking all the prefix learning on BGP
within VRFs:
.. code-block:: none
vyos@VyOS-PE1:~$ show bgp vrf all
Instance default:
No BGP prefixes displayed, 0 exist
Instance BLUE_SPOKE:
BGP table version is 8, local router ID is 10.50.50.1, vrf id 6
Default local pref 100, local AS 65001
Status codes: s suppressed, d damped, h history, * valid, > best, = multipath,
i internal, r RIB-failure, S Stale, R Removed
Nexthop codes: @NNN nexthop's vrf id, < announce-nh-self
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Weight Path
* 10.50.50.0/24 0.0.0.0 0 32768 ?
*> 0.0.0.0 0 32768 i
*> 10.80.80.0/24 8.8.8.8@0< 0 100 0 i
* 8.8.8.8@0< 0 100 0 i
*> 80.80.80.80/32 10.50.50.2 0 0 65035 i
*> 100.100.100.100/32
8.8.8.8@0< 0 100 0 65035 ?
* 8.8.8.8@0< 0 100 0 65035 ?
- “show bgp vrf BLUE_SPOKE summary” for checking EBGP neighbor
information between PE and CE:
.. code-block:: none
vyos@VyOS-PE1:~$ show bgp vrf BLUE_SPOKE summary
IPv4 Unicast Summary:
BGP router identifier 10.50.50.1, local AS number 65001 vrf-id 6
BGP table version 8
RIB entries 7, using 1344 bytes of memory
Peers 1, using 21 KiB of memory
Neighbor V AS MsgRcvd MsgSent TblVer InQ OutQ Up/Down State/PfxRcd PfxSnt
10.50.50.2 4 65035 9019 9023 0 0 0 6d06h12m 1 4
Total number of neighbors 1
- “show ip route vrf BLUE_SPOKE” for viewing the RIB in our Spoke PE.
Using this command we are also able to check the transport and
customer label (inner/outer) for Hub network prefix (100.100.100.100/32):
.. code-block:: none
vyos@VyOS-PE1:~$ show ip route vrf BLUE_SPOKE
Codes: K - kernel route, C - connected, S - static, R - RIP,
O - OSPF, I - IS-IS, B - BGP, E - EIGRP, N - NHRP,
T - Table, v - VNC, V - VNC-Direct, A - Babel, D - SHARP,
F - PBR, f - OpenFabric,
> - selected route, * - FIB route, q - queued, r - rejected, b - backup
VRF BLUE_SPOKE:
K>* 0.0.0.0/0 [255/8192] unreachable (ICMP unreachable), 03w0d23h
C>* 10.50.50.0/24 is directly connected, eth3, 03w0d23h
B> 10.80.80.0/24 [200/0] via 8.8.8.8 (vrf default) (recursive), label 80, weight 1, 04:22:00
* via 172.16.90.1, eth0 (vrf default), label 24/80, weight 1, 04:22:00
B>* 80.80.80.80/32 [20/0] via 10.50.50.2, eth3, weight 1, 6d05h30m
B> 100.100.100.100/32 [200/0] via 8.8.8.8 (vrf default) (recursive), label 80, weight 1, 04:22:00
* via 172.16.90.1, eth0 (vrf default), label 24/80, weight 1, 04:22:00
- “show bgp ipv4 vpn x.x.x.x/32” for checking the best-path to the
specific VPNv4 destination including extended community and
remotelabel information. This procedure is the same on all Spoke nodes:
.. code-block:: none
vyos@VyOS-PE1:~$ show bgp ipv4 vpn 100.100.100.100/32
BGP routing table entry for 10.80.80.1:1011:100.100.100.100/32
not allocated
Paths: (2 available, best #1)
Not advertised to any peer
65035
8.8.8.8 from 1.1.1.1 (8.8.8.8)
Origin incomplete, metric 0, localpref 100, valid, internal, best (Neighbor IP)
Extended Community: RT:65035:1030
Originator: 8.8.8.8, Cluster list: 1.1.1.1
Remote label: 80
Last update: Tue Oct 19 13:45:26 2021
65035
8.8.8.8 from 2.2.2.2 (8.8.8.8)
Origin incomplete, metric 0, localpref 100, valid, internal
Extended Community: RT:65035:1030
Originator: 8.8.8.8, Cluster list: 1.1.1.1
Remote label: 80
Last update: Wed Oct 13 12:39:34 202
Now, let’s check routing information on out Hub PE:
- “show bgp ipv4 vpn summary” for checking iBGP neighbors again
VyOS-RR1/RR2
.. code-block:: none
vyos@VyOS-PE2:~$ show bgp ipv4 vpn summary
BGP router identifier 8.8.8.8, local AS number 65001 vrf-id 0
BGP table version 0
RIB entries 9, using 1728 bytes of memory
Peers 2, using 43 KiB of memory
Peer groups 1, using 64 bytes of memory
Neighbor V AS MsgRcvd MsgSent TblVer InQ OutQ Up/Down State/PfxRcd PfxSnt
1.1.1.1 4 65001 15982 15949 0 0 0 05:41:28 6 4
2.2.2.2 4 65001 9060 9054 0 0 0 6d06h47m 6 4
Total number of neighbors
- “show bgp vrf all” for checking all the prefixes learning on BGP
.. code-block:: none
vyos@VyOS-PE2:~$ show bgp vrf all
Instance default:
No BGP prefixes displayed, 0 exist
Instance BLUE_HUB:
BGP table version is 50, local router ID is 10.80.80.1, vrf id 8
Default local pref 100, local AS 65001
Status codes: s suppressed, d damped, h history, * valid, > best, = multipath,
i internal, r RIB-failure, S Stale, R Removed
Nexthop codes: @NNN nexthop's vrf id, < announce-nh-self
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Weight Path
*> 10.50.50.0/24 7.7.7.7@0< 0 100 0 i
* 7.7.7.7@0< 0 100 0 i
*> 10.60.60.0/24 10.10.10.10@0< 0 100 0 i
* 10.10.10.10@0< 0 100 0 i
* 10.80.80.0/24 10.80.80.2 0 0 65035 ?
* 0.0.0.0 0 32768 i
*> 0.0.0.0 0 32768 ?
*> 10.110.110.0/24 172.16.80.2@9< 0 0 65050 i
*> 10.210.210.0/24 9.9.9.9@0< 0 100 0 65050 i
* 9.9.9.9@0< 0 100 0 65050 i
*> 80.80.80.80/32 7.7.7.7@0< 0 100 0 65035 i
* 7.7.7.7@0< 0 100 0 65035 i
*> 90.90.90.90/32 10.10.10.10@0< 0 100 0 65035 i
* 10.10.10.10@0< 0 100 0 65035 i
*> 100.100.100.100/32
10.80.80.2 0 0 65035 ?
*> 172.16.80.0/24 0.0.0.0@9< 0 32768 ?
0.0.0.0@9< 0 32768 i
*> 172.16.100.0/24 9.9.9.9@0< 0 100 0 i
* 9.9.9.9@0< 0 100 0 i
- “show bgp vrf BLUE_HUB summary” for checking EBGP neighbor
CE Hub device
.. code-block:: none
vyos@VyOS-PE2:~$ show bgp vrf BLUE_HUB summary
IPv4 Unicast Summary:
BGP router identifier 10.80.80.1, local AS number 65001 vrf-id 8
BGP table version 50
RIB entries 19, using 3648 bytes of memory
Peers 1, using 21 KiB of memory
Neighbor V AS MsgRcvd MsgSent TblVer InQ OutQ Up/Down State/PfxRcd PfxSnt
10.80.80.2 4 65035 15954 15972 0 0 0 01w4d01h 2 10
- “show ip route vrf BLUE_HUB” to view the RIB in our Hub PE.
With this command we are able to check the transport and
customer label (inner/outer) for network spokes prefixes
80.80.80.80/32 - 90.90.90.90/32
.. code-block:: none
vyos@VyOS-PE2:~$ show ip route vrf BLUE_HUB
Codes: K - kernel route, C - connected, S - static, R - RIP,
O - OSPF, I - IS-IS, B - BGP, E - EIGRP, N - NHRP,
T - Table, v - VNC, V - VNC-Direct, A - Babel, D - SHARP,
F - PBR, f - OpenFabric,
> - selected route, * - FIB route, q - queued, r - rejected, b - backup
VRF BLUE_HUB:
K>* 0.0.0.0/0 [255/8192] unreachable (ICMP unreachable), 01w4d01h
B> 10.50.50.0/24 [200/0] via 7.7.7.7 (vrf default) (recursive), label 144, weight 1, 05:53:15
* via 172.16.100.1, eth1 (vrf default), label 22/144, weight 1, 05:53:15
B> 10.60.60.0/24 [200/0] via 10.10.10.10 (vrf default) (recursive), label 144, weight 1, 05:53:15
* via 172.16.110.1, eth0 (vrf default), label 23/144, weight 1, 05:53:15
C>* 10.80.80.0/24 is directly connected, eth3, 01w4d01h
B>* 10.110.110.0/24 [200/0] via 172.16.80.2, eth2 (vrf GREEN), weight 1, 01w4d01h
B> 10.210.210.0/24 [200/0] via 9.9.9.9 (vrf default) (recursive), label 144, weight 1, 05:53:15
* via 172.16.100.1, eth1 (vrf default), label 18/144, weight 1, 05:53:15
* via 172.16.110.1, eth0 (vrf default), label 22/144, weight 1, 05:53:15
B> 80.80.80.80/32 [200/0] via 7.7.7.7 (vrf default) (recursive), label 144, weight 1, 05:53:15
* via 172.16.100.1, eth1 (vrf default), label 22/144, weight 1, 05:53:15
B> 90.90.90.90/32 [200/0] via 10.10.10.10 (vrf default) (recursive), label 144, weight 1, 05:53:15
* via 172.16.110.1, eth0 (vrf default), label 23/144, weight 1, 05:53:15
B>* 100.100.100.100/32 [20/0] via 10.80.80.2, eth3, weight 1, 01w4d01h
B>* 172.16.80.0/24 [200/0] is directly connected, eth2 (vrf GREEN), weight 1, 01w4d01h
B> 172.16.100.0/24 [200/0] via 9.9.9.9 (vrf default) (recursive), label 144, weight 1, 05:53:15
* via 172.16.100.1, eth1 (vrf default), label 18/144, weight 1, 05:53:15
* via 172.16.110.1, eth0 (vrf default), label 22/144, weight 1, 05:53:15
- “show bgp ipv4 vpn x.x.x.x/32” for checking best-path,
extended community and remote label of specific destination
.. code-block:: none
vyos@VyOS-PE2:~$ show bgp ipv4 vpn 80.80.80.80/32
BGP routing table entry for 10.50.50.1:1011:80.80.80.80/32
not allocated
Paths: (2 available, best #1)
Not advertised to any peer
65035
7.7.7.7 from 1.1.1.1 (7.7.7.7)
Origin IGP, metric 0, localpref 100, valid, internal, best (Neighbor IP)
Extended Community: RT:65035:1011
Originator: 7.7.7.7, Cluster list: 1.1.1.1
Remote label: 144
Last update: Tue Oct 19 13:45:30 2021
65035
7.7.7.7 from 2.2.2.2 (7.7.7.7)
Origin IGP, metric 0, localpref 100, valid, internal
Extended Community: RT:65035:1011
Originator: 7.7.7.7, Cluster list: 1.1.1.1
Remote label: 144
Last update: Wed Oct 13 12:39:37 2021
vyos@VyOS-PE2:~$ show bgp ipv4 vpn 90.90.90.90/32
BGP routing table entry for 10.60.60.1:1011:90.90.90.90/32
not allocated
Paths: (2 available, best #1)
Not advertised to any peer
65035
10.10.10.10 from 1.1.1.1 (10.10.10.10)
Origin IGP, metric 0, localpref 100, valid, internal, best (Neighbor IP)
Extended Community: RT:65035:1011
Originator: 10.10.10.10, Cluster list: 1.1.1.1
Remote label: 144
Last update: Tue Oct 19 13:45:30 2021
65035
10.10.10.10 from 2.2.2.2 (10.10.10.10)
Origin IGP, metric 0, localpref 100, valid, internal
Extended Community: RT:65035:1011
Originator: 10.10.10.10, Cluster list: 1.1.1.1
Remote label: 144
Last update: Wed Oct 13 12:45:44 2021
Finally, let’s check the reachability between CEs:
- VyOS-CE1-SPOKE -----> VyOS-CE-HUB
.. code-block:: none
# check rib
vyos@VyOS-CE1-SPOKE:~$ show ip route
Codes: K - kernel route, C - connected, S - static, R - RIP,
O - OSPF, I - IS-IS, B - BGP, E - EIGRP, N - NHRP,
T - Table, v - VNC, V - VNC-Direct, A - Babel, D - SHARP,
F - PBR, f - OpenFabric,
> - selected route, * - FIB route, q - queued, r - rejected, b - backup
B 10.50.50.0/24 [20/0] via 10.50.50.1 inactive, weight 1, 6d07h53m
C>* 10.50.50.0/24 is directly connected, eth0, 09w0d00h
B>* 10.80.80.0/24 [20/0] via 10.50.50.1, eth0, weight 1, 6d07h53m
C>* 80.80.80.80/32 is directly connected, dum20, 09w0d00h
B>* 100.100.100.100/32 [20/0] via 10.50.50.1, eth0, weight 1, 6d07h53m
# check icmp
vyos@VyOS-CE1-SPOKE:~$ ping 100.100.100.100 interface 80.80.80.80
PING 100.100.100.100 (100.100.100.100) from 80.80.80.80 : 56(84) bytes of data.
64 bytes from 100.100.100.100: icmp_seq=1 ttl=62 time=6.52 ms
64 bytes from 100.100.100.100: icmp_seq=2 ttl=62 time=4.13 ms
64 bytes from 100.100.100.100: icmp_seq=3 ttl=62 time=4.04 ms
64 bytes from 100.100.100.100: icmp_seq=4 ttl=62 time=4.03 ms
^C
--- 100.100.100.100 ping statistics ---
4 packets transmitted, 4 received, 0% packet loss, time 8ms
rtt min/avg/max/mdev = 4.030/4.680/6.518/1.064 ms
# check network path
vyos@VyOS-CE1-SPOKE:~$ traceroute 100.100.100.100
traceroute to 100.100.100.100 (100.100.100.100), 30 hops max, 60 byte packets
1 10.50.50.1 (10.50.50.1) 1.041 ms 1.252 ms 1.835 ms
2 * * *
3 100.100.100.100 (100.100.100.100) 9.225 ms 9.159 ms 9.121 m
- VyOS-CE-HUB -------> VyOS-CE1-SPOKE
- VyOS-CE-HUB -------> VyOS-CE2-SPOKE
.. code-block:: none
# check rib
vyos@VyOS-CE-HUB:~$ show ip route
Codes: K - kernel route, C - connected, S - static, R - RIP,
O - OSPF, I - IS-IS, B - BGP, E - EIGRP, N - NHRP,
T - Table, v - VNC, V - VNC-Direct, A - Babel, D - SHARP,
F - PBR, f - OpenFabric,
> - selected route, * - FIB route, q - queued, r - rejected, b - backup
B>* 10.50.50.0/24 [20/0] via 10.80.80.1, eth0, weight 1, 6d08h04m
B>* 10.60.60.0/24 [20/0] via 10.80.80.1, eth0, weight 1, 6d08h35m
C>* 10.80.80.0/24 is directly connected, eth0, 01w6d07h
B>* 10.110.110.0/24 [20/0] via 10.80.80.1, eth0, weight 1, 01w4d02h
B>* 10.210.210.0/24 [20/0] via 10.80.80.1, eth0, weight 1, 6d08h35m
B>* 80.80.80.80/32 [20/0] via 10.80.80.1, eth0, weight 1, 6d08h04m
B>* 90.90.90.90/32 [20/0] via 10.80.80.1, eth0, weight 1, 6d08h35m
C>* 100.100.100.100/32 is directly connected, dum20, 01w6d07h
B>* 172.16.80.0/24 [20/0] via 10.80.80.1, eth0, weight 1, 01w4d02h
B>* 172.16.100.0/24 [20/0] via 10.80.80.1, eth0, weight 1, 6d08h35m
# check icmp
vyos@VyOS-CE-HUB:~$ ping 80.80.80.80 interface 100.100.100.100 c 4
PING 80.80.80.80 (80.80.80.80) from 100.100.100.100 : 56(84) bytes of data.
64 bytes from 80.80.80.80: icmp_seq=1 ttl=62 time=3.31 ms
64 bytes from 80.80.80.80: icmp_seq=2 ttl=62 time=4.23 ms
64 bytes from 80.80.80.80: icmp_seq=3 ttl=62 time=3.89 ms
64 bytes from 80.80.80.80: icmp_seq=4 ttl=62 time=3.22 ms
--- 80.80.80.80 ping statistics ---
4 packets transmitted, 4 received, 0% packet loss, time 9ms
rtt min/avg/max/mdev = 3.218/3.661/4.226/0.421 ms
vyos@VyOS-CE-HUB:~$ ping 90.90.90.90 interface 100.100.100.100 c 4
PING 90.90.90.90 (90.90.90.90) from 100.100.100.100 : 56(84) bytes of data.
64 bytes from 90.90.90.90: icmp_seq=1 ttl=62 time=7.46 ms
64 bytes from 90.90.90.90: icmp_seq=2 ttl=62 time=4.43 ms
64 bytes from 90.90.90.90: icmp_seq=3 ttl=62 time=4.60 ms
^C
--- 90.90.90.90 ping statistics ---
3 packets transmitted, 3 received, 0% packet loss, time 6ms
rtt min/avg/max/mdev = 4.430/5.498/7.463/1.391 ms
# check network path
vyos@VyOS-CE-HUB:~$ traceroute 80.80.80.80
traceroute to 80.80.80.80 (80.80.80.80), 30 hops max, 60 byte packets
1 10.80.80.1 (10.80.80.1) 1.563 ms 1.341 ms 1.075 ms
2 * * *
3 80.80.80.80 (80.80.80.80) 8.125 ms 8.019 ms 7.781 ms
vyos@VyOS-CE-HUB:~$ traceroute 90.90.90.90
traceroute to 90.90.90.90 (90.90.90.90), 30 hops max, 60 byte packets
1 10.80.80.1 (10.80.80.1) 1.305 ms 1.137 ms 1.097 ms
2 * * *
3 * * *
4 90.90.90.90 (90.90.90.90) 9.358 ms 9.325 ms 9.292 ms
- VyOS-CE2-SPOKE -------> VyOS-CE-HUB
.. code-block:: none
# check rib
vyos@rt-ce2-SPOKE:~$ show ip route
Codes: K - kernel route, C - connected, S - static, R - RIP,
O - OSPF, I - IS-IS, B - BGP, E - EIGRP, N - NHRP,
T - Table, v - VNC, V - VNC-Direct, A - Babel, D - SHARP,
F - PBR, f - OpenFabric,
> - selected route, * - FIB route, q - queued, r - rejected, b - backup
B 10.60.60.0/24 [20/0] via 10.60.60.1 inactive, weight 1, 02w6d00h
C>* 10.60.60.0/24 is directly connected, eth0, 02w6d00h
B>* 10.80.80.0/24 [20/0] via 10.60.60.1, eth0, weight 1, 6d08h46m
C>* 90.90.90.90/32 is directly connected, dum20, 02w6d00h
B>* 100.100.100.100/32 [20/0] via 10.60.60.1, eth0, weight 1, 6d08h46m
# check icmp
vyos@rt-ce2-SPOKE:~$ ping 100.100.100.100 interface 90.90.90.90 c 4
PING 100.100.100.100 (100.100.100.100) from 90.90.90.90 : 56(84) bytes of data.
64 bytes from 100.100.100.100: icmp_seq=1 ttl=62 time=4.97 ms
64 bytes from 100.100.100.100: icmp_seq=2 ttl=62 time=4.45 ms
64 bytes from 100.100.100.100: icmp_seq=3 ttl=62 time=4.20 ms
64 bytes from 100.100.100.100: icmp_seq=4 ttl=62 time=4.29 ms
--- 100.100.100.100 ping statistics ---
4 packets transmitted, 4 received, 0% packet loss, time 9ms
rtt min/avg/max/mdev = 4.201/4.476/4.971/0.309 ms
# check network path
vyos@rt-ce2-SPOKE:~$ traceroute 100.100.100.100
traceroute to 100.100.100.100 (100.100.100.100), 30 hops max, 60 byte packets
1 10.60.60.1 (10.60.60.1) 1.343 ms 1.190 ms 1.152 ms
2 * * *
3 * * *
4 100.100.100.100 (100.100.100.100) 7.504 ms 7.480 ms 7.488 ms
**Note:** At the moment, trace mpls doesn’t show labels/paths. So we’ll see * * * for the transit routers of the mpls backbone.
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