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Overview

BGP is THE protocol if of Internet, it is used to exchange routing information between other BGP systems between Internet domains. It comes in two flavours:

External BGP(eBGP): Network Layer Reachability Information (NLRI) is exchanged between network domain called Autonomous system usually administratively independant. We are speaking about BGP inter-domain routing. As an example, let's us aassume assume a BGP speaker from AS2200 (RENATER) advertising NLRI information to AS20965 (GÉANT R&E). From that point AS20965 has the knowledge of how to reach any network advertised by AS2200 based on the NLRI information.

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Expand
titleBGP Route Reflector implementation


Info
titleBGP RR main requirements

SR655 1 x EPYC 7302P, 64GB RAM, 2G CONTROLLER CACHE FLASH, 4x10G ports + SFP+ and 4x1G ports, 3 SSD 480GB MAINSTREAM, XCLARITY ENTERPRISE.

SR655 AMD EPYC 7302P (16C 2.8GHz 128MB Cache/155W) 32GB (2x32GB, 2Rx4 3200MHz RDIMM), No Backplane, SATA, 1x750W, Tooless Rails
ThinkSystem 2x32GB TruDDR4 3200MHz (2Rx4 1.2V) RDIMM-A
ThinkSystem SR655 2.5 SATA/SAS 8-Bay Backplane Kit
ThinkSystem RAID 930-8i 2GB Flash PCIe 12Gb Adapter
ThinkSystem 2.5 5300 480GB Mainstream SATA 6Gb Hot Swap SSD
ThinkSystem SR655 x16/x8/x8 PCIe Riser1 FH Kit
ThinkSystem SR635/SR655 x8 PCIe Internal Riser Kit
ThinkSystem Broadcom 57454 10/25GbE SFP28 4-port OCP Ethernet Adapter
ThinkSystem Broadcom 5720 1GbE RJ45 2-Port PCIe Ethernet Adapter
SFP+ SR Transceiver
ThinkSystem 750W(230/115V) Platinum Hot-Swap Power Supply
2.8m, 10A/100-250V, C13 to IEC 320-C14 Rack Power Cable
ThinkSystem Toolless Slide Rail Kit with 2U CMA
ThinkSystem SR655 Fan Option Kit
ThinkSystem SR635/SR655 Supercap Installation Kit


Info
titleBGP RR main requirements

RR is a specific component inside a service provider environment:

  • The BGP RR is not in the data path inside the backbone, this can be adjusted by setting hight IGP metrics inside the code backbone. 
  • BGP traffic does not require a tremendous throughput so no need to have hardware NIC assisted forwarding mechanism such as dpdk.
  • A NREN route reflector with 2xIPv4 and 2xIPv6 full views coming from 2 upstream provider requires steady ~ 10 Mbps traffic rates, so we can assume that 10GE connection will be sufficient for the next decades all address-family included.
  • As of 2020/07/13, the Internet IPv4 routing table size is 839945 entries
  • As of 2020/07/13, the Internet IPv6 routing table size is 91062 entries

both cumulated with BGP other address families needs a constant usage of ~ 4GB of memory:

# show watchdog memory

  • So in the config above 64 Gbytes of RAM is sufficient in order to cache all the IPv4 and IPv6 routing table in memory (and also other BGP address family BGP tables). It will be also largely enough in case of network instability, events that involves more CPU/memory usage related convergence computation.


Warning
titleDisclaimer
  • We have no incentive in proposing a server with the above brand. It just happen that this server was already bought and its configuration is matching perfectly the use case requirement but again, this is pure coincidence
  • 10GE port connection might be overkill, but in a Service Provider context this is the norm. It will avoid adjacent core routers to implement 1GE connectivity
  • PCIe GEN4 is available, and thus provide a tremendous amount of bandwidth for disk R/W operation. Though useful for the OS application, BGP RR setup won't take a direct advantage from PCIE GEN4.
  • Indeed in this configuration considering the amount of RAM we have we will disable SWAP operations.


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Expand
titleCreate configuration files for router: bgp-rr-freerouter

FreeRouter uses 2 configuration files in order to run, let's write these configuration files for R1 in ~/freeRouter/etc

Code Block
languagebash
themeMidnight
titlefreeRouter hardware file: bgp-rr-freerouter-hw.txt
int eth1 eth 0000.1111.0001 127.0.0.1 10011 127.0.0.1 10012
int eth2 eth 0000.2222.0002 127.0.0.1 10021 127.0.0.1 10022
tcp2vrf 2323 v1 23


Info
titleBGP RR interfaces
  • eth1 is BGP port eth1, port 10011 is freeRouter port while 10012 is the port associated to pcapInt associated in linux interface in NIC #1 
  • eth2 is BGP port eth2,  port 10021 is freeRouter port while 10022 is the port associated to pcapInt associated in linux interface in NIC #2
  • For now freeRouter will be accessible only via telnet session on port 2323 


Code Block
languagebash
themeMidnight
titlefreeRouter software configuration file: r1-sw.txt
hostname rr1
buggy
!
!
access-list ACL-IPv4-RR-CLIENT
 sequence 10 permit all 1.1.1.1 255.255.255.255 all any all
 sequence 20 permit all 2.2.2.2 255.255.255.255 all any all
 sequence 30 permit all 3.3.3.3 255.255.255.255 all any all
 sequence 40 permit all 4.4.4.4 255.255.255.255 all any all
 sequence 50 permit all 5.5.5.5 255.255.255.255 all any all
 sequence 60 permit all 6.6.6.6 255.255.255.255 all any all
 sequence 70 permit all 7.7.7.7 255.255.255.255 all any all
 sequence 80 permit all 8.8.8.8 255.255.255.255 all any all
 exit
!
access-list ACL-IPv6-RR-CLIENT
 sequence 10 deny all fd00::a ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff all any all
 sequence 20 deny all fd00::b ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff all any all
 sequence 30 permit all fd00:: ffff:: all any all
 exit
!
prefix-list PFX-IPv4-NHT
 sequence 10 permit 1.1.1.1/32 ge 32 le 32
 sequence 20 permit 2.2.2.2/32 ge 32 le 32
 sequence 30 permit 3.3.3.3/32 ge 32 le 32
 sequence 40 permit 4.4.4.4/32 ge 32 le 32
 sequence 50 permit 5.5.5.5/32 ge 32 le 32
 sequence 60 permit 6.6.6.6/32 ge 32 le 32
 sequence 70 permit 7.7.7.7/32 ge 32 le 32
 sequence 80 permit 8.8.8.8/32 ge 32 le 32
 sequence 100 permit 10.10.10.10/32 ge 32 le 32
 sequence 110 permit 11.11.11.11/32 ge 32 le 32
 exit
!
prefix-list PFX-IPv6-NHT
 sequence 10 permit fd00::/32 ge 128 le 128
 exit
!
route-policy NHT
 sequence 10 if distance 110
 sequence 20   pass
 sequence 30 else
 sequence 40   drop
 sequence 50 enif
 exit
!
vrf definition v1
 rd 1:1
 exit
!
router ospf4 1
 vrf v1
 router-id 4.4.4.10
 traffeng-id 0.0.0.0
 area 0 enable
 redistribute connected
 exit
!
router ospf6 1
 vrf v1
 router-id 6.6.6.10
 traffeng-id ::
 area 0 enable
 redistribute connected
 exit
!
interface loopback1
 no description
 vrf forwarding v1
 ipv4 address 10.10.10.10 255.255.255.255
 ipv6 address fd00::a ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff
 router ospf4 1 enable
 router ospf4 1 area 0
 router ospf4 1 passive
 router ospf6 1 enable
 router ospf6 1 area 0
 router ospf6 1 passive
 no shutdown
 no log-link-change
 exit
!
interface ethernet1
 no description
 vrf forwarding v1
 ipv4 address 10.1.10.10 255.255.255.0
 ipv6 address fd00:cafe::1:10:10 ffff:ffff:ffff:ffff:ffff:ffff:ffff::
 router ospf4 1 enable
 router ospf4 1 area 0
 router ospf4 1 cost 4444
 router ospf6 1 enable
 router ospf6 1 area 0
 router ospf6 1 cost 6666
 no shutdown
 no log-link-change
 exit
!
interface ethernet2
 no description
 vrf forwarding v1
 ipv4 address 10.4.10.10 255.255.255.0
 ipv6 address fd00:cafe::4:10:10 ffff:ffff:ffff:ffff:ffff:ffff:ffff::
 router ospf4 1 enable
 router ospf4 1 area 0
 router ospf4 1 cost 4444
 router ospf6 1 enable
 router ospf6 1 area 0
 router ospf6 1 cost 6666
 no shutdown
 no log-link-change
 exit
!
router bgp4 65535
 vrf v1
 local-as 65535
 router-id 10.10.10.10
 address-family unicast multicast other flowspec vpnuni vpnmlt vpnflw ovpnuni ovpnmlt ovpnflw vpls mspw evpn mdt srte mvpn omvpn
 nexthop route-policy NHT
 nexthop prefix-list PFX-IPv4-NHT
 template bgp4 remote-as 65535
 template bgp4 description rr clients
 template bgp4 local-as 65535
 template bgp4 address-family unicast multicast other flowspec vpnuni vpnmlt vpnflw ovpnuni ovpnmlt ovpnflw vpls mspw evpn mdt srte mvpn omvpn
 template bgp4 distance 200255
 template bgp4 connection-mode active
 template bgp4 compression both
 template bgp4 update-source loopback1
 template bgp4 hostname
 template bgp4 aigp
 template bgp4 traffeng
 template bgp4 pmsitun
 template bgp4 tunenc
 template bgp4 attribset
 template bgp4 segrout
 template bgp4 bier
 template bgp4 route-reflector-client
 template bgp4 next-hop-unchanged
 template bgp4 send-community all
 listen ACL-IPv4-RR-CLIENT bgp4
 neighbor 11.11.11.11 remote-as 65535
 neighbor 11.11.11.11 description basic ibgp -> rr2
 neighbor 11.11.11.11 local-as 65535
 neighbor 11.11.11.11 address-family unicast multicast other flowspec vpnuni vpnmlt vpnflw ovpnuni ovpnmlt ovpnflw vpls mspw evpn mdt srte mvpn omvpn
 neighbor 11.11.11.11 distance 200
 neighbor 11.11.11.11 update-source loopback1
 exit
!
router bgp6 65535
 vrf v1
 local-as 65535
 router-id 10.10.10.10
 address-family unicast multicast other flowspec vpnuni vpnmlt vpnflw ovpnuni ovpnmlt ovpnflw vpls mspw evpn mdt srte mvpn omvpn
 nexthop route-policy NHT
 nexthop prefix-list PFX-IPv6-NHT
 template bgp6 remote-as 65535
 template bgp6 description rr clients
 template bgp6 local-as 65535
 template bgp6 address-family unicast multicast other flowspec vpnuni vpnmlt vpnflw ovpnuni ovpnmlt ovpnflw vpls mspw evpn mdt srte mvpn omvpn
 template bgp6 distance 200255
 template bgp6 connection-mode active
 template bgp6 compression both
 template bgp6 update-source loopback1
 template bgp6 hostname
 template bgp6 aigp
 template bgp6 traffeng
 template bgp6 pmsitun
 template bgp6 tunenc
 template bgp6 attribset
 template bgp6 segrout
 template bgp6 bier
 template bgp6 route-reflector-client
 template bgp6 next-hop-unchanged
 template bgp6 send-community all
 listen ACL-IPv6-RR-CLIENT bgp6
 neighbor fd00::b remote-as 65535
 neighbor fd00::b description description basic ibgp -> rr2
 neighbor fd00::b local-as 65535
 neighbor fd00::b address-family unicast multicast other flowspec vpnuni vpnmlt vpnflw ovpnuni ovpnmlt ovpnflw vpls mspw evpn mdt srte mvpn omvpn
 neighbor fd00::b distance 200
 neighbor fd00::b update-source loopback1 template bgp6 tunenc
 template bgp6 attribset
 template bgp6 segrout
 template bgp6 bier
 template bgp6 route-reflector-client
 template bgp6 next-hop-unchanged
 template bgp6 send-community all
 listen ACL-IPv6-RR-CLIENT bgp6
 exit
!
!
!
!
!
!
!
!
!
!
!
!
!
!
server telnet tel
 security protocol telnet
 no exec authorization
 no login authentication
 vrf v1
 exit
!
!
end


...

Expand
titleLaunch router: freerouterrr1


Code Block
languagebash
themeMidnight
titlefreeRouter launch with supplied freerouterrr1-hw.txt and freerouterrr1-sw.txt with a console prompt
╭─[6:06:13]floui@debian ~/freeRouter  
╰─➤  java -jar lib/rtr.jar routersc etc/rr1-hw.txt etc/rr1-sw.txt                                                                                      3 ↵
info cfg.cfgInit.doInit:cfgInit.java:556 booting
info cfg.cfgInit.doInit:cfgInit.java:680 initializing hardware
info cfg.cfgInit.doInit:cfgInit.java:687 applying defaults
info cfg.cfgInit.doInit:cfgInit.java:695 applying configuration
info cfg.cfgInit.doInit:cfgInit.java:721 done
welcome
line ready
rr1#                   


Code Block
languagebash
themeMidnight
titleLaunch pcapInt in order to bind socket localhost:26011 to localhost26021@enp0s9for both interface enp0s9
╭─[6:06:13]floui@debian[1]  ~/freeRouter/bin  
╰─➤  sudo ./pcapInt.bin enp0s9 10012 127.0.0.1 10011 127.0.0.1                                                                                                       1 
binded to local port 127.0.0.1 10012.
will send to 127.0.0.1 10011.
pcap version: libpcap version 1.8.1
opening interface enp0s9 with pcap1.x api
serving others
> 


Code Block
languagebash
themeMidnight
titleLaunch pcapInt in order to bind socket localhost:26011 to localhost26021@enp0s9for both interface enp0s10
╭─[6:06:13]floui@debian[1]  ~/freeRouter/bin  
╰─➤  sudo ./pcapInt.bin enp0s10 10022 127.0.0.1 10021 127.0.0.1                                                                                                       1 ↵
binded to local port 127.0.0.1 10022.
will send to 127.0.0.1 10021.
pcap version: libpcap version 1.8.1
opening interface enp0s10 with pcap1.x api
serving others
> 


...

Expand
titleCheck telnet access for R1@1123 and R2@2223rr1@10010


Code Block
languagebash
themeMidnight
titleR1 rr1 telnet access from Virtualbox VM guest via port 112310010
╭─[1:09:28]floui@debian ~  
╰─➤  telnet localhost 232310010
Trying ::1...
Trying 127.0.0.1...
Connected to localhost.
Escape character is '^]'.
welcome
line ready
rr1#                   


...

Expand
titleConnectivity test between rr1 and other BGP speakers


Code Block
languagebash
themeMidnight
titleCheck reachability from one RR client (c5 for example)
c5#sh ipv4 route v1                                                            
typ  prefix          metric    iface      hop       time
O    1.1.1.1/32      110/1     ethernet1  10.1.5.1  00:07:22
O    2.2.2.2/32      110/2     ethernet1  10.1.5.1  00:07:07
O    3.3.3.3/32      110/2     ethernet2  10.4.5.4  00:06:49
O    4.4.4.4/32      110/1     ethernet2  10.4.5.4  00:06:35
C    5.5.5.5/32      0/0       loopback1  null      00:25:07
O    6.6.6.6/32      110/2     ethernet1  10.1.5.1  00:06:00
O    7.7.7.7/32      110/3     ethernet1  10.1.5.1  00:05:46
O    8.8.8.8/32      110/2     ethernet2  10.4.5.4  00:05:17
O    10.1.2.0/24     110/1     ethernet1  10.1.5.1  00:25:06
O    10.1.4.0/24     110/1     ethernet2  10.4.5.4  00:25:05
C    10.1.5.0/24     0/0       ethernet1  null      00:25:07
LOC  10.1.5.5/32     0/1       ethernet1  null      00:25:07
O    10.1.6.0/24     110/1     ethernet1  10.1.5.1  00:25:06
O    10.1.10.0/24    110/1     ethernet1  10.1.5.1  00:25:06
O    10.2.3.0/24     110/2     ethernet2  10.4.5.4  00:24:53
O    10.2.6.0/24     110/2     ethernet1  10.1.5.1  00:25:05
O    10.2.7.0/24     110/2     ethernet1  10.1.5.1  00:24:56
O    10.2.11.0/24    110/2     ethernet1  10.1.5.1  00:24:56
O    10.3.4.0/24     110/1     ethernet2  10.4.5.4  00:25:05
O    10.3.7.0/24     110/2     ethernet2  10.4.5.4  00:24:53
O    10.3.8.0/24     110/2     ethernet2  10.4.5.4  00:24:50
O    10.3.11.0/24    110/2     ethernet2  10.4.5.4  00:24:53
C    10.4.5.0/24     0/0       ethernet2  null      00:25:07
LOC  10.4.5.5/32     0/1       ethernet2  null      00:25:07
O    10.4.8.0/24     110/1     ethernet2  10.4.5.4  00:25:05
O    10.4.10.0/24    110/1     ethernet2  10.4.5.4  00:25:05
O    10.10.10.10/32  110/4445  ethernet1  10.1.5.1  00:11:05
O    11.11.11.11/32  110/4446  ethernet1  10.1.5.1  00:09:01

c5#sh ipv4 ospf 1 topo 0                                                       
node      reach  via       ifc        met   hop  conn  sr  br  neighbors
4.4.4.1   true   10.1.5.1  ethernet1  1     1    5     0   0   4.4.4.2=1=10.1.2.1 4.4.4.4=1=10.1.4.1 4.4.4.5=1=10.1.5.1 4.4.4.6=1=10.1.6.1 4.4.4.10=4444=10.1.10.1
4.4.4.2   true   10.1.5.1  ethernet1  2     2    5     0   0   4.4.4.1=1=10.1.2.2 4.4.4.3=1=10.2.3.2 4.4.4.7=1=10.2.7.2 4.4.4.6=1=10.2.6.2 4.4.4.11=4444=10.2.11.2
4.4.4.3   true   10.4.5.4  ethernet2  2     2    4     0   0   4.4.4.2=1=10.2.3.3 4.4.4.4=1=10.3.4.3 4.4.4.8=1=10.3.8.3 4.4.4.7=1=10.3.7.3
4.4.4.4   true   10.4.5.4  ethernet2  1     1    5     0   0   4.4.4.3=1=10.3.4.4 4.4.4.8=1=10.4.8.4 4.4.4.5=1=10.4.5.4 4.4.4.1=1=10.1.4.4 4.4.4.10=4444=10.4.10.4
4.4.4.5   true   null      null       0     0    2     0   0   4.4.4.1=1=10.1.5.5 4.4.4.4=1=10.4.5.5
4.4.4.6   true   10.1.5.1  ethernet1  2     2    2     0   0   4.4.4.1=1=10.1.6.6 4.4.4.2=1=10.2.6.6
4.4.4.7   true   10.1.5.1  ethernet1  3     3    2     0   0   4.4.4.2=1=10.2.7.7 4.4.4.3=1=10.3.7.7
4.4.4.8   true   10.4.5.4  ethernet2  2     2    2     0   0   4.4.4.3=1=10.3.8.8 4.4.4.4=1=10.4.8.8
4.4.4.10  true   10.1.5.1  ethernet1  4445  2    2     0   0   4.4.4.1=4444=10.1.10.10 4.4.4.4=4444=10.4.10.10
4.4.4.11  true   10.1.5.1  ethernet1  4446  3    1     0   0   4.4.4.2=4444=10.2.11.11

c5#sh ipv6 route v1                                                            
typ  prefix                 metric    iface      hop               time
O    fd00::1/128            110/1     ethernet1  fd00:cafe::1:5:1  00:08:06
O    fd00::2/128            110/2     ethernet1  fd00:cafe::1:5:1  00:07:51
O    fd00::3/128            110/2     ethernet2  fd00:cafe::4:5:4  00:07:33
O    fd00::4/128            110/1     ethernet2  fd00:cafe::4:5:4  00:07:19
C    fd00::5/128            0/0       loopback1  null              00:25:51
O    fd00::6/128            110/2     ethernet1  fd00:cafe::1:5:1  00:06:43
O    fd00::7/128            110/3     ethernet1  fd00:cafe::1:5:1  00:06:29
O    fd00::8/128            110/2     ethernet2  fd00:cafe::4:5:4  00:06:01
O    fd00::a/128            110/6667  ethernet1  fd00:cafe::1:5:1  00:11:45
O    fd00::b/128            110/6668  ethernet1  fd00:cafe::1:5:1  00:09:45
O    fd00:cafe::1:2:0/112   110/1     ethernet1  fd00:cafe::1:5:1  00:25:49
O    fd00:cafe::1:4:0/112   110/1     ethernet2  fd00:cafe::4:5:4  00:25:49
C    fd00:cafe::1:5:0/112   0/0       ethernet1  null              00:25:51
LOC  fd00:cafe::1:5:5/128   0/1       ethernet1  null              00:25:51
O    fd00:cafe::1:6:0/112   110/1     ethernet1  fd00:cafe::1:5:1  00:25:49
O    fd00:cafe::1:10:0/112  110/1     ethernet1  fd00:cafe::1:5:1  00:25:49
O    fd00:cafe::2:3:0/112   110/2     ethernet1  fd00:cafe::1:5:1  00:25:37
O    fd00:cafe::2:6:0/112   110/2     ethernet1  fd00:cafe::1:5:1  00:25:37
O    fd00:cafe::2:7:0/112   110/2     ethernet1  fd00:cafe::1:5:1  00:25:37
O    fd00:cafe::2:11:0/112  110/2     ethernet1  fd00:cafe::1:5:1  00:25:37
O    fd00:cafe::3:4:0/112   110/1     ethernet2  fd00:cafe::4:5:4  00:25:49
O    fd00:cafe::3:7:0/112   110/2     ethernet2  fd00:cafe::4:5:4  00:25:37
O    fd00:cafe::3:8:0/112   110/2     ethernet2  fd00:cafe::4:5:4  00:25:37
O    fd00:cafe::3:11:0/112  110/2     ethernet2  fd00:cafe::4:5:4  00:25:37
C    fd00:cafe::4:5:0/112   0/0       ethernet2  null              00:25:51
LOC  fd00:cafe::4:5:5/128   0/1       ethernet2  null              00:25:51
O    fd00:cafe::4:8:0/112   110/1     ethernet2  fd00:cafe::4:5:4  00:25:49
O    fd00:cafe::4:10:0/112  110/1     ethernet2  fd00:cafe::4:5:4  00:25:49

c5#sh ipv6 ospf 1 topo 0                                                       
node               reach  via               ifc        met   hop  conn  sr  br  neighbors
6.6.6.1/00000000   true   fd00:cafe::1:5:1  ethernet1  1     1    5     0   0   6.6.6.2/00000000=1=10012 6.6.6.4/00000000=1=10015 6.6.6.5/00000000=1=10012 6.6.6.6/00000000=1=10012 6.6.6.10/00000000=6666=10012
6.6.6.2/00000000   true   fd00:cafe::1:5:1  ethernet1  2     2    5     0   0   6.6.6.1/00000000=1=10012 6.6.6.3/00000000=1=10012 6.6.6.7/00000000=1=10012 6.6.6.6/00000000=1=10013 6.6.6.11/00000000=6666=10012
6.6.6.3/00000000   true   fd00:cafe::4:5:4  ethernet2  2     2    4     0   0   6.6.6.2/00000000=1=10013 6.6.6.4/00000000=1=10012 6.6.6.8/00000000=1=10012 6.6.6.7/00000000=1=10013
6.6.6.4/00000000   true   fd00:cafe::4:5:4  ethernet2  1     1    5     0   0   6.6.6.3/00000000=1=10013 6.6.6.8/00000000=1=10013 6.6.6.5/00000000=1=10013 6.6.6.1/00000000=1=10013 6.6.6.10/00000000=6666=10013
6.6.6.5/00000000   true   null              null       0     0    2     0   0   6.6.6.1/00000000=1=10014 6.6.6.4/00000000=1=10014
6.6.6.6/00000000   true   fd00:cafe::1:5:1  ethernet1  2     2    2     0   0   6.6.6.1/00000000=1=10015 6.6.6.2/00000000=1=10015
6.6.6.7/00000000   true   fd00:cafe::1:5:1  ethernet1  3     3    2     0   0   6.6.6.2/00000000=1=10014 6.6.6.3/00000000=1=10015
6.6.6.8/00000000   true   fd00:cafe::4:5:4  ethernet2  2     2    2     0   0   6.6.6.3/00000000=1=10014 6.6.6.4/00000000=1=10013
6.6.6.10/00000000  true   fd00:cafe::1:5:1  ethernet1  6667  2    2     0   0   6.6.6.1/00000000=6666=10016 6.6.6.4/00000000=6666=10016
6.6.6.11/00000000  true   fd00:cafe::1:5:1  ethernet1  6668  3    1     0   0   6.6.6.2/00000000=6666=10016


Code Block
languagebash
themeMidnight
titlePing from R2 -> R1rr1 from c5
c5#ping 10.10.10.10 /vrf v1                                                    
pinging 10.10.10.10, src=null, vrf=v1, cnt=5, len=64, tim=1000, ttl=255, tos=0, sweep=false
!!!!!
result=100%, recv/sent/lost=5/5/0, rtt min/avg/max/total=0/0/1/4
c5#ping fd00::a /vrf v1                                                        
pinging fd00::a, src=null, vrf=v1, cnt=5, len=64, tim=1000, ttl=255, tos=0, sweep=false
!!!!!
result=100%, recv/sent/lost=5/5/0, rtt min/avg/max/total=0/0/1/4
c5#                                                                                                                                                 


...

  • had a brief introduction of BGP protocol and BGP route reflector rationale
  • learned the design consideration related to BGP RR setup 
  • got a typical BGP configuration example with a long list of AFI/SAFI enabled
  • This configuration is not exhaustive as for example BGP add=-path is available but not configured
  • verified BGP RR operation

...