It is now superceded by Openfabric Routing see here
This will result in an IPv4 routable mesh network that can survive any one node failure or any one cable failure. All the steps in this section must be performed on each node
Please note the main section of this gist describes IPv4 on mesh. Lower down you will find additonal files that cpatures:
- differences if you want dual stack IPv4 / IPv6 routing (this is now what i run since writing the original gist)
- opernfabric instead of OSPF (to do)
this gist is part of this series
Key Information Used Note i used the 10.x IPv4 space as this is not used anywhere else on my network YMMV
lo = loopback en05/06 - these are the thunderbolt ports
Node l:
- lo:0 = 10.0.0.81/32
- en05 = 10.0.0.5/30
- en06 = 10.0.0.9/30
- ospf router-id = 0.0.0.1
Node 2:
- lo:0 = 10.0.0.82/32
- en05 = 10.0.0.10/30
- en06 = 10.0.0.13/30
- ospf router-id = 0.0.0.2
Node 3:
- lo:0 = 10.0.0.83/32
- en05 = 10.0.0.14/30
- en06 = 10.0.0.6/30
- ospf router-id = 0.0.0.3
Using IPv4 to take advantage of not needing to use addresses - does make things simpler
- uncomment
#net.ipv4.ip_forward=1
usingnano /etc/sysctl.conf
(remove the # symbol and save the file)
doing this means we don't have to give each thunderbolt a manual IPv6 addrees and that these addresses stay constant no matter what
Add the following to each node using nano /etc/network/interfaces
This should go uder the auto lo
section and for each node the X should be 1, 2 or depending on the node
auto lo:0
iface lo:0 inet static
address 10.0.0.8X/32
so on the first node it would look comething like this:
...
auto lo
iface lo inet loopback
auto lo:0
iface lo:0 inet static
address 10.0.0.81/32
...
Save file.
- use the table further up and assign addresses
- after appliying both addresss remeber to hit
apply configuration
button
- Install Free Range Routing (FRR)
apt install frr
- Edit the FRR config file:
nano /etc/frr/daemons
- Adjust
ospfd=no
toospfd=yes
- save the file
- restart the service with
systemctl restart frr
- enter the FRR shell with
vtysh
- optionally show the current config with
show running-config
- enter the configure mode with
configure
- Apply the bellow configuration (it is possible to cut and paste this into the shell instead of typing it manually, you may need to press return to set the last !. Also check there were no errors in repsonse to the paste text.). Note: the X should be the number of the node you are working on, so for my stetup this would 0.0.0.1, 0.0.0.2 or 0.0.0.3.
ip forwarding
!
router ospf
ospf router-id 0.0.0.X
log-adjacency-changes
exit
!
interface lo
ip ospf area 0
exit
!
interface en05
ip ospf area 0
ip ospf network broadcast
exit
!
interface en06
ip ospf area 0
ip ospf network broadcast
exit
!
- you may need to pres return after the last
!
to get to a new line - if so do this - exit the configure mode with the command
end
- save the configu with
write memory
- show the configure applied correctly with
show running-config
- note the order of the items will be different to how you entered them and thats ok. (If you made a mistake i found the easiest way was to edt/etc/frr/frr.conf
- but be careful if you do that.) - use the command
exit
to leave setup - repeat steps 1 to 9 on the other 3 nodes
- once you have configured all 3 nodes issue the command
vtysh -c "show ip ospf neighbor"
you will see:
root@pve1:~# vtysh -c "show ip ospf neighbor"
Neighbor ID Pri State Up Time Dead Time Address Interface RXmtL RqstL DBsmL
0.0.0.2 1 Full/DROther 52m26s 33.951s 10.0.0.10 en06:10.0.0.9 0 0 0
0.0.0.3 1 Full/DROther 51m56s 33.444s 10.0.0.6 en05:10.0.0.5 0 0 0
- now issue the command
vtysh -c "show ip route"
and you will see:
root@pve1:~# vtysh -c "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, F - PBR,
f - OpenFabric,
> - selected route, * - FIB route, q - queued, r - rejected, b - backup
t - trapped, o - offload failure
C>* 10.0.0.4/30 is directly connected, en05, 00:53:16
O>* 10.0.0.5/32 [110/0] is directly connected, en05, weight 1, 00:53:16
O 10.0.0.6/32 [110/10] via 10.0.0.6, en05 inactive, weight 1, 00:53:11
C>* 10.0.0.8/30 is directly connected, en06, 00:53:46
O>* 10.0.0.9/32 [110/0] is directly connected, en06, weight 1, 00:53:46
O 10.0.0.10/32 [110/10] via 10.0.0.10, en06 inactive, weight 1, 00:53:41
O>* 10.0.0.13/32 [110/10] via 10.0.0.10, en06, weight 1, 00:53:32
O>* 10.0.0.14/32 [110/10] via 10.0.0.6, en05, weight 1, 00:53:11
O 10.0.0.81/32 [110/0] is directly connected, lo, weight 1, 12:15:09
C>* 10.0.0.81/32 is directly connected, lo, 12:15:09
O>* 10.0.0.82/32 [110/10] via 10.0.0.10, en06, weight 1, 00:53:41
O>* 10.0.0.83/32 [110/10] via 10.0.0.6, en05, weight 1, 00:53:11
C>* 192.168.1.0/24 is directly connected, vmbr0, 12:15:06
and lastly ip route
root@pve1:~# ip route
default via 192.168.1.1 dev vmbr0 proto kernel onlink
10.0.0.4/30 dev en05 proto kernel scope link src 10.0.0.5
10.0.0.8/30 dev en06 proto kernel scope link src 10.0.0.9
10.0.0.12/30 nhid 53 proto ospf metric 20
nexthop via 10.0.0.6 dev en05 weight 1
nexthop via 10.0.0.10 dev en06 weight 1
10.0.0.82 nhid 54 via 10.0.0.10 dev en06 proto ospf metric 20
10.0.0.83 nhid 33 via 10.0.0.6 dev en05 proto ospf metric 20
192.168.1.0/24 dev vmbr0 proto kernel scope link src 192.168.1.81
##Testing Example You can now test the network by pinging the IPv4 loopback addresses of the other nodes. For example ping (using my IPs defined earlier):
ping 10.0.0.81
ping 10.0.0.82
ping 10.0.0.83
Now pull one of the TB cables and repeat the test.
You should still be able to ping all nodes!!
NP. you got me all excited, because it was a royal PITA to get the thunderbolt interfaces and IPs to remain on the same physical interface, lol :-)
Do you think i would have better luck going numberless if I switch to FRR OpenFabric (fabricd)?