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Ziggo native IPv6 Edgerouter configuration

This page outlines the steps needed to configure the Ziggo native IPv6 connectivity on a Ubiquity EdgeRouter.

{:toc}

Assumptions:

  • The EdgeRouter is directly connected to the cable modem (CM).
  • The CM is in bridge mode. This can be requested via Customer Service (former Ziggo area) or via Mijn Ziggo (former UPC area).
  • The CM is connected to eth0 on the router.
  • Internal networks are connected to eth1
  • You have reset the cable modem before attempting the steps below.

tl;dr

configure
set interfaces ethernet eth0 ipv6 address autoconf
set interfaces ethernet eth0 dhcpv6-pd pd 1 prefix-length 56
set interfaces ethernet eth0 dhcpv6-pd pd 1 interface eth1 host-address ::1
set interfaces ethernet eth0 dhcpv6-pd pd 1 interface eth1 prefix-id :0
set interfaces ethernet eth0 dhcpv6-pd pd 1 interface eth1 service dhcpv6-stateless
set firewall ipv6-name WAN6_IN default-action drop
set firewall ipv6-name WAN6_IN description 'WAN inbound traffic forwarded to LAN'
set firewall ipv6-name WAN6_IN enable-default-log
set firewall ipv6-name WAN6_IN rule 10 action accept
set firewall ipv6-name WAN6_IN rule 10 description 'Allow established/related sessions'
set firewall ipv6-name WAN6_IN rule 10 state established enable
set firewall ipv6-name WAN6_IN rule 10 state related enable
set firewall ipv6-name WAN6_IN rule 20 action drop
set firewall ipv6-name WAN6_IN rule 20 description 'Drop invalid state'
set firewall ipv6-name WAN6_IN rule 20 state invalid enable
set firewall ipv6-name WAN6_IN rule 30 action accept
set firewall ipv6-name WAN6_IN rule 30 description 'Allow IPv6 icmp'
set firewall ipv6-name WAN6_IN rule 30 icmpv6
set firewall ipv6-name WAN6_IN rule 30 protocol icmpv6
set firewall ipv6-name WAN6_LOCAL default-action drop
set firewall ipv6-name WAN6_LOCAL description 'WAN inbound traffic to the router'
set firewall ipv6-name WAN6_LOCAL enable-default-log
set firewall ipv6-name WAN6_LOCAL rule 10 action accept
set firewall ipv6-name WAN6_LOCAL rule 10 description 'Allow established/related sessions'
set firewall ipv6-name WAN6_LOCAL rule 10 state established enable
set firewall ipv6-name WAN6_LOCAL rule 10 state related enable
set firewall ipv6-name WAN6_LOCAL rule 20 action drop
set firewall ipv6-name WAN6_LOCAL rule 20 description 'Drop invalid state'
set firewall ipv6-name WAN6_LOCAL rule 20 state invalid enable
set firewall ipv6-name WAN6_LOCAL rule 30 action accept
set firewall ipv6-name WAN6_LOCAL rule 30 description 'Allow IPv6 icmp'
set firewall ipv6-name WAN6_LOCAL rule 30 protocol ipv6-icmp
set firewall ipv6-name WAN6_LOCAL rule 40 action accept
set firewall ipv6-name WAN6_LOCAL rule 40 description 'allow dhcpv6'
set firewall ipv6-name WAN6_LOCAL rule 40 destination port 546
set firewall ipv6-name WAN6_LOCAL rule 40 protocol udp
set firewall ipv6-name WAN6_LOCAL rule 40 source port 547
set interfaces ethernet eth0 firewall in ipv6-name WAN6_IN
set interfaces ethernet eth0 firewall local ipv6-name WAN6_LOCAL

Basic setup

Basic IPv6 connectivity from the router can be set up by adding the following configuration options to eth0:

set interfaces ethernet eth0 ipv6 address autoconf
commit

You will now see that there is an IPv6 address active on interface eth0:

mtak@er1:~$ show interfaces ethernet     
Codes: S - State, L - Link, u - Up, D - Down, A - Admin Down
Interface    IP Address                        S/L  Description                 
---------    ----------                        ---  -----------                 
eth0         83.85.23.20/23                    u/u  Ziggo                       
             2001:1c00:2500:0:adb2:751c:23b7:8f77/128

as well as routes for IPv6:

mtak@er1:~$ show ipv6 route
[...]
IP Route Table for VRF "default"
K      ::/0 [0/1024] via fe80::201:5cff:fe70:9446, eth0, 01:36:32
C      ::1/128 via ::, lo, 01w1d05h
C      2001:1c00:2500:0:adb2:751c:23b7:8f77/128 via ::, eth0, 01:16:33
C      fe80::/64 via ::, eth0, 01:43:38

You should be able to ping Google DNS over IPv6 now:

mtak@er1:~$ ping 2001:4860:4860::8888
PING 2001:4860:4860::8888(2001:4860:4860::8888) 56 data bytes
64 bytes from 2001:4860:4860::8888: icmp_seq=1 ttl=119 time=13.4 ms
64 bytes from 2001:4860:4860::8888: icmp_seq=2 ttl=119 time=13.8 ms
^C
--- 2001:4860:4860::8888 ping statistics ---
2 packets transmitted, 2 received, 0% packet loss, time 1001ms
rtt min/avg/max/mdev = 13.443/13.634/13.826/0.224 ms

Prefix delegation

Prefix delegation is a concept that is new in IPv6. It allows you to automatically generate subnets on your router based on a delegated prefix from your ISP. Ziggo will give you a /56 prefix, and you want to split that up in /64s for one or more subnets at home. You would be able to assign 2^(64-56)=256 subnets that way, each being a full /64 standard subnet size. Prefix delegation will automatically do that based on a number of configuration options. The delegation part of prefix delegation means that you automatically get assigned a prefix, but it's delegated to your control.

Single subnet

Let's look at an example:

set interfaces ethernet eth0 dhcpv6-pd pd 1 prefix-length 56
set interfaces ethernet eth0 dhcpv6-pd pd 1 interface eth1 host-address ::1
set interfaces ethernet eth0 dhcpv6-pd pd 1 interface eth1 prefix-id :0
set interfaces ethernet eth0 dhcpv6-pd pd 1 interface eth1 service dhcpv6-stateless

This will set up eth1 with the 0th subnet and host address 1:

mtak@er1:~$ show interfaces ethernet
Codes: S - State, L - Link, u - Up, D - Down, A - Admin Down
Interface    IP Address                        S/L  Description                 
---------    ----------                        ---  -----------                 
eth1         10.100.0.1/24                     u/u  Internal                    
             2001:1c00:2509:8200::1/64        

In this example, I got assigned the prefix 2001:1c00:2509:82. I know I have 64 subnets in my prefix, so I should be able to have /64s in the range 2001:1c00:2509:8200::/64 up to 2001:1c00:2509:82ff::/64 (because 0xff == 256).

With the configuration above, the router will automatically start assigning IPv6 addresses to hosts in the subnet via Stateless Address Autoconfiguration:

mtak@ans1:/etc/network$ ip a l eth0
2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc fq_codel state UP group default qlen 1000
    link/ether 2e:0a:c6:da:6a:3f brd ff:ff:ff:ff:ff:ff
    inet 10.100.0.73/24 brd 10.100.0.255 scope global eth0
       valid_lft forever preferred_lft forever
    inet6 2001:1c00:2509:8200:2c0a:c6ff:feda:6a3f/64 scope global dynamic mngtmpaddr noprefixroute 
       valid_lft 86388sec preferred_lft 14388sec
    inet6 fe80::2c0a:c6ff:feda:6a3f/64 scope link 
       valid_lft forever preferred_lft forever

(A static IP for servers is obviously more preferable. Refer to your operating systems manual on how to configure that)

Multiple subnets

The above configuration can be extended for up to 256 subnets:

set interfaces ethernet eth0 dhcpv6-pd pd 1 interface eth1.2 host-address ::1
set interfaces ethernet eth0 dhcpv6-pd pd 1 interface eth1.2 prefix-id :2
set interfaces ethernet eth0 dhcpv6-pd pd 1 interface eth1.2 service dhcpv6-stateless

set interfaces ethernet eth0 dhcpv6-pd pd 1 interface eth1.5 host-address ::1
set interfaces ethernet eth0 dhcpv6-pd pd 1 interface eth1.5 prefix-id :5
set interfaces ethernet eth0 dhcpv6-pd pd 1 interface eth1.5 service dhcpv6-stateless

With the resulting interface configuration:

mtak@er1:~$ show interfaces ethernet
Codes: S - State, L - Link, u - Up, D - Down, A - Admin Down
Interface    IP Address                        S/L  Description                 
---------    ----------                        ---  -----------                 
eth0         83.85.23.20/23                    u/u  Ziggo                       
             2001:1c00:2500:0:adb2:751c:23b7:8f77/128
eth1         10.100.0.1/24                     u/u  Internal                    
             2001:1c00:2509:8200::1/64        
eth1.2       10.100.2.1/24                     u/u  DMZ                         
             2001:1c00:2509:8202::1/64        
eth1.5       10.100.5.1/24                     u/u  Guest                       
             2001:1c00:2509:8205::1/64        
eth1.100     10.100.100.1/24                   u/u  MAAS                        
eth1.316     10.100.3.17/30                    u/u  RIPE Atlas                  

Firewall

In IPv6, there is no more NAT to hide behind, so a proper firewall setup is required.

A basic firewall for the WAN side of things can be configured:

set firewall ipv6-name WAN6_IN default-action drop
set firewall ipv6-name WAN6_IN description 'WAN inbound traffic forwarded to LAN'
set firewall ipv6-name WAN6_IN enable-default-log
set firewall ipv6-name WAN6_IN rule 10 action accept
set firewall ipv6-name WAN6_IN rule 10 description 'Allow established/related sessions'
set firewall ipv6-name WAN6_IN rule 10 state established enable
set firewall ipv6-name WAN6_IN rule 10 state related enable
set firewall ipv6-name WAN6_IN rule 20 action drop
set firewall ipv6-name WAN6_IN rule 20 description 'Drop invalid state'
set firewall ipv6-name WAN6_IN rule 20 state invalid enable
set firewall ipv6-name WAN6_IN rule 30 action accept
set firewall ipv6-name WAN6_IN rule 30 description 'Allow IPv6 icmp'
set firewall ipv6-name WAN6_IN rule 30 icmpv6
set firewall ipv6-name WAN6_IN rule 30 protocol icmpv6
set firewall ipv6-name WAN6_LOCAL default-action drop
set firewall ipv6-name WAN6_LOCAL description 'WAN inbound traffic to the router'
set firewall ipv6-name WAN6_LOCAL enable-default-log
set firewall ipv6-name WAN6_LOCAL rule 10 action accept
set firewall ipv6-name WAN6_LOCAL rule 10 description 'Allow established/related sessions'
set firewall ipv6-name WAN6_LOCAL rule 10 state established enable
set firewall ipv6-name WAN6_LOCAL rule 10 state related enable
set firewall ipv6-name WAN6_LOCAL rule 20 action drop
set firewall ipv6-name WAN6_LOCAL rule 20 description 'Drop invalid state'
set firewall ipv6-name WAN6_LOCAL rule 20 state invalid enable
set firewall ipv6-name WAN6_LOCAL rule 30 action accept
set firewall ipv6-name WAN6_LOCAL rule 30 description 'Allow IPv6 icmp'
set firewall ipv6-name WAN6_LOCAL rule 30 protocol ipv6-icmp
set firewall ipv6-name WAN6_LOCAL rule 40 action accept
set firewall ipv6-name WAN6_LOCAL rule 40 description 'allow dhcpv6'
set firewall ipv6-name WAN6_LOCAL rule 40 destination port 546
set firewall ipv6-name WAN6_LOCAL rule 40 protocol udp
set firewall ipv6-name WAN6_LOCAL rule 40 source port 547

(This rule set is based on the default Ubiquity Edgerouter IPv6 rule set)

This basic firewall set WAN6_IN will allow traffic that originated from inside the network (compare with IPv4 NAT), and it will allow ICMPv6 messages from outside to inside. There is some discussion on the internet as to whether this is safe, but that's beyond the scope of this document. The second firewall set, WAN6_LOCAL, will regulate traffic that is bound for the router itself. This is essentially the same set as above, but extended with rules for DHCPv6 and ICMPv6.

Once we have this firewall set, we can apply it to the WAN interface:

set interfaces ethernet eth0 firewall in ipv6-name WAN6_IN
set interfaces ethernet eth0 firewall local ipv6-name WAN6_LOCAL

Port forwarding

NO MORE PORTFORWARDING!!!111one!!

The enormous address space of IPv6 gives us the option to not have to use port forwarding anymore. You can directly connect to a host at home from anywhere on the internet, provided you have opened the firewall. An example would be:

set firewall ipv6-name WAN6_IN rule 20 action accept
set firewall ipv6-name WAN6_IN rule 20 description 'local webserver'
set firewall ipv6-name WAN6_IN rule 20 destination address 2001:1c00:2509:8200:2c0a:c6ff:feda:6a3f
set firewall ipv6-name WAN6_IN rule 20 destination port 80
set firewall ipv6-name WAN6_IN rule 20 protocol tcp

This will allow direct traffic from the internet to the host in your network:

mtak@dc4:~$ curl -si 'http://[2001:1c00:2509:8200:2c0a:c6ff:feda:6a3f]' | head -20
HTTP/1.1 200 OK
Date: Wed, 01 Dec 2021 14:01:30 GMT
Server: Apache/2.4.41 (Ubuntu)
Last-Modified: Wed, 01 Dec 2021 13:56:29 GMT
ETag: "2aa6-5d2160a6f0553"
Accept-Ranges: bytes
Content-Length: 10918
Vary: Accept-Encoding
Content-Type: text/html


<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
<html xmlns="http://www.w3.org/1999/xhtml">

Contributing

Pull requests are welcome at https://github.com/mtak/Ziggo-Edgerouter.

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