Some consultant needs to specialize in this and help folks provision, configure, deploy, test etc. We all need this or will need this.
From: Faisal Imtiaz Sent: Wednesday, October 26, 2016 8:31 PM To: af Subject: [AFMUG] Fwd: [WISPA] IPV6 deploymernt An excellent detailed solution (from one of the other forums). Faisal Imtiaz Snappy Internet & Telecom 7266 SW 48 Street Miami, FL 33155 Tel: 305 663 5518 x 232 Help-desk: (305)663-5518 Option 2 or Email: supp...@snappytelecom.net -------------------------------------------------------------------------------- From: "Tim Way" <t...@way.vg> To: "WISPA General List" <wirel...@wispa.org> Sent: Tuesday, October 25, 2016 9:01:51 PM Subject: Re: [WISPA] IPV6 deploymernt Art, So I know of two solid methods that could solve your problem. Neither are super awesome and both would involve NAT. 1. IPv6 only to the client with NAT64 and DNS64 to handle IPv4 only connectivity 2. IPv4 CGN Shared Address Space, RFC 6598 100.64.0.0/10, and IPv6 Global Unicast running in Dual Stack Either one would work. I apologize in advance for the long post that follows. I've only done the configurations on Cisco routers with the radios just passing traffic at layer 2. I'd have to check the feature set of your routers routing wise but it shouldn't be hard. It also could be built in a lab with static routing largely. I think Mikrotik supports NAT64 but again for a lab environment any recent Cisco device could be used with IP Services licensing. Your address plan for your global unicast IPv6 space comes into play. This is how I would lab it up including moving routing to the tower with the CPE in bridge mode: Your fictional IPv6 prefix: 9999:8888::/32 Your NAT64 Prefix: 9999:8888:cc00::/96 Customer DHCPv6-PD Allocation Prefix: 9999:8888:aa00::/40 Your fictional customer #1: The Johnson Family, 9999:8888:aa00:0100::/56 Your fictional customer #2: The Billings' Family, 9999:8888:aa00:0200::/56 Fictional Tower 1 ISP Mgmt VLAN of CPE: 11, 9999:8888:bb00:0011::/64 ISP Customer VLAN of CPE: 12, 9999:8888:bb00:0012::/64 ISP Router at the tower on VLAN 11: 9999:8888:bb00:0011::1/64 ISP Router at the tower on VLAN 12: 9999:8888:bb00:0012::1/64 The Johnson Family Setup: ISP CPE VLAN 11 IP: 9999:8888:bb00:0011::f/64 Customer's Netgear WAN Interface: 9999:8888:bb00:0012::f/64 Customer's Netgear LAN Interface: 9999:8888:aa00:010a::1/64 Customer's Netgear Guest WiFi: 9999:8888:aa00:010b::1/64 The Billings' Family Setup: ISP CPE VLAN 11 IP: 9999:8888:bb00:0011::e/64 Customer's Netgear WAN Interface: 9999:8888:bb00:0012::e/64 Customer's Netgear LAN Interface: 9999:8888:aa00:020a::1/64 Customer's Netgear Guest WiFi: 9999:8888:aa00:020b::1/64 1. You'd bridge VLAN 12 through the CPE to customer's WAN interface as the native VLAN and put the IP on VLAN 11. 2. If you use static routing and manual address assignment to eliminate variables in the lab you'll want to add static routes on the tower router for the ::/56 prefixes that would be allocated to each customer. Normally these routes will be injected into the routing table at the DHCPv6 router and could be distributed from there. 3. The last piece of the puzzle will be adding in the NAT64 and DNS64 devices. BIND can do DNS64 and you could use a Cisco router to do the NAT64. You'd want the "Customer's Netgear" to use the DNS64 server as it's upstream DNS server to ensure that it receives AAAA records for sites that only have A records. This is the fragile component of the DNS64 and NAT64 deployment because it requires the customers computer or router uses your resolver. You will want to ensure the router performing NAT64 is advertising the prefix it is using for NAT64 into your IGP or that your default routed traffic lands on that NAT64 to ensure it is routed correctly. This should get you a functional IPv6 only customer network that only returns AAAA records for all DNS requests. It's a little late so I apologize for any mistakes in the addressing. Also I will think about doing this with routing at the CPE as well overnight and add that response. I'd be very intrigued to see this in a lab environment with the fictional customers all setup to see how NAT64 and DNS64 actually works in reality instead of just implementing CGN which I see as the less visible or resilient change for the customer. That said I see the pure IPv6 deployment with NAT64 and DNS64 as the better long term solution if you could reliably ensure your customers use your DHCP server or ensure that your tech support says to reset that right away. It also would break a customer using OpenDNS to restrict web-sites from their kid's for example. Thanks, Tim On Tue, Oct 25, 2016 at 4:42 PM, Art Stephens <asteph...@ptera.com> wrote: Tim, So we are an IPV4 ISP not able to get any more IPV4 address space. We have IPV6 working in office, and on server network. I have working windows and linux IPV6 only configured machines but obviously they can only access IPV6 capable web sites and such. But we will need to start assigning IPV6 WAN address to customer routers and UBNT radios in radio router mode when we get a CRM that supports IPV6. I am a little aware of NAT64 but all my googling for NAT64 applications yields NAT64 for networks with Public address on one side and private addresses on the other. We try to keep all of our network WAN on public addresses. So far I have tried three so called ipv6 ready routers and could get none of them to work with static IPV6 addressing. Hope that explains what you are looking for. Thanks for your help. On Tue, Oct 25, 2016 at 12:52 PM, Tim Way <t...@way.vg> wrote: Dual stack is a different architecture than having two separate networks running with one running IPv4 and one running IPv6. To connect the two disparate networks you would need to perform address family translation (NAT64). In dual-stack it will prefer IPv6 when available, minus happy eyeballs, but otherwise has legs or transit via both protocols to access the necessary resource if it is either IPv4 or IPv6. To start I would ask to clarify what you are trying to do and I'd be happy to help in anyway I can. I'm a bit of an IPv6 crazy. Tim On Tue, Oct 25, 2016 at 2:41 PM, Art Stephens <asteph...@ptera.com> wrote: Any out there successfully deployed dual stack network can share what equipment used for pure ipv6 access to ipv4 networks? -- Arthur Stephens Senior Networking Technician Ptera Inc. PO Box 135 24001 E Mission Suite 50 Liberty Lake, WA 99019 509-927-7837 ptera.com | facebook.com/PteraInc | twitter.com/Ptera ----------------------------------------------------------------------------- "This message may contain confidential and/or propriety information, and is intended for the person/entity to whom it was originally addressed. Any use by others is strictly prohibited. Please note that any views or opinions presented in this email are solely those of the author and are not intended to represent those of the company." _______________________________________________ Wireless mailing list wirel...@wispa.org http://lists.wispa.org/mailman/listinfo/wireless _______________________________________________ Wireless mailing list wirel...@wispa.org http://lists.wispa.org/mailman/listinfo/wireless -- Arthur Stephens Senior Networking Technician Ptera Inc. PO Box 135 24001 E Mission Suite 50 Liberty Lake, WA 99019 509-927-7837 ptera.com | facebook.com/PteraInc | twitter.com/Ptera ----------------------------------------------------------------------------- "This message may contain confidential and/or propriety information, and is intended for the person/entity to whom it was originally addressed. Any use by others is strictly prohibited. Please note that any views or opinions presented in this email are solely those of the author and are not intended to represent those of the company." _______________________________________________ Wireless mailing list wirel...@wispa.org http://lists.wispa.org/mailman/listinfo/wireless _______________________________________________ Wireless mailing list wirel...@wispa.org http://lists.wispa.org/mailman/listinfo/wireless