You’re probably in a country that got a ton of allocations in the 90s. If you came from a country that was a little late to build out their infrastructure, or even tried to setup a new ISP in just about any country, you would have a much harder time.
Agreed. Though I wonder if ipv6 will ever displace ipv4 in things like virtual networks (docker, vpn, etc.) where there’s no need for a bigger address space
I’m using IPv6 on Kubernetes and it’s amazing. Every Pod has its own global IP address. There is no NAT and no giant ARP routing table slowing down the other computers on my network. Each of my nodes announces a /112 for itself to my router, allowing it to give addresses to over 65k pods. There is no feasible limit to the amount of IP addresses I could assign to my containers and load balancers, and no routing overhead. I have no need for port forwarding on my router or worrying about dynamic IPs, since I just have a /80 block with no firewall that I assign to my public facing load balancers.
Of course, I only have around 300 pods on my cluster, and realistically, it’s not really possible for there to be over 1 million containers in current kubernetes clusters, due to other limitations. But it is still a huge upgrade in reducing overhead and complexity, and increasing scale.
Should probably fix that given we’ve been out of IPv4 for over a decade now and v6 is only becoming more widely deployed
Really? Haven’t had trouble allocating new VPSs with IPv4 as of late…
You’re probably in a country that got a ton of allocations in the 90s. If you came from a country that was a little late to build out their infrastructure, or even tried to setup a new ISP in just about any country, you would have a much harder time.
Agreed. Though I wonder if ipv6 will ever displace ipv4 in things like virtual networks (docker, vpn, etc.) where there’s no need for a bigger address space
I’m using IPv6 on Kubernetes and it’s amazing. Every Pod has its own global IP address. There is no NAT and no giant ARP routing table slowing down the other computers on my network. Each of my nodes announces a /112 for itself to my router, allowing it to give addresses to over 65k pods. There is no feasible limit to the amount of IP addresses I could assign to my containers and load balancers, and no routing overhead. I have no need for port forwarding on my router or worrying about dynamic IPs, since I just have a /80 block with no firewall that I assign to my public facing load balancers.
Of course, I only have around 300 pods on my cluster, and realistically, it’s not really possible for there to be over 1 million containers in current kubernetes clusters, due to other limitations. But it is still a huge upgrade in reducing overhead and complexity, and increasing scale.