6 Things Every Website Owner Must Know About IPv6 - Blogging, Small Business, Web Design & Hosting Tips - A Small Orange

6 Things Every Website Owner Must Know About IPv6

Are You Prepared for IPv6? Relax, you probably are – you just don’t know it. Even though this might sound like the latest pandemic, surviving IPv6 won’t require a single inoculation or even a booster shot. Why are we even talking about IPv6? If you haven’t heard, the last bundle of web addresses was doled out just the other day. Before you panic, the solution, IPv6, is already installed on most computer systems and patiently waiting for activation.

To ease your confusion and increase your comfort level, here’s a little more information about this transition:

1. What is IPv6 Anyway?

Have you ever stopped to think about how your browser knows where to go when you click a link or type in a web address? Somehow, this little program performs unlimited feats of high-tech magic to instantly connect your device to the website of your choice regardless of its location. Although we all take this for granted, it’s really quite amazing when you stop to think about it.

This magic trick is actually based on something known as the TCP/IP address, and IPv6 is just the latest protocol used to create this unique identifier. If you have a website, you have a TCP/IP address. Don’t be too concerned if you have no idea what it is – you don’t have to! This is what you pay your host to keep track of.

If you’re smart, you purchased a domain name that will go with you if you decide to make the jump from one web host to the next. During the move, you can keep your domain name, but you’ll trade TCP/IP addresses.  A great web host will make this change for you, and it will be completely invisible to both you and your dedicated audience.

IPv6 actually stands for Internet Protocol version 6. Don’t get confused is someone refers to this new release as IPng or Internet Protocol next generation. It’s all the same thing.

2. What Happened with the Old System?

Our old system, known as IPv4 by the way, allowed for 4.3 billion unique addresses. Back in the day, when the Department of Defense was developing the TCP/IP system for connecting remote computers and transferring data, this number was more than enough.

If you want to sound like you know what you’re talking about, let it slip that you know all about the migration from IPv4 to IPv6. Although there really was an IPv5, this stepchild of the Internet industry was never put to use and it has simply faded away into the sunset. By the way, that’s another way to sound super techy – sunsetting a program is a cool way of saying it’s been relegated to the app graveyard.

3. How Did We Burn Through 4.3 Billion Addresses?

If you’re wondering how we burned through 4.3 billion addresses, consider this: not only does every web site need an address, but so does every device connected to the internet. This includes not only personal computers and laptops, but smartphones, tablets, and a host of other gadgets.

Do we really have 4.3 billion devices plugged in? Probably not, but huge blocks were reserved for research or sold to large companies in times of plenty. Many of these addresses aren’t being used, but they can’t be pulled back into the public pool for a variety of reasons.

4. How Many Addresses Does IPv6 Allow?

Because IPv6 has an impressive 128 bits compared to IPv4’s meager 32 bits, it allows for an amazing 340,282,366,920,938,463,463,374,607,431,768,211,456 different addresses. As a calculation, it’s best described as 2 to the 128thpower.  To impress your friends, casually refer to it as just a shade over 340 undecillion.

To put it in more practical terms, read through some of these descriptions:

  • Steven Leibson says, “we could assign an IPV6 address to EVERY ATOM ON THE SURFACE OF THE EARTH, and still have enough addresses left to do another 100+ earths.”
  • According to Wikipedia, “The very large IPv6 address space supports a total of 2128 (about 3.4×1038) addresses – or approximately 5×1028 (roughly 295) addresses for each of the roughly 6.5 billion (6.5×109) people alive today. In a different perspective, this is 252 addresses for every observable star in the known universe.”

5. How is IPv6 Different from IPv4?

IPv4 and IPv6 have a few more differences in addition to length. Let’s take a look at some of the changes:

  • IPv4 format –
  • IPv6 format – 4aae:17a1:1a23:45:179:a8ff:12fe:cf67
  • IPv4 uses dots to separate the nodes in the address, while IPv6 uses colons
  • IPv4 uses only decimal numbers, while IPv6 uses a hexadecimal system to conserve space. In hex, a single digit can range from 0 to 15 represented by the symbols 0-9 and a-f.
  • IPv6’s larger capacity make the router’s job much easier and improves performance.
  • IPv6 is designed to work better with mobile networks and with bigger payloads on any device.

By cisco (cisco.com) [GFDL (http://www.gnu.org/copyleft/fdl.html) or CC-BY-SA-3.0 (www.creativecommons.org/licenses/by-sa/3.0/)], via Wikimedia Commons

6. What Does This Mean for My Website?

If you’ve chosen your web hosting provider well, it only means that you can expect faster speeds and more flexibility in the future. They’ll take care of any required conversion efforts for you. However, if you’re hosting your own site or your service is behind the times, you could be scrambling at the last minute to make these changes yourself.

Sites that aren’t ready for the switch when IPv4 is no longer accepted won’t suddenly crash, but they may go from smooth to glitchy. Everyone does have just a little bit of breathing room, though. This June, the Internet Society will officially test this new protocol and the big boys like Google are announcing they will make a test switch to IPv6 for a day or so to check for problems.

Although it’s always considered a best practice to know a little about the details, plan on a smooth transition to IPv6 in the coming year!

  • William Hook

    Soooo…..is ASO IPv6 ready then?

  • That is a big number.

  • Usman

    What will happen to those IP that have been statically assigned?

    I think you need to write an article for that. I have a VPS with a static IP assigned to the DNS on VPS.

    • Jennifer

      Thanks for the suggestion!

  • What’s the point of posting this if it doesn’t even mention ASO’s ipv6 transition status?

    Since moving over from Draknet, I’ve been severely disappointed in the poor quality of this blog. It reads like you bought articles already-finished from a PR person specializing in technology.

    • Jennifer

      Hey, Rob! ASO doesn’t use their blog in the same way DrakNet does – this blog is for general articles to educate anyone. Our blog was much more narrowly focused to talk directly to our customers.

      For specific ASO announcements, Following http://forums.asmallorange.com/forum/3-company-news/ via RSS will get you more ASO specific information.

  • useful and helpful post. The most interesting thing in IPv6 is undoubtedly the extension to tablets and phones which are the future main applications used !

  • wakeupgodfrey

    IPv4 addresses only need to be assigned to devices with a public interface, not every single device with internet connectivity.

    For instance, right now my Android phone is connected to the internet through my cell phone plan, and if I get into the testing interface by dialing *#*#4636#*#* I can tell that I have a 10.*.*.* IP. This is an address in the private addressing space, not the public IP space, which is referenced by this post.

    While I am sure it is much more convenient for someone to be able to have an IPv6 address for every single device with the potential to connect to the internet, my tablet will never use one of those IPv6 addresses, nor did it ever use one of the publicly addressable v4 IPs referenced above, nor did my desktop, laptop, or any other device I use at home. Even the IP address assigned to my home internet cablemodem is a public address shared by my ISP. Although they represent that each address they own is dynamically assigned to only one modem, judicious testing has revealed that they often assign at least some of their range of IPv4 addresses to multiple units simultaneously through some routing wizardry on their end.

    If you go to a service like http://nwtools.com/ you can see your public IP address. Going to nwtools.com from multiple devices behind the same home internet connection will reveal that your home internet devices are not clogging up the IPv4 addressing space.