MIT Technology Review Slams IPv6 709
PCM2 writes "In the MIT Technology Review, Simson Garfinkel, noted author of Internet security books, writes that "the next version of the Internet Protocol, IPv6, will supply the world with addresses by the trillions. Too bad it will also make the Net slower and less secure." His article goes on to explain that all IPv6 code is untested and therefore insecure; that IPv6 makes encourages 'peer-to-peer based copyright violation systems'; and of course, that the switch is never going to happen anyway (and yet, somehow, the United States is 'falling behind')."
Another "IPv6 won't be here soon" article... (Score:5, Informative)
Good summary of CIDR and NATing adoption, too.
Re:Another "IPv6 won't be here soon" article... (Score:5, Insightful)
I didn't really follow the assertion that V6 would be less secure -- I expect that any such problem will be quickly fixed, and probably long before the majority of folks actually make the switch. As for the timing, I don't think it will be as long as Mr. Weekly says. I think that 2005 is a reasonable prediction for V6 reaching critical mass.
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Re:Another "IPv6 won't be here soon" article... (Score:3, Insightful)
Re:Another "IPv6 won't be here soon" article... (Score:4, Informative)
Re:Another "IPv6 won't be here soon" article... (Score:3, Insightful)
IPv6 misguidance - focus on security, service (Score:4, Insightful)
However, given the sad, vulnerable state of security and privacy, I'd expect more authors to expound on the benefits of IPv6's privacy and authentication mechanisms.
Likewise, as more bandwidth is eaten by spam and music downloading, IPv6 addresses quality of service, and better routing and addressing capabilities.
The only two reasons not to go IPv6, at least for intranets, is either espionage agencies oppose increased security and/or a particular large vendor fails to support it well. Maybe there are others. Wireless networks and VPNs are being thrown in all over the place. These are the perfect places to start with IPv6. The other option is NAT, but that will eventually have to be redone when the move is finally made. Kill 2 birds with one stone and install the new VPN or Wireless net with IPv6.
Re:Another "IPv6 won't be here soon" article... (Score:3, Interesting)
Slashdot vs MIT Tech Review, well Simson Garfinkel...
If people actually read the article... so it is Slashdot blathering as usual.
Simson is only saying out loud what everyone who has anything to do with the real Internet has known for years. There is a crushing need for IPv6 and the IETF plan for transition is about as practical as a manned space trip to Mars - not impossible but likely to cost a couple of trillion dollars and t
Re:Another "IPv6 won't be here soon" article... (Score:5, Interesting)
The solution is for routers sold with IPv6 support to come configured by default to have rules that prevent any incoming connections from the 'outside', wherever that may be for the router in question. That's just as secure as NAT, and doesn't have the stupidity of non-adressable nodes that somehow still get IP traffic from the outside.
Have you ever thought that IPv6 might actually increase security? It makes address scanning completely impractical. The method by which Code Red, and several other worms have spread would no longer work at all.
Re:Another "IPv6 won't be here soon" article... (Score:5, Insightful)
Re:Another "IPv6 won't be here soon" article... (Score:5, Informative)
Toredo lets you do IPv6 even if there is a NAT in the way and is supported by Windows XP.
IPv6 isn't hard, just people need to start doing it.
Comment removed (Score:5, Informative)
Re:Another "IPv6 won't be here soon" article... (Score:4, Informative)
Asia needs IPv6 because they got so little address space (at least that's the perception driving adoption, although in reality APNIC seems to have equitable access to IPv4 addresses). The Japanese government is pushing IPv6 hard, and many Japanese ISPs already support it. The US DoD mandated IPv6 for all new procurements for its key network from October 2003, so it's already causing vendors to have to support this.
As for home and 3G: huge volumes of IP-enabled kit will be shipped in the next 5 years (think TV, DVD recorder, hi-fi, personal MP3 players, fridge, alarm clock with weather forecast built in, etc.)
3G phones in Europe are beginning to mandate this (even my GPRS based SonyEricsson P800 has IPv6 built-in, as do all other recent Symbian phones). Even with GPRS, there are too many mobile phones for IPv4 to be practical and NAT is somewhat painful - this is why you can't do peer to peer from your phone (or laptop when mobile connected).
Peer to peer may be the one thing that really makes IPv6 take off - it doesn't necessarily have to be about copyright violations, of course, and it makes much better use of the processing power of phones, PDAs and laptops than client/server.
I agree that 2005 is not a reasonable prediction for wide adoption - I'd say at least 3-5 years out, depending on the above 'killer app' type scenarios.
Re:all kinds of paperwork? (Score:3, Informative)
Re:Another "IPv6 won't be here soon" article... (Score:3, Insightful)
The application "3degrees" makes use of the peer to peer componant for people to create groups to share music, chat and animations.
MS is pushing IPv6 heavily in Longhorn both for peer to peer collaberation applications and external devices such as bluetooth headsets.
Re:FreeBSD and (I've heard) XP already do (Score:5, Insightful)
Some people, who don't live in the real world, like to think of this type of thing as something that can just be phased out in a few years. Everyone will patch their systems slowly, and vendors will recompile the code with new libraries, and old routers will be replaced with hardware IPv6 routers, and then, magically, everyone is using IPv6.
The reality is that people won't patch their systems, routers will work for eons and nobody wants to replace them, and app vendors are long gone because they don't make money on your legacy app anymore.
This reminds me of arguments about switching to linux. I love GNU and linux of course, but we have a tendency to think of some typical case of an office or home user. But so many people, especially those most likely to care about switching, are atypical. To assume that eveyone needs the same things out of a computer is to turn it into an appliance, which has been shown to completely fail. It ends up that someone has an intricate, delicate system, and nobody in their right mind wants to touch it.
MIT is one to talk (Score:5, Insightful)
Re:MIT is one to talk (Score:5, Informative)
Re:MIT is one to talk (Score:5, Funny)
Re:MIT is one to talk (Score:5, Interesting)
IPv6 isn't just about having enough IPs for all the computers in the world. It's about having enough IPs for all the *anything* in the world - your toaster, your house-cleaning robot, whatever. Even things like RFID tags could potentially be given their own subset of the IPv6 address space - it's that huge.
Using the IPv4 space more efficiently might deal with the problem for a while, but it will not allow the expansion IPv6 would.
Re:MIT is one to talk (Score:5, Interesting)
Nat is a horrible and evil thing. Ever tried to run 4 ftp servers behind nat? Doesn't work very well does it? Right now there are barely enough ip's for every person to have one... but wait, what about work? oops now everybody needs two, but *gasp* your cell phone! Now everybody needs 3... we are already at 3 times what IPv4 can provide with what is already out there and popular and is pretty much guaranteed to be as essential tommorow as having a hammer or screwdriver.
What's more, people get new cellphones, they throw old ones away, sometimes have multiple phones, sometimes multiple computers. IPv6 would provide 5000 addresses for every micrometer of the surface of the earth. Giving everyhousehold on the internet a full 255 address block would be a fairly conservative approach in relation ot the address space.
Don't you want to see that world? Especially knowing it doesn't mean your can't have a router to share a net connection, and knowing that you can still be firewalled? Having public addresses means that you can configure your router not to block port x on ANY computer in your network, instead of being able to forward port x to ONE computer in your network.
Let's just hope when IPv6 becomes mainstream one can register for addresses without a fee right up on a website instead of the political review that is required now.
Re:MIT is one to talk (Score:5, Informative)
They may have once been a reputable magazine, but since Bruce Journey [technologyreview.com] took over, they are more concerned with selling magazines than quality reporting. Mr. Journey used to work for such rags as Time and TV Sports. When appointing Mr. Journey to lead Technology Review, William Hecht said [mit.edu]:
Besides that, Technology Review is twice removed from MIT. They are run by the Association of Alumni and Alumnae of the Massachusetts Institute of Technology which is loosely associated with MIT.
I would really like to know why Slashdot keeps posting fantastical stories from that ratings-driven rag.
Re:MIT is one to talk (Score:3, Insightful)
Most people (suits anyway) would look at the MIT name, and believe anything stated in the mag; with enough discussion here on /. and elsewhere, the techies of the world will have enough points on their hands to take it to their bosses and say exactly why the Review shouldn't be believed.
Re:MIT is one to talk (Score:5, Informative)
If you are going to pick on Class A owners, then I think there are plenty you can pick on before MIT. HP owns both the 15 and 16 spaces (16 was DEC, bought by Compaq, and now owned by HP). GE, Halliburton, Xerox, Apple, BBN (x2), FoMoCo, Prudential, Eli Lily, and even the US Postal Service are all official owners of at least a Class A network.
Stanford gave theirs up! MIT could too. (Score:4, Informative)
Re:MIT is one to talk (Score:3, Informative)
untested code... (Score:5, Insightful)
Re:untested code... (Score:5, Insightful)
Re:untested code... (Score:3, Insightful)
Re:untested code... (Score:3, Funny)
"D00d we need warez trading 2 organize n shit ok thx"
Re:untested code... (Score:5, Insightful)
Not to mention, simply Googling for "ipv6" will reveal many reasons as to why a 128-bit addressing space is advantageous to a smaller one, which you propose. Plus, a five-byte address space isn't ideal when taking general computing sense into consideration.
Excuse me but... (Score:5, Insightful)
Sure, they're not exactly the most honourable or squeaky clean businesses on the planet, but they sure as hell are the most popular.
Re:Excuse me but... (Score:5, Informative)
Remember people, IPv6 has been around in RFC form since December 1998 (5 years) - the adoption rate simply hasn't matched what was seemingly necessary.
Besides, ARIN isn't even close to full address depletion. There's so many spare
Re:Excuse me but... (Score:5, Informative)
1) I will define 'IP' for you now
2) This is why we need more Internet addresses (something above and beyond IPv4)
3) One problem with IPv6 is that no one uses it now. So the best thing to do is to make dual v4/v6 machines. But then you can never make v6 only because someone will always have v4. (wtf? 'we can never adopt v6 because we have not yet adopted v6'?)
4) NAT is super evil because its security is "a mirage"
5) The RIAA and MPAA will probably hate IPv6 because people can connect to each other more
6) IPv6 will only be introduced in the US when a government supplier wants it
I think that timothy must've posted this without reading the article itself -- or I've read the wrong article -- but the article author _NEVER_ says 'untested and therefore insecure', only talks about the increase in p2p applications as 'interesting' and likely to be opposed by the *AA, and the problems posed by inertia in the US as opposed to adoption in Asia.
NOWHERE does he slam IPv6 - he seems rather happy about it, in fact.
Re:Excuse me but... (Score:3, Informative)
Not in those exact words, but he pretty much does. From the article:
Re:Excuse me but... (Score:5, Informative)
speed not an issue right now (Score:4, Insightful)
Oops (Score:5, Insightful)
The result of this decision made nearly 30 years ago is that the Internet simply cannot handle more than 2^32 or 4,294,967,296 devices.
Re:2nd (Score:5, Interesting)
Let's assume every single one of the 100 billion stars in the galaxy is inhabited, and each star has a population of 10 trillion humans in orbit around it, and each human has 1 billion devices that need IP addresses. In that case, only 1/340,282nd of the possible 128-bit IPv6 addresses would need to be assigned.
Out of IPv4 addresses? (Score:4, Interesting)
Of course if you increase the number of assignment blocks, routers will need more memory and were back to the same reason no one will route a
help the v4 shortage (Score:5, Insightful)
Re:help the v4 shortage (Score:4, Funny)
Re:help the v4 shortage (Score:5, Funny)
Re:help the v4 shortage (Score:3, Funny)
Man, I really feel for that guy. Proof that 5-day old pizza really isn't edible.
NAT is bad? (Score:4, Interesting)
Re:NAT is bad? (Score:3, Interesting)
No, that actually seems to be one of the main thrusts of his article...that IPv6 gives every machine its own address, opening up all sorts of security problems.
Here, however, you seem to be confusing the function of a NAT with the function of a firewall.
In all honesty, though, mo
Re:NAT is bad? (Score:5, Informative)
The other problem is more aesthetic than anything... but it can be a problem if the NAT device is badly configured. Because it has to translate incoming and outgoing packets, the NAT device must track the state of the incoming and outgoing connections. This takes memory, and sometimes there's not really any way for the NAT device to tell when the connection has been severed. So it has to time them out, and this can result in connections evaporating without warning when the server and the client want them to stay open.
Fortunately, you can usually set this to something more reasonable with OpenBSD or Linux (or another BSD, Solaris, whatever). OpenBSD 3.4 with "set optimization conservative" waits 5 days. I've never had any problems with that, but it's tweakable if necessary.
Re:NAT is bad? (Score:3, Insightful)
Re:NAT is bad? (Score:3, Informative)
NAT is a good idea for certain limited applications. Internet-enabled dishwasher? No problem*. Web browsing cell phone? Perfect. But for a general purpose computer running arbitrary applications, it's very constraining. Just look at the discussion surrounding Speakfreely [slashdot.org] and you can see some of the problems that happen when you turn on NAT. Basically, you turn a computer into a consumer of Internet servic
Re:NAT is bad? (Score:5, Interesting)
Your appliances can surf the Web even through NAT, it is perfect for that. The difference begins when your service center can ssh into your fridge and troubleshoot it remotely. That you can not have with a standard, untweaked NAT.
This is not a contrived example, BTW. I have a fridge in my rental apartment which sometimes vibrates a lot, but often it does not. Since I don't own the fridge, I don't care as long as it's minor. But a properly designed modern fridge would be able to monitor itself, signal the service center when something bad happens, and upload the diagnostics data for the mechanic to see.
As another example, I have a bread maker. It has a timer, but how would I know when I am going home a whole working day ahead? So I don't use it. If I have an internet connection to the bread maker, I could begin the baking cycle 3 hours before going home, and get a nice loaf exactly when I need it.
It is also hard to argue that you'd like to ssh into your VCR or Tivo and program them to record something that you just remembered. More than once people called me and asked to tape Buffy or something because they forgot :-)
Some of my friends are seriously involved with home automation. They have tons of gadgets, sensors, motors and everything else. Currently, a Web server is used to control all that. But that is extra complexity. With IPv6 you add devices as you need them, and they are instantly online, accessible to you as long as you have the IPSec key or whatever you choose to secure them.
Re:NAT is bad? (Score:3, Insightful)
Re:NAT is bad? (Score:3, Insightful)
Then he's even more clueless than I thought.
someone could easily sneak something in behind the NAT and you'd be completely unprotected
And this is different without NAT HOW??!?! A non-NAT firewall will present the exact same security vulnerabilities as one that is using NAT.
Garfinkel Math (Score:5, Informative)
Damn,
with only 3 routers at the medium-sized business I work
for, this is going to cost us $187,500 !!!
No IPV6 for us
Re:Garfinkel Math (Score:3, Insightful)
NAT is bad, NAT is good (Score:5, Interesting)
Walker sees NAT as encroaching oppression by the "powers that be", whereas Garfinkel seems to take the "powers that be" point of view! Simson how you've changed!
In fact, Walker is skeptical that even IPv6 could promote "consumers" back to "peers":
Re:NAT is bad, NAT is good (Score:3, Insightful)
Seems to me that they are saying much the same thing. Walker [fourmilab.ch]:
When to drop IPv4 (Score:4, Insightful)
One transition strategy calls for most computers to simultaneously have both IPv4 and IPv6 addresses. The problem with this approach is that there's never a good time to have people start deploying systems that are only V6--that's because somewhere, somebody is going to have a machine that's V4 only, and they won't be able to communicate with you.
I think that admins will find themselves not bothering with IPv4 for individual things at their site when they find themselves out of IPv4 addresses for less-critical things.
For example, pretend it's 2008 and IPv6 is commonplace. You have a IPv4 /28 from your provider. You also have an IPv6 /48. The /28 has been fully allocated since 2006. Your www.yourcompany.com server will have an ordinary A record pointing IPv4 users at it for a long time yet, but what's your plan to let people on the outside get to your [insert-not-entirely-mission-critical-thingy-here] server (that happens to work with IPv6)?
It's an even easier decision if you, as a home user, get a single static IPv4 address for your DSL line as well as an IPv6 /48.
Re:When to drop IPv4 (Score:5, Insightful)
Nobody's going to run out of IPv4 addresses if they can set up a NAT, which is why IPv6 is waiting to jump in during a crisis that just isn't coming.
Re:When to drop IPv4 (Score:5, Insightful)
The current solutions to this are:
- IPv6
- UPnP
Fortunately, the two are compatible (since UPnP v2.0), but I see UPnP being deployed more rapidly than IPv6 in the future.Hurmph (Score:5, Interesting)
I'd love that thought applied to space.. It's so confusing, and hard to do, we should tuck our tail between our legs and run! This change will happen one router at a time.. correct me if I'm wrong.. but I do believe IPv4 addresses will coexist with IPv6. And lets face it.. for the most part, this will be done my highly experienced techs at the ISPs, and filter down to very experienced end users at business. Dialup and High Speed users could use IPv4 for ages sitting behind their ISP's big gateways.
"The deployment of IPv6--the sixth version of the Internet Protocol--will be a massive undertaking that will require the reconfiguration of more than 100 million computers."
It's not like this will happen over night.. and one day all the end users (hi mom) will have to become IPv6 Gurus. Once again, we're back to.. It's hard.. lets run away.
"But when the IPv6 rollout is finally done, not all the effects will be positive"
Argh.. this guy bugs me.. He seems to totally forget about the evolution of software.. Of course it'll be slow at the beginning.. then some company like Nortel will put it all into a hightech ASIC chip.. and we'll leave IPv4 in the dust. For each of his arguements.. there's a swell counter arguement, that's never far from reach.
Faz
Haven't we learned anything? (Score:5, Funny)
I bet they said that when IPv4 was invented.
Japan, China, South Korea will develop IPv6 (Score:5, Interesting)
US firms now dominate the market for equipment like routers that serve as the infrastructure for the current IPv4-based Internet.
By working together, the three countries aim to take the lead in developing technologies for a world in which all equipment is connected to the Internet"
Lower security?? (Score:4, Insightful)
It would be *nice* if there was better encryption support at low levels, to overall prevent information leaking, but even total lack of such features would mean no step back from IPv4.
Good article but a little too namby-pamby (Score:4, Insightful)
IPv6 creates much larger headers, so there's more overhead, particularly, as a percentage, on short packets (voice, ACK's, etc.). So it'll waste bandwidth, or lower effective throughput on fixed bandwidths. We need this? It is not even using its 128 bits efficiently. The general approach is to use the top half to identify the network and the bottom half to include the 48-bit MAC address of the computer. That was a clever hack in 1985 when proposed for DECnet Phase V (which never caught on) and became an approach in OSI CLNP. But that was not for a public spammer-ridden insecure Internet. Now it is a security and privacy hole to do that. It also means the 128 bits are not used efficiently -- we are tight with 32 bits, but an address for every atom?
IPv6 also does nothing for QoS (ignore the hype, which is based on a misunderstanding) and nothing for security (IPsec works just fine with v4). It just wastes bandwidth. So it does something for, oh, MCI. No wonder Vint (the Chauncey Gardner of the Internet) likes it! And Sprint, AT&T and VeriZontal. Great.
IPv4 could use a decent replacement some day, but IPv6 is everything you don't like about v4, and more. Eccch. A dozen years since it was "adopted" and it's gone nowhere, for good reason. The Asians weren't so involved with IETF at the time, to know the messy politics behind it. And btw the whole thing about their not having addresses is false; there is plenty of space left in the IPv4 space waiting to be allocated where needed. China can have more, as they provide more and more spam relays for the h3rb@1-v14gr4 crowd.
Typical (Score:3, Insightful)
Ever wonder why only Americans complain about IPv4?
Isn't funny how Asian nations, which you ignorantly claim have so many IPv4 addresses available, are the principal backers of IPv6 right now?
Don't feel bad -- most people are incapable of believing in any problem that doesn't affect them personally.
Re:Good article but a little too namby-pamby (Score:3, Funny)
How come I can't get no Tang 'round here?
Re:Good article but a little too namby-pamby (Score:5, Insightful)
Just some sanity checking here: IPv6 headers are only 2x the size of IPv4 headers. Folks with truly constrained bandwidth (like dialup users) can do what they do now: compress the headers (which btw, should be easier to do with IPv6). Anyway, given how much dark fiber is out there right now and how network technology continues to improve bandwidth at a pace that makes Moore's law seem kind of conservative, I think we can afford to make our headers 2x as large, particularly if it allows our routing tables to be smaller and our routing to be more efficient in general. In our current scheme, IPv4 throws away a lot of performance that IPv6 gets us back. The assumption that IPv6 is going to kill performance is rediculous.
*NEED* (Score:3, Insightful)
We'll *HAVE* to move to IPv6 when the third world finally gets connected! China 1+ billion people.. India 1+ billion people.. it starts to add up!
Americans.. a whole world exists outside of your borders you know.
Re:what are you talking about? (Score:3, Insightful)
So the burden is on China, Japan, India, and other countries worried about IP address shortages. And, as it happens, that's where the bulk of the development is being done (Japan especially). So you see, it works: the
FUD on Speeds: IPv6 vs IPv4 (Score:5, Informative)
On this simple fact I assume that the author of this article just don't know what he is talking about. As for security and as for NAT (which is less secure than he even thinks it is, as a protection).
IPv4 has seen many, many security issues in the *recent* past btw (ISN Prediction anyone ? Spoof with any ip)
He also forgot that there are tunnels from ipv4 to ipv6 and from ipv6 to ipv4, effectivly adding compatibility. If someone is stuck with ipv4 somewhere on the globe, np, he setup a tunnel to ipv6 and none is stuck. Damn FUD, I say.
refs:
IPv6 FAQ [iij.ad.jp]
Routing [66.102.7.104]
(IPv6 has less headers => faster routing
(Better QoS => more efficient network
(etc.)
wrongheaded mentality (Score:5, Insightful)
Getting everybody's home machine out from being a NAT box should make possible a lot of interesting applications that are either very difficult or downright impossible today. And in all likelihood, some of those applications will not be popular with the Recording Industry Association of America or the Motion Picture Association of America, both of which have taken the lead against peer-to-peer networks. As soon as they understand what a threat IPv6 is to their police actions, they are likely to start fighting against.
I have no strong opinions on the technical merits of IPv6 but I want to address the above statement, and the (IMHO) wrongheaded mentality behind it.
Why should the fact that these monopolistic groups oppose new, useful technologies, lead anyone to the conclusion that those technologies should be abandoned? Shouldn't we rather abolish the MPAA and RIAA?
When the light bulb was invented, did anyone argue we should abandon it because the candlestick industry would oppose it?
The truth is that new digital technologies are making "content" businesses like those represented by the *AA's obsolete. There is no benefit to society to engage in costly, counterproductive and futile "wars" against P2P and other useful new technologies in the name of enforcing "intelectual property" laws created in a different era that now benefit only special interests and not the public interest.
Re:wrongheaded mentality (Score:3, Insightful)
5? (Score:5, Funny)
Now we're going from IPv4 to IPv6
What the fuck do you people have against the number 5?
obligatory Monty Python quote... (Score:5, Funny)
IPv5 was already taken (Score:5, Informative)
Less biased than the summary... (Score:5, Interesting)
As to the notion of never running out of address space 'never, never' as he puts it, I wouldn't be so sure. The 32-bit address space provides 4.2 billion addresses. With that in mind, we are much nearer to exhaustion than current usage would dictate. It is all about the allocation, and if sloppy allocation occurs, the 128-bit address space of IPv6 could be exhausted too. For example, the architecture of current implementations make it so that the smallest subnet anyone will likely allocate are 64-bit networks, and use MAC addresses (or something else, but still 64-bit, because it's easy), so immediately you take the address space down tremendously. Still should be well more than enough for everyone on earth to have a
As to security implications, it is true that implementations will be for the short term future less tested and therefore likely to contain critical flaws, but still IPv6 code is receiving a fair amount of testing, and critical flaws will not be quite so devastating as you may think, no more than an Apache, Linux Kernel, or MS security exposure, which we have seen all of in fairly recent history without the sky falling.... Of course the wrinkle in this is a lot of the 'home router' concepts that happen to protect common home systems will cease to provide that protection. They provide NAT features, therefore masking to an extent the system behind the device. Despite what the author says about NAT being bad because it doesn't protect against things like browser exploits and physical intruders, NAT is on the level of firewalling in terms of protection. Any reasonable network security person will realize that browser exploits, email worms, and physical intrusion must always be kept in mind, and it has nothing to do with NAT or firewalling. NAT remains effective at, for example, fending off web server and rpc attacks from unsuspecting or experimenting workstations. If NAT goes away (hopefully), people need to be mindful of good old firewalling strategies. Implementations are maturing (experimental ip6tables implementation, for example, is approaching closely the ipv4 iptables featureset). If cable/dsl 'routers' revert to hubs in a wealth of addressing, I expect either cable/dsl 'firewall' devices or increased ISP vigilance to deal with the more widespread system exposure.
All that said, I like IPv6 (my desktop, gateway, and laptops are using IPv6 and each have public IPv6 addresses, keep NAT on IPv4 on some systems), but I (and everyone else) has been waiting and watching a long long time and no encouraging migrations are yet to be seen, and I doubt the near future will bring any incentive to push such a change.
Broadband ISPs (Score:4, Interesting)
What with Win95 being EOL'd, a fair number of them will be upgrading to Windows XP (or Linux, OK?) with it's built-in support. Maybe the best approach would be from the bottom up?
Chip H.
Add, not migrate! (Score:3, Insightful)
Well, you know what? You don't move to IPv6! You add IPv6. You can still keep your IPv4 connection. Then you can start adding IPv6 support to each protocol and application, one at a time. You can and will still be fully IPv4 compatible. You'll just allow yourself to use IPv6-only services and make it possible for you to set up new new IPv6-only services even though you've run out of IPv4 addresses.
Do we need IPv6 ? (Score:4, Interesting)
The IPv4 addresses are inefficiently distributed. MIT for instance has 16.7 millions of them. IBM too.
Entire classes of addresses are reserved for things we don't REALLY use like multicast and so on.
Plus we now have NAT and CIDR that help save some addresses.
I bet we could use IPv4 for 20 more years. IPv6 is to complex, bulky and inefficient.
I studied it and the fact that MAC addresses are in it blows me away.
Aren't the IP addresses a logical layer that prevents problems when you change a NIC ? If each time you change your NIC you have to change you address I foresee lots of trouble here.
And 128 bits addresses, okay, but entire classes are already wasted (multicast, network IDs, etc) and in the long term we could run into the same problems !
Anyway its too expensive and slow for the moment. Nobody wants to pay 1 million dollars for the last Cisco router with IPv6 where the one we bought last year for another million is working just fine.
Why not just add an extension to IPv4 if we really need these addresses ? I know it has a lot of flaws but hey, why change EVERYTHING ?
Re:Do we need IPv6 ? (Score:3, Interesting)
You don't use multicast. There are large organizations that use it for transferring huge quantities of data across the globe.
Humanity will never run out of IPv6 addresses? (Score:4, Interesting)
Is this like: "I think there is a world market for maybe five computers."?
What *if* molecular nanotechnoloy takes off? Humanity then decides to build a large space based object, which will be built by a massive number of 'replicators', each working within a 100nm per side cube. (Raw material will come from a passing asteroid.) It is decided that each replicator is to be individually addressable. The number of IP addresses required is then (<linear size>^3)/((100nm)^3). 2^128 addresses will be required to build a 700km cube.
Sure this far fetched, and there are lots of other technologies which need to be invented before something like this can happen, but lots of today's things were far fetched in recent history.
MIT's IP Assignments (Score:5, Insightful)
Speaking Freely about IPv6 and NAT (Score:3, Insightful)
Flaws a little more dramatic than the political... (Score:4, Interesting)
I went through the entire current posted responses, and I'm suprised people missed mistakes that - in the words of my girlfriend - must mean that the author was simply having a bad day and couldn't be writing this as a serious article.
The most important thing that IPv6 does is quadruple the size of the Internet address field from 32 bits to 128 bits.
Quadruple? 2^32 * 2 != 2^128. In fact, there is a very distinct difference. I would hope a writer for the M.I.T. Tech Review would know the difference.
One transition strategy calls for most computers to simultaneously have both IPv4 and IPv6 addresses. The problem with this approach is that there's never a good time to have people start deploying systems that are only V6--that's because somewhere, somebody is going to have a machine that's V4 only, and they won't be able to communicate with you.
This is so horribly backwards, he must be joking. One of the points of IPv6 is that IPv4 can be routed within and through it. (visa-versa too, but let's assume we're taking about an all v6 net) The real worry would be when someone created a v6 only site that some v4 person wouldn't be able to address.
Ugh. I think IPv6 upgrade path will be similar to analog and digital cell phones. They're still able to route to each other, and the improved features and quality of connections have caused people to leave older analog phones. The older phones still have better coverage; but, the newer phones are still able to switch to analog mode if necessary.
Problems with a v6 peer not being accessible to a v4 peer aren't too worrying to me. The same technologies enabling Akamai and NAT will almost certainly solve that.
One obvious solution is an automated DNS -> TCP/IP forwarding service:
Amy is cute.
Meh. (Score:3, Insightful)
E.g. You're toaster doesn't really need a public IP does it? [or your cell phone for that matter].
Good use of NAT can solve all of these problems...
There is no reason why certain companies/schools have millions of addresses each. Plain and simple.
Tom
A summary of the objections (Score:4, Funny)
Does this man write a regular column called "The Obvious"? He should.
Comment removed (Score:3, Informative)
This was a weird article... (Score:5, Insightful)
all IPv6 code is untested and therefore insecure
Yes, if you don't count university networks that has been using 6bone for several years now. Read up a bit on 6bone, and you'll see that the primary purpose of it is to function as a testbed for IPv6. But of course, computer scientists aren't really able to find and fix problems in the protocol.
IPv6 makes encourages 'peer-to-peer based copyright violation systems
I won't even comment on this...
Deploying IPv6 means that every application that uses Internet addresses needs to be changed.
However, isn't IPv6 designed to be backwards compatible? I.e. have a separate address space that emulates IPv4? So there isn't an urgent need to switch *now* when it starts getting used? Using the IPv6 stack should not mean an unability to talk with IPv4 clients.
Today, most routers come equipped with special-purpose integrated circuits that can route IPv4 packets very quickly. But because there is no demand for it, those routers don't have similar hardware that can route V6 in hardware
I'll just let him contradict himself:
"The code that lets computers talk on an IPv6-enabled network is now built into the current versions of Windows XP, MacOS, Linux, and many forms of Unix. Every router made by Cisco comes ready to run IPv6. So does every Nokia mobile phone. The whole world is getting dressed up for the IPv6 party."
If they're already implementing software support for IPv6 before it's even starting to get used, doesn't he think this is a sign that the manufacturers are dedicated to bring hardware IPv6 support once it gets even more widely used? If not, he needs to explain why.
He complains about upgrade costs too, which seems to be a concept never heard or experienced by him before, as he seem to be in shock while discussing it.
But what IPv6 boosters won't tell you, unless you press them, is that every new IPv6 nameserver, Web server, Web browser, and so on has new code--code in which security problems may lurk.
True, updated software might get new bugs if they aren't tested properly. What's new? This risk is taken daily by adopters of upgraded or new software.
numerous advantages of ipv6 compared to ipv4 (Score:4, Interesting)
routing - different rirs have now created policies that will make routing much efficient. it will be hierarchal so routing tables will much smaller (thus faster routing.)
headers - the ipv6 headers has been optimized compared to ipv4, data transmitted includes qos (standard)
multicast - no more broadcast. we don't have to worry about too much data storms in our network (better bandwidth utilization.)
autoconfig - ipv6 provides for automatic configuration of ip addresses. this will make transition much easier since most devices can be made ipv6 ready and activated and it will automatically configure itself and run on ipv6.
tunneling - you can do endless tunneling to seamlessly support ipv4 and ipv6 networks together. you can easily put an ipv6 backbone with ipv4 clients running (with all translation under the fe80 range.)
addressing - clear policies has been made with regards to addressing (and routing as well) to prevent problems that have plagued existing ipv4 networks. the division of the
maybe since mit has 16.7million ip addresses, they are afraid of ipv6. based on existing policies agreed upon by rirs (arin, apnic, ripe), you will be allocated a
even if they do not switch to ipv6 (i hope they will be the last one.) the entire world will be running in ipv6. here in asia, it is much harder to get ipv4 addresses. so we are already experimenting with ipv6 (and readying for production grade native ipv6 networks with full peering and routing - we have purchased ipv6 routers in preparation for a full ipv6 backbone with ipv4 tunneled instead.)
software is increasing its support with ipv6. windows xp already has support (not so savvy end users can now start benefiting from ipv6.) linux and apps already has support. most network equipment now supports ipv6. heck my mobile phone can access an ipv6 network natively!
final words. go ipv6! it's about time. (and note to all admins, experiment with ipv6 and you'll see.)
p.s. slashdot was inaccessible for a few minutes before i posted this content
Re:Is this technical or political? (Score:5, Informative)
These problems go away when every computer on the Internet really does have its own IP address--something that's impossible today with IPv4, but which is the raison d'etre for IPv6. In a world with IPv6 and without NAT, every computer in my house has its own unique IP address on the public Internet. That means my desktop can open up a peer-to-peer connection with my desktop at work, but it also means that my daughter can network her machine directly with some teenybopper P2P network in San Jose. Getting everybody's home machine out from being a NAT box should make possible a lot of interesting applications that are either very difficult or downright impossible today. And in all likelihood, some of those applications will not be popular with the Recording Industry Association of America or the Motion Picture Association of America, both of which have taken the lead against peer-to-peer networks. As soon as they understand what a threat IPv6 is to their police actions, they are likely to start fighting against.
Re:Is this technical or political? (Score:4, Insightful)
I just don't understand this part. This is nothing specific to IPv6. This is how the internet works. People can already connect like this, and it's pretty obvious that they DO network like this. Or, did P2P networks suddenly die while I was asleep?
Re:Is this technical or political? (Score:5, Funny)
IPv6 makes encourages 'peer-to-peer based copyright violation systems'
That sounds like a plus to me.
Re:Is this technical or political? (Score:4, Funny)
Well, it's not grammatical.
Re:IPv6 Support (Score:5, Informative)
Re:IPv6 Support (Score:5, Informative)
If by 'routers' you mean Linksys, Belkin, or D-Link, you really need to redefine your concept of the word.
Re:IPv6 Support (Score:5, Informative)
The problem with IPv6 isn't software or hardware -- it's politics and money. Theres no benefit to service providers to update their IPv4 setup to do IPv6 because they'd have to find some way to still talk to the "normal" IPv4 internet (because, really, who wants to get on an ISP that isn't on the internet?). Additionally, many many ISP's charge a premium on extra IP addresses. What makes you think that they want to ditch that income so you and I can each address our refrigerator from the supermarket to see how much milk is left?
Re:IPv6 Support - everywhere important (Score:5, Interesting)
But as the whingey Garfinkel points out, the U.S. is very much behind the curve in IPv6 rollouts. Typical corporate american incompetence.
As for routers, all real routers have it. It takes more effort today to get a cisco router without IPv6, because all the machines being delivered recently come with a version of IOS which has IPv6 installed. Just waiting for a Cisco Certified Button Pusher to configure it correctly, and bob's your uncle.
I have my own
While typing this response, I ran some statistics on web servers I manage. Approximately 5% of the traffic was IPv6 during the month of December, up from about 2% last June. That means that 5% of the PCs out there have IPv6 enabled, connected to an ISP offering IPv6, and are using an IPv6 capable browser like mozilla or IE6.
the AC
Re:How will IPv6 affect existing internet tools? (Score:5, Informative)
Will I need to update my apt.sources file?
Probably not if your favorite apt servers support it as well. Most of the switching over is handled by DNS (which has had v6 support for quite a while).
seriously though (Score:5, Funny)
Re:IPv4 in IPv6? (Score:5, Informative)
They even made it simple! If my IPV4 address is 203.131.45.99 my IPV6 address will be 0:0:0:0:0:0:203.131.45.99 (there's even an abbreviated notation for a V6 address which would just be
The likelyhood is that the migration to V6 isn't proceeding as fast as possible for political and financial reasons rather than technical ones.
Re:IPv6: Not Ready for Prime Time (Score:3, Informative)
Assuming it is:
1. Cisco Routers suck at IPV6.
That's kind of an implementation issue rather than a protocol issue wouldn't you agree? If word gets out that Cisco Routers aren't providing bang for buck then there are always alternatives as you have suggested. If performance really matters then IT managers can argue the point that the corporate policy is outdated and has to change...
2. There are too many addresses.
Too many addresses i