Why doesn’t every computer have 256 char domain name, along with a private key to prove it is the sole owner of the address?
Edits: For those technically inclined: Stuff like DHCP seems unnecessary if every device has a serial number based address that’s known not to collide. It seems way more simple and faster than leasing dynamic addresses. On top of that with VOIP I can get phone calls even without cell service, even behind a NAT. Why is the network designed in such a way where that is possible, but I can’t buy a static address that will persist across networks endpoint changes (e.g. laptop connecting to a new unconfigured wifi connection) such that I can initiate a connection to my laptop while it is behind a NAT.
- Yes, it would be a privacy nightmare, I want to know why it didnt turn out that way
- When I say phone number, I mean including area/country code
- AFAIK IP addresses (even static public ones) are not equivlent to phone numbers. I don’t get a new phone number every time I connect to a new cell tower. Even if a static IP is assigned to a device, my understanding is that connecting the device to a new uncontrolled WiFi, especially a router with a NAT, will make it so that people who try to connect to the static IP will simply fail.
- No, MAC addresses are not equivalent phone numbers. 1. Phone numbers have one unique owner, MAC addresses can have many owners because they can be changed at any time to any thing on most laptops. 2. A message can’t be sent directly to a MAC address in the same way as a phone number
- Yes, IMEI is unique, but my laptop doesn’t have one and even if it did its not the same as an eSim or sim card. We can send a message to an activated Sim, we can’t send a message to an IMEI or serial number
Well, phone numbers do get re-assigned too.
They do, it’s called an IP address.
Phones get numbers assigned to them by a cell service provider, in order to communicate on their network, which is basically the exact process for computers and IP addresses.
If you’re asking about the equivalent of like a SIM card, in the computer/internet world, that’s handled at higher layers, by digital certificates. And again, the process is almost exactly the same, except they don’t (usually) get put on physical chips.
IP address is really the best comparison here. Some computers share an IP just like entire call centers may share the same phone number. And neither IP addresses and packets nor phone numbers are properly authenticated without additional enforcement systems.
Internal networks exist for computers and phones. It’s a nice parallel.
Sure they can. If you put a network behind a router they will share an egress/ingress IP. And there are certain high availability setups where computers share IPs in the same subnet for hot/standby failover.
Except you can spoof an IP address or get another one from the ISP just by asking. You can spoof a MAC address too.
Intel introduced unique processor id’s back in the late 90s.
Cell phones don’t get a new phone number every time they switch cell towers, so why do laptops.
Its not like I can write down the IP address of my friends laptop so I can send it a message once he gets to a new city. Right?
Laptops don’t get a new IP address every time they switch from one AP to another in the same network either. Your cell phone will get a new IP address if it switches to a different cell network.
I can get VOIP calls behind a NAT without cell service. I’m asking how is that possible. Is the router somehow part of the same AP as cell service?
Main difference there being that switching cities means probably switching ISPs. You can absolutely carry over your IP address when you move between the same provider, if that’s part of your service plan, and that may well happen with some ISPs even without it being part of your plan. There just isn’t really much of a need for people to carry a static IP, except for some businesses, and I’d say the main reason is that people don’t visit websites by memorizing and typing in an IP. They do memorize and type in phone numbers.
I can send a message to the IP address but AFAIK the message won’t get to him because he will almost certainly have a new address when he connects to the airport WiFi in the new city.
Isn’t that what a MAC address is? There is a few ways to ch age it unless that’s been fixed iirc.
You will always be able to spoof your MAC address if needed. I don’t see the standard ever changing enough to prevent that.
I’m shocked this answer has so many upvotes. No, a MAC address is not close to a phone number. No two people have the same phone number, and I can’t just edit my phone number to be someone else’s number.
- “two network interfaces connected to two different networks can share the same MAC address”
- “Many network interfaces, however, support changing their MAC addresses”
You ask a “no stupid” question then try to call out an answer? Bold move cotton.
Sure you can change your phone number, it’s called spoofing, or just call your provider and get a new one, sometimes they charge sometimes they don’t. So why are you claiming it’s not possible?
People have the same phone numbers, that’s why area codes exist, that’s kinda the same thing as a provider and a MAC address, no…?
Edit well then.
Lack of demand.
Phones having unique unalterable numbers was never an intentional feature desired by users, just a limitation of the available technology.
Computer network cards do have such a number, their MAC address, but modern ones can scramble it to avoid being tracked, without any loss of ability to be reached by everyone you want to be reached by.
Along with the other comments on UDID, IMEI and MAC, I’d just like to point out that phones don’t have phone numbers.
On land lines, the number is assigned to the line that goes to your house from the local operations center; on mobile phones, the number is linked by your carrier to THEIR SIM card that you stick in your phone.
eSIM almost gets there; instead of a physical card linked to the phone number, all the logic and secrets are stored in a secure enclave on your phone and THAT is linked to the number, which is in a directory managed by your carrier. It’s linked to the phone itself because of the phone’s IMEI.
Sure, I’ll change the title to say “phones have unique phone number (b/c sim cards), why don’t computers have an equivalent?” I didnt mean one phone == one phone number.
With VOIP I can get phone calls even without cell service, even behind a NAT. My question is why is the network designed in such a way where that is possible, but I can’t buy a static address that will persist across networks endpoint changes (e.g. new wifi connection) such that I can initiate a connection to my laptop while it is behind a NAT.
AFAIK static public-facing IP addresses are limited to a physical location. It would work if my laptop never left my house but as soon as I take it to the airport its no longer accessible. People who try to connect to the static ip would just get a message saying the address timed out.
All you have to do is buy your own IP, and you can use it whenever you want. You don’t have to use one given to you by the upstream gateway via DHCP or BootP.
Of course, you need to make sure the upstream router is configured to not drop addresses it didn’t assign itself.
Even paying for a static IP its not like a phone number which is discoverable behind a NAT without extra router configuration.
For the laptop thing you realistically could by a WAN IP per device, itd just be expensivr and also a massive security issue DMZ’ing all your devices