I am pointing out how the problem NAT “solves” is just dynamic address configuration. They have implemented a N+K bit address where the N-bit prefix is routed and allocated using IP and the low K-bits are routed and allocated like a custom fever dream.
You can just do it all the same way instead of doing it differently and worse for the low bits.
To be clear, the router should rewrite zero bits in the packet under the scheme I am describing just like how routers have no need to rewrite any bits when routing to a specific globally-routable IP address.
You get a lease for a /N+K address. /N routes to your router which routes the last K bits just like normal as if it had a /N-M to a /N route. This is a generic description of homogenous hierarchical routing.
This still sounds like a very bad mixing of layers, even if done in a perfectly standardized and uniform way.
> It is always a mystery how people just randomly misinterpret what I write.
If this is intended literally and not as a general complaint: My main problem of understanding your suggestion is that I don't know what you mean by "IP+NAT address". NAT is a translation scheme, not an address.
Maybe it would be clearer if you could provide an example?
> You get a lease for a /N+K address. /N routes to your router which routes the last K bits just like normal as if it had a /N-M to a /N route.
> This still sounds like a very bad mixing of layers, even if done in a perfectly standardized and uniform way.
No, I am describing a generalization of IP to arbitrary concatenated routing prefixs.
NAT has the same problems as if we lived in a alternate world where we decomposed IPv4 into 4 8-bit layers and then used a different protocol for each layer. That is obviously stupid because the subdivision of a /8 into /16s and a /16 into /24s is fractally similar. You can just use the same protocol 4 times. Or even better, use one protocol (i.e IP) that just handles arbitrary subdivision.
In the IPv4 (no NAT) world your application has a 49-bit address. Your router is running a DHCPv4 server and allocates your computer a /32 and your computer is “running” a DHCPvPort server that allocates a 17-bit prefix to your applications.
In the IPv4+NAT world your application has a 49-bit address. Your router is “running” a DHCPv4+Port server and allocates your applications a /49, but only tells them their /32 and then rewrites the packets because the applications do not know their address because the stupid router did not tell them.
In good world your application has a 49-bit address. Your router is “running” a DHCPv4+Port server and allocates your applications a /49 and tells them their /32 prefix and 17-bit segment. No packet rewriting is necessary.
Your router could also choose to allocate your computer a /32 subnet and leave DHCPvPort to your computer. Or it could give your computer a /31 if you have 8 interfaces. Or a /34 as a /32 subnet with 2-bit port prefix. Each node routes as much or as little routing prefix as it understands/cares about.
This is a generalization of IP that can handle arbitrary-length, arbitrarily-concatenated routing in a completely uniform manner and all the pieces are basically already there, just over-specialized.
If you are tying to work around your firewall because it isn’t yours, that’s not a legitimate use.
Take mobile data connections, for example: Most people don't want to pay for metered (by the byte) inbound traffic they didn't ask for that also drains their battery, but do want to be able to establish P2P connections for lower latency VoIP etc.
This is a firewall that's definitionally "not theirs", but that still also serves their interests, yet usually doesn't offer any user-accessible management interface.
So may I please traverse this firewall now, or is my use case still illegitimate?
If you are buying firewall as a service then request a user interface or change your service provider.
What provider would you suggest somebody wanting to make VoIP calls on their smartphone switch to that allows port forwarding of the kind you describe? And which popular VoIP app would support statically forwarded ports like that?
On the other hand, there is plenty of badly written networked software. I bet most of the networked software developers have no idea how to correctly plumb their software. They just open whatever connection, e.g. sockets, their OS provides and just run with it without care of the underlying layers. The OSI model theory in fact encourages this ignorance.