Background
I'm building an IPAM app to track and store metadata for individual IPv4 and IPv6 addresses. The backend is intended to be a boring, vendor-agnostic relational database.
IPv6 may deal with big numbers in a vast addressable space, but the scope in question does not inherently constitute big data, so I'm not willing to change backend architectures without some actual technical shortcoming of my current approach that is better served by a hip NoSQL solution at the expense of relations and ACIDity.
(I'm not trying to document the entire address space, only live addresses in use by arbitrary customers.)
Schema
Normalize the string representation of a given IP address and use that as the primary key. IPv4 addresses get converted to IPv6 and prefixed with ffff
. IPv6 addresses get compressed and lowercased.
A second field indicates which protocol version the record in question is-- 4 or 6. The idea here is that if a user searches for records in an IPv4 subnet, I can quickly exclude the IPv6 space, or vice versa.
The next eight fields (ugh) are all integer representations of each octet in the address (octet_1
, octet_2
, etc.).
Indexes
Primary key should already be its own unique index.
Create an additional index on (version, octet_1, ..., octet_8)
.
Querying
For searching for a specific IP of either version, I can simply normalize the IP string the same way as above and search through the primary keys.
For searching by subnet, the application calculates the start/end address for the range, casts both as IPv6, converts both to octuples, and issues a query for all records with octuples between those.
What problems might I run into with this approach? Suggestions for improvement?
Anything from ipv4s casted as ipv6 are not the same thing
to your index will explode / write performance will suck
is fair game.
I built a test POC which validates the functionality of this schema but I'm concerned about any potential shortcomings of this model in a production environment.