Several months ago I implemented a solution to choose unique values from a range between 1 and 65535 (16 bits). This range is used to generate unique Route Targets suffixes, which for this customer massive network (it's a huge ISP) are a very disputed resource, so any released value needs to become immediately available to the end user.
To tackle this requirement I used a BitSet. Allocate a suffix on the RT index with
set and deallocate a suffix with
clear. The method nextClearBit() can find the next available value. I handle synchronization / concurrency issues manually.
This works pretty well for a small range... The entire index is small (around 10k), it is blazing fast and can be easy serialized and stored in a blob field.
The problem is, some new devices can handle RT suffixes of 32 bits unsigned (range 1 / 4294967296). Which can't be managed with a BitSet (it would, by itself, consume around 600Mb, plus be limited to
int - 32 bits signed - range). Even with this massive range available, the client still wants to free Route Target suffixes that become available to the end user, mainly because the lowest ones (up to 65535) - which are compatible with old routers - are being heavily disputed.
Before I tell the customer that this is impossible and he will have to conform with my reusable index for lower RTs (up to 65550) and use a database sequence for the other ones (which means that when the user frees a Route Target, it will not become available again), would anyone shed some light?
Maybe some kind soul already implemented a high performance number pool for Java (6 if it matters), or I am missing a killer feature of Oracle database (11R2 if it matters)... Just some wishful thinking :).
Thank you very much in advance.