I've been in this situation a couple times myself. Every time I've ended "rolling my own", and I definitely don't suffer from Not Invented Here (NIH) syndrome. Sometimes the space, processing turnaround time or reliability/recoverability requirements just make that the least painful path.
So, rather than writing the great American novel on the topic, I'll just throw out some thoughts here, as your question is pretty broad (but thank you for at least forming a question & providing background).
Is C++ on the table? Inline functions, templates, and some of the Boost libraries might be useful here. But I'm guessing this is straight-up C.
If you're using C99, you can at least use inline functions, which are a step above macros when it comes to type safety.
You might want to think about using several mutexes to protect different parts of the data; even though the updates are quick, you might want to break up the data into sections (e.g. configuration data, init data, error logging data, trace data, etc.) and give each its own mutex, reducing the funnel/choke points.
You could also consider making all access to the data go through a server task. All reads & writes go through an API which communicates with the server task. The server tasks pulls reads & write requests in order from its queue, handles them quickly by writing to a RAM mirror, sending responses if needed (at least for read requests), and then buffers data to NVM in the background, if necessary. Sounds heavyweight compared to simple mutexes but it has its advantages in certain use cases. Don't know enough about your application to know if this is a possibility.
One thing I will say, is the idea of getting/setting by a tag (e.g. maybe a list of enums like CONFIG_DATA, ADDRESS_DATA, etc.) is a huge step forward from directly addressing data (e.g. "give me the 256 bytes at address ox42000). I've seen many many shops suffer great pain when the whole physical-addressing scheme finally breaks down & they need to re-factor / re-design. Try to keep the "what" decoupled from the "how" - clients shouldn't have to know or care where stuff is stored, how big it is, etc. (You might already know all this, sorry if so, I just see it all the time...)
One last thing. You mentioned mutexes. Beware of priority inversion... that can make those "quick accesses" take a very long time in some cases. Most kernel mutex implementations allow you to account for this, but often it's not enabled by default. Again, sorry if this is old news...
sqlite
orBerkeleyDB
...