I see the question has been edited now, and is at least more understandable than before.
Anyway, isn't this a contradiction?
- You make I/O non-blocking because you want to be able to read small amounts quickly, typically sacrificing throughput for latency.
- You make it buffered because you don't care that much about latency, but want to make efficient use of the I/O subsystem by trading latency for throughput.
Doing them both at the same time seems like a contradiction, and is hard to imagine.
What are the semantics you're after? If you do this:
fd = setup_non_blocking_io(...);
got = read(fd, buf, sizeof buf);
What behavior do you expect if there is 3 bytes available? Blocking/buffered I/O might block until able to read more satisfy your request, non-blocking I/O would return the 3 available bytes immediately.
Of course, if you have some protocol on top, that defines some kind of message structure so that you can know that "this I/O is incomplete, I can't parse it until I have more data", you can buffer it yourself at that level, and not pass data on upwards until a full message has been received.