char is the smallest addressable unit in C, if you made
char larger than 8 bits, it would be difficult or impossible to write a sockets implementation, as you said. Networks all run on
CHAR_BIT == 8 machines. So, if you were to send a message from a machine where
CHAR_BIT == 9 to a machine where
CHAR_BIT == 8, what is the sockets library to do with the extra bit? There's no reasonable answer to that question. If you truncate the bit, then it becomes hard to specify even something as simple as a buffer to the client of the sockets code -- "It's a char array but you can only use the first 8 bits" would be unreasonable on such a system. Moreover, going from 8 bit systems to 9 bit would be the same problem -- what's the sockets system to do with that extra bit? If it sets that bit to zero, imagine what happens to someone who puts an
int on the wire. You'd have to do all kinds of nasty bitmasking on the 9 bit machine to make it work correctly.
Finally, since 99.9% of machines use 8 bit characters, it's not all that great a limitation. Most machines that use
CHAR_BIT != 8 don't have virtual memory either, which would exclude them from POSIX compatibility anyway.
When you're running on a single machine (as standard C assumes), you can do things like be
CHAR_BIT agnostic, because both sides of what might be reading or writing data agree on what's going on. When you introduce something like sockets, where more than one machine is involved, they MUST agree on things like character size and endianness. (Endinanness is pretty much just standardized to Big Endian on the wire, though, as many more architectures differ on endianness than they do on byte size)