Unix sockets. Essentially,
socket(PF_UNIX, SOCK_STREAM, 0). This returns a file descriptor or -1 on error.
- Use something like
struct sockaddr_un addr; bzero(addr); addr.sun_len = sizeof(addr); addr.sun_family = PF_UNIX; strncpy(addr.sun_path, "/path/to/file", sizeof(addr.sun_path)-1); to create the socket address.
bind(fd, &addr, sizeof(addr)).
listen(fd,backlog) to listen for connections.
backlog is the number of un-accept()ed connections that can exist.
- Use accept() to accept connections from clients. This returns a new FD or -1 on error.
- Have clients create a similar socket and connect() to the address (I don't think they have to bind).
- Remove the file /path/to/file when done (or just leave it there if you're going to reuse it later).
I'm not sure if SOCK_DGRAM is supported for Unix sockets (if so, it's probably UDP-like).
See the man pages for socket(2), bind(2), listen(2), accept(2), connect(2), unix(4), setsockopt(2).
For "overlapped I/O", see select(2). You can additionally enable non-blocking IO with
fcntl(fd,F_SETFL,(int)(fcntl(fd,F_GETFL)|O_NONBLOCK)) (see fcntl(2)), this means read() and write() never block (which means write() can return short, so you need to look at the return value).
I'm not quite sure how Windows named pipes represent multiple connections from multiple clients, but in UNIX, you get one file descriptor per connection (plus one for the "listening" socket).