I have a server program written in C++ that runs on Linux and implements a push-based messaging service using TCP. Because of the push approach, there might be a lot of simultaneous connections (I'm planning on about 1 million) that have to be kept open for longer amounts of time. Most of the time these connections are idle with the occasional heartbeat, and transfer usually happens in bursts on many of them at the same time.
To make things work, I'm using
epoll for multiplexing the large amounts of sockets, and by modifying the
RLIMIT_NOFILE, it does actually work quite well for large amounts of sockets.
My problem is that I'm also using other types of connections in the same program, most notably FastCGI (using libfcgi from the FastCGI SDK) for accepting HTTP requests, which use
select() for their internal file descriptors. This leads to problems when those file descriptors become larger than 1024 (
FD_SETSIZE), which is bound to happen if the
epoll part of the program uses up most of the fd numbers below 1024.
I'm wondering what the best way to handle this would be.
Do I just have to modify all external code that uses
select() and use
Is there maybe a way to force my
epoll-based code (specifically the
accept() call) to use only file descriptors above 1024, so that the ones below are reserved for
I understand that it might be possible somehow to increase the value of
FD_SETSIZE, but I assume that would hurt performance a lot because of the way
select() works, and it strikes me as a hack rather than a real solution.