In general, it's very unsafe to have open handles / objects in use by libraries on either side of fork().
This includes the C standard library.
fork() makes two processes out of one, and no library can detect it happening. Therefore, if both processes continue to run with the same file descriptors / sockets etc, they now have differing states but share the same file handles (technically they have copies, but the same underlying files). This makes bad things happen.
Examples of cases where fork() causes this problem
- stdio e.g. tty input/output, pipes, disc files
- Sockets used by e.g. a database client library
- Sockets in use by a server process - which can get strange effects when a child to service one socket happens to inherit a file handle for anohter - getting this kind of programming right is tricky, see Apache's source code for examples.
How to fix this in the general case:
a) Immediately after fork(), call exec(), possibly on the same binary (with necessary parameters to achieve whatever work you intended to do). This is very easy.
b) after forking, don't use any existing open handles or library objects which depend on them (opening new ones is ok); finish your work as quickly as possible, then call _exit() (not exit() ). Do not return from the subroutine that calls fork, as that risks calling C++ destructors etc which may do bad things to the parent process's file descriptors. This is moderately easy.
c) After forking, somehow clear up all the objects and make them all in a sane state before having the child continue. e.g. close underlying file descriptors without flushing data which are in a buffer which is duplicated in the parent. This is tricky.
c) is approximately what Apache does.