I want to write a library in C++ under Linux that will help an application to use a certain protocol (FastCGI, actually). The library will listen to a socket (either TCP or Unix), receive requests, forward them to user code, and send responses generated by said user code.
There will be many connections on the socket and each connection will carry many requests (possibly simultaneously - there is an interleaving mechanism). The user code (which uses the library) will most likely be multithreaded in order to process several requests in parallel.
I'd like my library to be robust and make as little assumptions/requirements about the user code as possible, including the type of multithreading used. As I understand, the
clone() function in Linux can fork a process in dozens of different manners - with or without shared memory, shared file handles, etc. The decision of HOW to implement multithreading should be left to the user.
And this confuses me, because the library code can suddenly find itself
fork()'ed, and multiple copies of the code can be suddenly reading from the same socket and handling the same request. Even worse - the parent process might terminate, leaving only child processes, which in turn spawn more child processes, perhaps even in different process namespaces - it's a mess.
What are the Linux facilities that help to coordinate all the copies of the same code which need to access the same external resource (a socket)? What is the standard way of implementing such thread-safe libraries? Must I choose a threading model myself and impose that upon the consumers of my library?