I currently intend to implement threading using clone() and a question is, if I have all threads using the same memory space, with each function I call in a given thread, will each thread using a different part of memory when the same function is called, or do I do have todo something to ensure this happens?
Each thread will be using the same memory map overall but a different, separate thread-local stack for function calls. When different threads have called the same function (which itself lives at the same executable memory location), any local variables will not be shared, because they are allocated on the stack upon entry into the function / as needed, and each thread has its own stack by default.
References to any static/global memory (i.e., anything not allocated on the thread-local stack, such as globals or references to the heap or
Note that you have to setup this thread-local stack space yourself before calling
Note that allocating and setting-up this thread-local stack memory region is not at all simple. Ensure that your allocations are page-aligned (start address is on a 4K boundary), a multiple of the page size (4K), amply-sized (if you only have a few threads, 2MB is safe), and ideally contains a "guard" section following the usable space. The stack guard is some number of pages with no access privileges-- no reading, no writing-- following the main stack region to guard the rest of the virtual memory address space should a thread dynamically exceed its stack size (e.g., with a bunch of recursion or functions with very large temporary buffers as local variables) and try to continue to grow into the stack guard region, which will fail-early as the thread will be served a SIGSEGV right away rather than insidiously corrupting. The stack guard is technically optional. You should probably be using
All that said, I've got to ask: why try to implement threading with