Suppose I have shared library with this function where "i" is some global variable.

int foo() {
return i++;

When I call this function from multiple processes the value of "i" in each process is independent on the other processes.

This behavior is quite expected.

I was just wondering how is usually this behavior implemented by the linker? From my understanding the code is shared between processes, so the variable has to have the same virtual address in all address spaces of every program that uses this library. That condition seems quite difficult to accomplish to me so I guess I am missing something here and it is done differently.

Can I get some more detailed info on this subject?

  • 5
    Code is shared, not data. The dynamic linker presumably creates a new copy of the variable for each process, but it doesn't make copies of the text (code) segment.
    – user529758
    Commented Jun 15, 2013 at 18:02
  • @H2CO3 I am well aware of that. However I am asking on the details of the linking process. Commented Jun 15, 2013 at 18:06
  • Well, if you need more details, I think you should take a look at an actual implementation. The dynamic linker in Linux and the one in Darwin (BSD/OS X/iOS) are opensource.
    – user529758
    Commented Jun 15, 2013 at 18:08
  • en.wikipedia.org/wiki/Relocation_(computing)
    – user541686
    Commented Jun 15, 2013 at 20:26

3 Answers 3


The dynamic linking process at run time (much the same as the static linking process), allocates separate data (and bss) segments for each process, and maps those into the process address space. Only the text segments are shared between processes. This way, each process gets its own copy of static data.

  • And is it necessary to allocate the data segments into exactly the same location in every address space? If so, what happens if the location is already used by some other data in one of the spaces? Commented Jun 15, 2013 at 18:18
  • The segments are allocated, mapped to the address space somewhere (whatever is available), and then a link process if performed (relocation etc. and symbol resolution).
    – Ziffusion
    Commented Jun 15, 2013 at 18:22
  • But if the code is shared, how can I perform relocation on it without affecting other processes that use the same code? Commented Jun 15, 2013 at 18:31
  • 1
    Relocation unshares the code. When the loader detects that relocation is necessary, it makes a copy of the code segment and then writes to that copy as it processes fixups.
    – Ben Voigt
    Commented Jun 15, 2013 at 20:56
  • 1
    @HonzaBrabec Shared library code is compiled as position independent code, which means the generated code only uses relative, not absolute addresses to do stuff. And global symbols that must be addressed by an absolute address is patched by the dynamic linker (when the library is loaded at runtime) to the relocated addresses. Keep in mind that virtual memory is in effect too - the addresses may very well be the same, the OS can map physical memory to dffeent virtual addresses in each process, and vice versa.
    – nos
    Commented Jun 15, 2013 at 21:23

the code is shared between processes, so the variable has to have the same virtual address in all address spaces of every program that uses this library

The code is not shared the way you think. Yes the dynamic shared object is loaded only once but the memory references or the stack or the heap that code in the so uses is not shared. Only the section that contains the code is shared.


Each process has it's own unique address space, so when a process access the variable it can have different values then the other process. If the process should share the same memory, they would have to specifically set this up. A shared library is not enough for that.

  • I am aware of the thing that each process has unique address space. However, the code is shared. and the code refers to some address (virtual) in the memory. My question is about how that thing is handled. Commented Jun 15, 2013 at 18:09
  • But even though they point to the same address, the memory pages are relative to their process environment. The memory pages are assigned by the operating system, so the linker doesn't have to do anything special for this.
    – Devolus
    Commented Jun 15, 2013 at 18:14

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