I have read about GCC's Options for Code Generation Conventions, but could not understand what "Generate position-independent code (PIC)" does. Please give an example to explain me what does it mean.


5 Answers 5


Position Independent Code means that the generated machine code is not dependent on being located at a specific address in order to work.

E.g. jumps would be generated as relative rather than absolute.


PIC: This would work whether the code was at address 100 or 1000

111: NOP

Non-PIC: This will only work if the code is at address 100

101: JUMP_IF_EQUAL 111
111: NOP

EDIT: In response to comment.

If your code is compiled with -fPIC, it's suitable for inclusion in a library - the library must be able to be relocated from its preferred location in memory to another address, there could be another already loaded library at the address your library prefers.

  • 53
    This example is clear, but as a user what will be the difference if I create a shared labrary (.so) file without the option? Are there some cases that without -fPIC my lib will be invalid?
    – Narek
    Mar 15, 2011 at 12:25
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    Yes, building a shared library that isn't PIC could be an error. Mar 15, 2011 at 12:31
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    To be more specific, the shared library is supposed to be shared between processes, but it may not always be possible to load the library at the same address in both. If the code were not position independent, then each process would require its own copy. Mar 15, 2011 at 12:36
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    @Narek: the error occurs if one process wants to load more than one shared library at the same virtual address. Since libraries cannot predict what other libraries could be loaded, this problem is unavoidable with the traditional shared library concept. Virtual address space doesn't help here.
    – Philipp
    Mar 15, 2011 at 13:32
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    You can omit -fPIC when compiling a program or a static library, because only one main program will exist in a process, so no runtime relocation is ever necessary. On some systems, programs are still made position independent for enhanced security. Jan 22, 2016 at 15:22

I'll try to explain what has already been said in a simpler way.

Whenever a shared lib is loaded, the loader (the code on the OS which load any program you run) changes some addresses in the code depending on where the object was loaded to.

In the above example, the "111" in the non-PIC code is written by the loader the first time it was loaded.

For not shared objects, you may want it to be like that because the compiler can make some optimizations on that code.

For shared object, if another process will want to "link" to that code it must read it to the same virtual addresses or the "111" will make no sense. But that virtual-space may already be in use in the second process.

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    Whenever a shared lib is loaded, the loader changes some addresses in the code depending on where the object was loaded to. I think this is not correct if compiled with -fpic and the reason why -fpic exists i.e. for performance reasons or because you have a loader that's not able to relocate or because you need multiple copies in different locations or for many more reasons.
    – robsn
    Apr 15, 2020 at 14:16
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    Why not always use -fpic?
    – Jay
    Apr 21, 2020 at 6:22
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    @Jay - because it will required one more calculation (the function address) for each function call. So performance-wise, if not needed it is better not to use it. Apr 21, 2020 at 6:41

Code that is built into shared libraries should normally be position-independent code, so that the shared library can readily be loaded at (more or less) any address in memory. The -fPIC option ensures that GCC produces such code.

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    Why wouldn't a shared library be loaded at any address in memory without having the -fPIC flag on? is it not linked to the program? when the program is running, the operating system uploads it to memory. Am I missing something? Oct 9, 2018 at 23:13
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    Is the -fPIC flag used, to ensure this lib can be loaded to any virtual address in the process that is linking it? sorry for double comments 5 minutes elapsed can't edit previous one. Oct 9, 2018 at 23:20
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    Distinguish between building the shared library (creating libwotnot.so) and linking with it (-lwotnot). While linking, you don't need to fuss about -fPIC. It used to be the case that when building the shared library, you needed to ensure -fPIC was used for all the object files to be built into the shared library. The rules may have changed because compilers build with PIC code by default, these days. So, what was critical 20 years ago, and might have been important 7 years ago, is less important these days, I believe. Addresses outside the o/s kernel are 'always' virtual addresses'. Oct 9, 2018 at 23:27
  • So previously you had to add the -fPIC. Without passing this flag, the generated code when building the .so needs to be loaded to specific virtual addresses that might be in use? Oct 9, 2018 at 23:34
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    Yes, because if you didn't use the PIC flag, the code wasn't reliably relocatable. Things like ASLR (address space layout randomization) aren't possible if the code is not PIC (or, at least, are so hard to achieve that they are effectively impossible). Oct 9, 2018 at 23:37

Adding further...

Every process has same virtual address space (If randomization of virtual address is stopped by using a flag in linux OS) (For more details Disable and re-enable address space layout randomization only for myself)

So if its one exe with no shared linking (Hypothetical scenario), then we can always give same virtual address to same asm instruction without any harm.

But when we want to link shared object to the exe, then we are not sure of the start address assigned to shared object as it will depend upon the order the shared objects were linked.That being said, asm instruction inside .so will always have different virtual address depending upon the process its linking to.

So one process can give start address to .so as 0x45678910 in its own virtual space and other process at the same time can give start address of 0x12131415 and if they do not use relative addressing, .so will not work at all.

So they always have to use the relative addressing mode and hence fpic option.

  • 1
    Thanks for the virtual addr explanation.
    – Hot.PxL
    Dec 22, 2014 at 7:59
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    Can anyone explain how this is not a problem with a static library, why you don't have to use -fPIC on a static library? I understand that the linking is done in compile time (or right after actually), but if you have 2 static libraries with position dependent code, how are they going to be linked?
    – Michael P
    Apr 20, 2016 at 23:12
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    @MichaelP object file has a table of position depended labels and when particular obj file is linked all labels are updated accordingly. This cannot be done to shared library.
    – Slava
    Jan 18, 2017 at 17:54

A minor addition to the answers already posted: object files not compiled to be position independent are relocatable; they contain relocation table entries.

These entries allow the loader (that bit of code that loads a program into memory) to rewrite the absolute addresses to adjust for the actual load address in the virtual address space.

An operating system will try to share a single copy of a "shared object library" loaded into memory with all the programs that are linked to that same shared object library.

Since the code address space (unlike sections of the data space) need not be contiguous, and because most programs that link to a specific library have a fairly fixed library dependency tree, this succeeds most of the time. In those rare cases where there is a discrepancy, yes, it may be necessary to have two or more copies of a shared object library in memory.

Obviously, any attempt to randomize the load address of a library between programs and/or program instances (so as to reduce the possibility of creating an exploitable pattern) will make such cases common, not rare, so where a system has enabled this capability, one should make every attempt to compile all shared object libraries to be position independent.

Since calls into these libraries from the body of the main program will also be made relocatable, this makes it much less likely that a shared library will have to be copied.

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