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This question already has an answer here:

I read this post on PIC and it seems that it always be good to use PIC (whenever it is exe / static / share llibrary).

So what are the disadvantages?
Are there examples elaborating when not to use PIC?

marked as duplicate by phuclv, Nawaz c++ Jul 10 '15 at 5:43

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    PIC generally can't be used in Windows because DLL addresses are fixed during load time. Moreover in x86 PIC is not as efficient as in x86_64 – phuclv Jul 10 '15 at 4:32
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The accepted answer in the linked question is very simplistic, and only brings up one thing that differs between PIC and non-PIC code, generation of jumps that are relative instead of absolute.

When you make PIC code, it's not only the code that's position independent, it's the data as well. And not all code or data can be addressed simply by using relative offsets, it has to be resolved at load-time (when the library/program is loaded into memory) or even during run-time.

Also, using relative addressing means that the CPU have to translate the relative offsets into absolute addresses, instead of it being done by the compiler.

On system with virtual memory there's often no need to spend load- or run-time on these relative address resolutions when the compiler can do it once and for all.

  • Is there a situation of using -fpic, or not using fpic that the program will crash ? (does the compiler generate suitable machine code for both cases ?) – Azil Jul 10 '15 at 4:38
  • @Azil: It does generate the proper code. If you're building a shared library (.so, .dll), you must use PIC, it doesn't work otherwise. Some machines like the Amiga for example had all code being PIC due to their architecture, but then those were running on real CPUs (68k) that didn't suffer from it. ;-) – DevSolar Jul 10 '15 at 4:54
  • So, building so (dll) without PIC - always give compilation error ? – Azil Jul 10 '15 at 5:03
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    @Azil Maybe not compiler error, because the compiler doesn't actually know that you're building a DLL, however you will most likely get linker errors. – Some programmer dude Jul 10 '15 at 6:06
  • @JoachimPileborg: Well, MSVC gets <ConfigurationType>DynamicLibrary<...> as a hint, and GCC gets -shared, at least if you're doing it right. ;-) – DevSolar Jul 10 '15 at 13:43
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On some architectures, including x86, -fPIC generates much worse code (i.e. a function call) for loads/stores of data. While this is tolerable for libraries, it is undesirable for executables.

One of the major selling points of the amd64 instruction set (and also the recent gnu-x32 ABI) was the addition of "PC-relative load/store" instructions, which solve the efficiency problem.

Note that hardened systems usually do enable -fPIE for all executables, because it allows address-space layout randomness.

  • It's not comparable to a function call, but it takes up a register. – DevSolar Jul 10 '15 at 4:38
  • @DevSolar uh, it definitely requires a function call (although it may cache it in a register after the first time obviously). It shows up in disassembly with names like __x86.get_pc_thunk.cx, obviously the register varies depending on what is currently in use. – o11c Jul 10 '15 at 11:29
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    Ah... we mean the same thing. The "function call" is a trick to get the address of the offset table into a register. Keeping it cached takes up a register (as I said), not caching it makes data access require a function call (as you said). It should be noted that this is one of the typical "ugly bits" of the x86 architecture; most if not all other CPU families allowed proper PC-relative addressing back in the 1980's... – DevSolar Jul 10 '15 at 13:35

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