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I built an executable for a simple program, by statically linking libc library, in x86 arch. The relocation table for that executable is empty as expected:

$ readelf -r test
There are no relocations in this file.

While when I built an executable for the same program, by statically linking libc library, in x86_64 arch, the relocation table is not empty:

$ readelf -r test

Relocation section '.rela.plt' at offset 0x1d8 contains 12 entries:

  Offset          Info           Type           Sym. Value    Sym. Name + Addend
0000006c2058  000000000025 R_X86_64_IRELATIV                    000000000042de70
0000006c2050  000000000025 R_X86_64_IRELATIV                    00000000004829d0
0000006c2048  000000000025 R_X86_64_IRELATIV                    000000000042dfe0
0000006c2040  000000000025 R_X86_64_IRELATIV                    000000000040a330
0000006c2038  000000000025 R_X86_64_IRELATIV                    0000000000432520
0000006c2030  000000000025 R_X86_64_IRELATIV                    0000000000409ef0
0000006c2028  000000000025 R_X86_64_IRELATIV                    0000000000445ca0
0000006c2020  000000000025 R_X86_64_IRELATIV                    0000000000437f40
0000006c2018  000000000025 R_X86_64_IRELATIV                    00000000004323b0
0000006c2010  000000000025 R_X86_64_IRELATIV                    0000000000430540
0000006c2008  000000000025 R_X86_64_IRELATIV                    0000000000430210
0000006c2000  000000000025 R_X86_64_IRELATIV                    0000000000432400

I googled up relocation type "R_X86_64_IRELATIV" but I could find any info about it. So can someone please tell me what does it mean?

I thought if I debug the executable with gdb I might find an answer. But rather it actually brought up lot of questions :) Here is my bit of analysis:

The Sym.Name field in the above table lists the virtual address of some libc functions. When I objdump'd executable 'test' I found virtual address 0x430210 contains strcpy function. While on loading the corresponding PLT entry found at location 0x6c2008 gets changed from 0x400326 (virtual addr of next instruction ie)setting up the resolver) to 0x0x443cc0 (virtual addr of a libc function named __strcpy_sse2_unaligned) I dont why it gets resolved to a different function instead of strcpy? I assume its a different variant of strcpy.

Having done this analysis I realized I missed the basic point upfront "How come dynamic linker can come into picture when loading a static executable?" I dont find a .interp section so dynamic linker is not involved for sure. Then I observed, a libc function "__libc_csu_irel()" modifies the PLT entries and NOT dynamic linker.

If my analysis makes more sense to anyone, please let me know whats it all about. I would be happy to know the reasons behind it.

Thanks a lot!!!

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I think the relocation type has something to do with building position-independent code (it means "relative to instruction pointer" or something like that). I'd have to do some more experimentation. – Drew McGowen Jul 1 '13 at 14:55
Ya I too agree its gotto do something with "relative to inst pointer". But I cant draw a line using that, if you come to know about it, please share!! Thanks!! – Bala Jul 2 '13 at 7:00

You can take a look at the "System V Application Binary Interface AMD64 Architecture Processor Supplement" - I found it under

If you go to the the relocation section (4.4) you'll find the documentation for this RLD type and also an explanation of the calculation method

R_X86_64_IRELATIVE 37 wordclass indirect (B + A)


  • wordclass specifies word64 for LP64 and specifies word32 for ILP32.
  • A Represents the addend used to compute the value of the relocatable field.
  • B Represents the base address at which a shared object has been loaded into memory during execution. Generally, a shared object is built with a 0 base virtual address, but the execution address will be different.

goodluck - BTW thank you for the great post at sploitfun ;-)

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