I'm studying the ELF file format, so I compiled a small program, dumped the section headers and their contents from the resulting executable.

The ELF header contains the entry point address, which points into start of the .text section.

I also found the .data section that contains the static data and .rodata that contains the read only data... I expect there is a section for the stack too, but I can't find that section.

I also expect that at some point ESP is set to the top of some section but I can't find anything like that in the disassembly.

So how does ESP gets its initial value?


The following figure describes the memory map of a typical C ELF executable on x86.

 Memory map of an C ELF executable on x86

  • The process loads the .text and .data sections at the base address.

  • The main-stack is located just below and grows downwards.

  • Each thread and function-call will have its own-stack.
    This is located located below the main-stack.

  • Each stack is separated by a guard page to detect Stack-Overflow.

Hence one does NOT need a dedicated stack section in the ELF file.

However within the man pages for ELF, one does find a couple of things in an ELF file that control the stack attributes. Mainly the executable permissions to the stack in memory.

    GNU extension which is used by the Linux kernel to control the state of the stack via the flags set in the p_flags member.

  2. .note.GNU-stack
    This section is used in Linux object files for declaring stack attributes. This section is of type SHT_PROGBITS. The only attribute used is SHF_EXECINSTR. This indicates to the GNU linker that the object file requires an executable stack.

  • So base address == entry point address? So stack grow downwards from that 0x08040000 address? It seems it's at a higher address on that image. – Calmarius Aug 16 '13 at 20:08
  • No. The entry-point points to somewhere within the .text and has nothing to do with the stack. – TheCodeArtist Aug 16 '13 at 23:36
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    So to sum up, when I'm writing my linker for my pet language (that makes the ELF file), I don't need to worry about the stack because the loader will allocate it and initializes the ESP for me, isn't it? – Calmarius Aug 17 '13 at 13:15
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    Yes. The loader does it. Checkout this article that describes the steps the Linux ELF loader undertakes to load an executable into memory. – TheCodeArtist Aug 17 '13 at 13:24

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