I am learning assembly and low-level programming itself and reading a book about it. It is said there that we can put any data inside the .text section of an elf file but of course we can't mutate it because of different permissions of pages/segments. But it was not told there, what was the reason for it, for having data inside .text section. I was also told by many C++ programmers that g++ compiler puts

static const char DATA[] = "SOME DATA";

inside the .text section too. I wonder, why not to put this data inside .rodata section, what is the purpose? And if .text is used, what to store in the .rodata then?

The main question is about this behaviour in long mode.

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    I tried it and g++ put DATA in .rodata. – melpomene Jun 26 '18 at 12:04
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    But it is stored in .rodata. – Sombrero Chicken Jun 26 '18 at 12:04
  • "I was also told by many C++ programmers" [citation needed] – melpomene Jun 26 '18 at 12:10
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    @VictorPolevoy No, I think your tags are fine. – melpomene Jun 26 '18 at 12:16
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    Also, if you're writing for a system where code can be executed directly from ROM chips, like in some MCUs, or older (read retro) systems, you won't need to copy the data to RAM to use it. – Thomas Jager Jun 26 '18 at 12:36

Traditionally, read-only data was placed in the text section for two reasons:

  • the text section is not writable, so memory protection can catch accidental writes to read-only data and make your program crash instead
  • with a memory-management unit (MMU), multiple instances of the same process can share one copy of the text section (as its guaranteed to be the same in all instances of the program), saving memory

On ELF targets, this scheme was modified a bit. Read-only data is now placed in the new .rodata section which is like the .text section except it also cannot be executed, preventing certain attack vectors. The advantages remain.

  • Also when building binaries for persistent memory chips (ROM/...), the ".data" are usually in volatile DRAM, which is damaged when power is lost, and often on embedded systems both ".text" and ".rodata" are effectively the same section. On some platforms also constants are interleaved between code directly to allow for simple relative addressing against instruction pointer, having them in ".rodata" could introduce extra pointer if it would be not at fixed relative offset from ".text", and some platforms like short offsets for encoding. (plus cache locality may boost performance). – Ped7g Jun 26 '18 at 12:53
  • I.e. the question ".rodata" vs ".text" is quite subtle, and mostly "because it has some minor advantages on modern platforms in terms of protection", but they are very similar... if the question would be "why read-only, why not .data and just initialize them", it would be much simpler and less subtle to answer that... :) – Ped7g Jun 26 '18 at 12:57
  • The .rodata section is part of the text segment, and is part of the same mapping at run-time. (So it is executable.) That's why putting machine code in a string literal like L"\xf33f048d\xc3c0520f" still works without -zexecstack. Hmm, I checked with readelf -a /bin/ls, though, and the section didn't have the X flag. But in practice it ends up in the same mapping with executable code. – Peter Cordes Jun 26 '18 at 20:08
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    There does seem to be a r-- mapping as well as the r-x (text) and rw- (data) mappings in compiler output from throwing that code-golf hack into a file. But the string literal is in the same mapping as main, so it is executable. (I set a breakpoint and single-stepped). Oh, I think that's something else; the first 4 bytes of the page are 127 '\177' 69 'E' 76 'L' 70 'F', so it's probably some metadata. IDK if they could have put .rodata into this segment. – Peter Cordes Jun 26 '18 at 21:24
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    Update on this: a recent version of ld changed to linking .rodata into its own non-executable ELF segment, so const char code[] = { 0xc3 }; no longer works when cast to a function pointer, without -zexecstack. It did used to "just work" to put machine code in a const array or string literal. – Peter Cordes May 22 at 13:36

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