I want to make a simple just-in-time compiler with c on Linux.

How can I allocate memory such that I can write out raw x86 code to it and execute it as any other function?


See mprotect(). Once you have filled a (n-)page-sized memory region (allocated with mmap()) with code, change its permissions to disallow writes and allow execution.


In addition to using mprotect correctly to provide first write and then execute permission, on some OS/hardware operations you may need to flush the I-cache. At this moment (mid-2010), all recent x86 processors have separate level 1 caches for instructions and data, and somebody has to make sure that if you write new instructions into memory (which will update the D-cache), you don't then try to execute stale bits from the I-cache. Exactly how to flush the I-cache from userspace will depend on both your hardware and the OS. My advice would be to read Intel's documentation on "self-modifying code" for their IA-32 multiprocessors. This should be enough to get you through.

  • 2
    x86 doesn't need this; x86 ISA rules require I-cache to be coherent with data caches, and at most a jmp is required before newly-written bytes are "seen". But good point because other architectures don't have coherent I-cache. Nov 27 '17 at 12:03
  • But fun fact, you do still need gcc's __builtin___clear_cache on x86 if storing into a buffer and then casting it to a function pointer, otherwise gcc optimizes away the stores as being dead stores. See The repetitive byte counter for an example. Oct 9 '18 at 14:16

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