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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?

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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.

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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.

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    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, 2017 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, 2018 at 14:16

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