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I'd like to write a very small proof-of-concept JIT compiler for a toy language processor I've written (purely academic), but I'm having some trouble in the middle-altitudes of design. Conceptually, I'm familiar with how JIT works - you compile bytecode into (machine or assembly?) code to run. At the nuts-and-bolts level however, I'm not quite gripping how you actually go about doing that.

My (very "newb") knee-jerk reaction, since I haven't the first clue where to start, would be to try something like the following:

  1. mmap() a block of memory, setting access to PROT_EXEC
  2. write the native code into the block
  3. store the current registers (stack pointer, et al.) someplace cozy
  4. modify the current registers to point into the native code block in the mapped region
  5. the native code would now get executed by the machine
  6. restore the previous registers

Is that even close to a/the correct algorithm? I've tried perusing different projects that I know have JIT compilers to study (such as V8) but these codebases turn out to be difficult to consume because of their size, and I've little idea where to start looking.

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You can probably simplify things further: you can often just take the starting address of your code within the mmap'ed block and cast it to a function pointer. In that case, the code would need to save and restore its own registers and such. You would want to look at the calling conventions in your platforms ABI (Application Binary Interface) for exactly what you need to save (and how to get arguments from C code, call C functions, etc.). –  Jeremiah Willcock Feb 6 '11 at 6:54
Not that I have that much experience with this, but you might way to check out PiPi's python interpreter. I've looked through the CPython interpreter and it's pretty good to read. –  Falmarri Feb 6 '11 at 7:21
Really good question Chris! –  jweyrich Feb 6 '11 at 10:09
mmap to PROT_EXEC will probably not work. I don't believe current versions of Linux allow any memory to be both writable and executable at the same time. You need to map it writable, write it, then map it executable. Or so I believe. –  Zan Lynx Feb 7 '11 at 23:13
Not that you're targeting non-x86, but beware that self modifying code (or on-the-fly generated code) requires explicit cache synchronization on other platforms. It's pretty much just x86 which does it transparently (which means loads of silicon). Just call msync() on the buffer after finishing writing and before executing it. –  John Ripley Feb 8 '11 at 2:35

7 Answers 7

up vote 16 down vote accepted

Not sure about linux, but this works on x86/windows.
Update: http://codepad.org/sQoF6kR8

#include <stdio.h>
#include <windows.h>

typedef unsigned char byte;

int arg1;
int arg2;
int res1;

typedef void (*pfunc)(void);

union funcptr {
  pfunc x;
  byte* y;

int main( void ) {

  byte* buf = (byte*)VirtualAllocEx( GetCurrentProcess(), 0, 1<<16, MEM_COMMIT, PAGE_EXECUTE_READWRITE );

  if( buf==0 ) return 0;

  byte* p = buf;

  *p++ = 0x50; // push eax
  *p++ = 0x52; // push edx

  *p++ = 0xA1; // mov eax, [arg2]
  (int*&)p[0] = &arg2; p+=sizeof(int*);

  *p++ = 0x92; // xchg edx,eax

  *p++ = 0xA1; // mov eax, [arg1]
  (int*&)p[0] = &arg1; p+=sizeof(int*);

  *p++ = 0xF7; *p++ = 0xEA; // imul edx

  *p++ = 0xA3; // mov [res1],eax
  (int*&)p[0] = &res1; p+=sizeof(int*);

  *p++ = 0x5A; // pop edx
  *p++ = 0x58; // pop eax
  *p++ = 0xC3; // ret

  funcptr func;
  func.y = buf;

  arg1 = 123; arg2 = 321; res1 = 0;

  func.x(); // call generated code

  printf( "arg1=%i arg2=%i arg1*arg2=%i func(arg1,arg2)=%i\n", arg1,arg2,arg1*arg2,res1 );

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Did you test it? Because Windows has DEP to prevent exactly this, and it yields an access violation for me. –  Puppy Feb 6 '11 at 10:13
buf needs to be marked with read/write/execute privileges to run correctly with DEP, either through a custom section, pragma defined rules or VirtualAlloc(Ex) –  Necrolis Feb 6 '11 at 10:30
@Shelwien: It was most definitely not portable before, since most modern OS's would not accept execution of the stack. –  Puppy Feb 6 '11 at 11:23
the buffer wasn't on stack; also it worked on codepad. –  Shelwien Feb 6 '11 at 11:30
Thanks for the great example! I very nearly didn't catch that funcptr was a union at first - after that it made perfect sense. –  Chris Feb 6 '11 at 16:27

Youmay want to have a look at libjit which provides exactly the infrastructure you're looking for:

The libjit library implements just-in-time compilation functionality. Unlike other JITs, this one is designed to be independent of any particular virtual machine bytecode format or language.


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Interesting find. This may well be useful if I decide I ever actually want to implement a non-trivial JIT. –  Chris Feb 6 '11 at 16:31

The Android Dalvik JIT compiler might also be worth looking at. It is supposed to be fairly small and lean (not sure if this helps understanding it or makes things more complicated). It targets Linux as well.

If things are getting more serious, looking at LLVM might be a good choice as well.

The function pointer approach suggested by Jeremiah sounds good. You may want to use the caller's stack anyway and there will probably only be a few registers left (on x86) which you need to preserve or not touch. In this case, it is probably easiest if your compiled code (or the entry stub) saves them on the stack before proceeding. In the end, it all boils down to writing an assembler function and interfacing to it from C.

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Great suggestion - thanks! –  Chris Feb 6 '11 at 16:30

The answer depends on your compiler and where you put the code. See http://encode.ru/threads/1273-Just-In-Time-Compilation-Improvement-For-ZPAQ?p=24902&posted=1#post24902

Testing in 32 bit Vista, Visual C++ gives a DEP (data execution prevention) error whether the code is put on the stack, heap, or static memory. g++, Borland, and Mars can be made to work sometimes. Data accessed by the JIT code needs to be declared volatile.

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Great point, about declaring the backing as volatile! +1 –  Chris Apr 15 '11 at 1:20

How to JIT - an introduction is a new article (from today!) that addresses some of these issues and describes the bigger picture as well.

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In addition to the techniques suggested so far, it might be worthwhile to look into the thread creation functions. If you create a new thread, with the starting address set to your generated code, you know for sure that there are no old registers that need saving or restoring, and the OS handles the setup of the relevant registers for you. I.e you eliminate steps 3, 4 and 6 of your list.

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The only thing I would hesitate on here is that with threads, you then have to deal with synchronization, et al. - otherwise (if synchronization can be ignored and/or deferred) that's a pretty clever idea. –  Chris Feb 7 '11 at 17:20

You may be interested in why the lucky stiff's Potion programming language. It's a small, incomplete language that features just-in-time compilation. Potion's small size makes it easier to understand. The repository includes a description of the language's internals (JIT content starts at heading "~ the jit ~").

The implementation is complicated by the fact it runs in the context of Potion's VM. Don't let this scare you off, though. It doesn't take long to see what he's up to. Basically, using a small set of VM opcodes allows some actions to be modeled as optimized assembly.

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