Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I wonder if it's possible for a linux process to call code located in the memory of another process?

Let's say we have a function f() in process A and we want process B to call it. What I thought about is using mmap with MAP_SHARED and PROT_EXEC flags to map the memory containing the function code and pass the pointer to B, assuming, that f() will not call any other function from A binary. Will it ever work? If yes, then how do I determine the size of f() in memory?

=== EDIT ===

I know, that shared libraries will do exactly that, but I wonder if it's possible to dynamically share code between processes.

share|improve this question
4  
Not directly. Either use dynamic libraries or RPC. –  Joachim Pileborg Feb 27 '13 at 14:13
    
That's exactly what libraries are for. Depending on what you are going to accomplish, IPC might do too. –  KBart Feb 27 '13 at 14:16
    
Is the code you want to share generated by a compiler, or generated by your program? –  ams Feb 27 '13 at 14:22
    
By the compiler. –  Zbigh1 Feb 27 '13 at 14:25
    
How can you be sure that f is not calling any other function? (The compiler do insert some calls even when your source code don't have any apparent call). –  Basile Starynkevitch Feb 27 '13 at 14:26

3 Answers 3

The standard approach is to put the code of f() in a shared library libfoo.so. Then you could either link to that library (e.g. by building program A with gcc -Wall a.c -lfoo -o a.bin), or load it dynamically (e.g. in program B) using dlopen(3) then retrieving the address of f using dlsym.

When you compile a shared library you want to :

  • compile each source file foo1.c with gcc -Wall -fPIC -c foo1.c -o foo1.pic.o into position independent code, and likewise for foo2.c into foo2.pic.o
  • link all of them into libfoo.so with gcc -Wall -shared foo*.pic.o -o libfoo.so ; notice that you can link additional shared libraries into lbfoo.so (e.g. by appending -lm to the linking command)

See also the Program Library Howto.

You could play insane tricks by  mmap-ing some other /proc/1234/mem but that is not reasonable at all. Use shared libraries.

PS. you can dlopen a big lot (hundreds of thousands) of shared objects lib*.sofiles; you may want to dlclosethem (but practically you don't have to).

share|improve this answer

Yes, you can do that, but the first process must have first created the shared memory via mmap and either a memory-mapped file, or a shared area created with shm_open.

If you are sharing compiled code then that's what shared libraries were created for. You can link against them in the ordinary way and the sharing will happen automatically, or you can load them manually using dlopen (e.g. for a plugin).


Update:

As the code has been generated by a compiler then you will have relocations to worry about. The compiler does not produce code that will Just Work anywhere. It expects that the .data section is in a certain place, and that the .bss section has been zeroed. The GOT will need to be populated. Any static constructors will have to be called.

In short, what you want is probably dlopen. This system allows you to open a shared library like it was a file, and then extract function pointers by name. Each program that dlopens the library will share the code sections, thus saving memory, but each will have its own copy of the data section, so they do not interfere with each other.

Beware that you need to compile your library code with -fPIC or else you won't get any code sharing either (actually, the linkers and dynamic loaders for many architectures probably don't support libraries that aren't PIC anyway).

share|improve this answer
    
I actually have never tried running code from mmaped memory.. does it really work? How about permissions? –  KBart Feb 27 '13 at 14:18
    
@KBart: Is should work as long as the PROT_EXEC permission is set. Not all architectures will support that flag, of course, but in most of those cases you can't stop it working. –  ams Feb 27 '13 at 14:20
    
That's nice. Could you give a little example maybe? I believe that's exactly what this question is about anyway. –  KBart Feb 27 '13 at 14:22
    
An example would take more time to get right than I have. :( –  ams Feb 27 '13 at 14:23
    
+1 anyway for new use of shm discovered..;) –  KBart Feb 27 '13 at 14:25

It would be possible to do so, but that's exactly what shared libraries are for.

Also, beware that you need to check that the address of the shared memory is the same for both processes, otherwise any references that are "absolute" (that is, a pointer to something in the shared code). And like with shared libaries, the bitness of the code will have to be the same, and as with all shared memory, you need to make sure that you don't "mess up" for the other process if you modify any of the shared memory.

Determining the size of a function ranges from "hard" to "nearly impossible", depending on the actual code generated, and the level of information you have available. Debug symbols will have the size of a function, but beware that I have seen compilers generate code where two functions share the same "return" piece of code (that is, the compiler generates a jump to another function that has the same bit of code to return the result, because it saves a few bytes of code, and there was already going to be a jump anyway [e.g. there is a if/else that the compiler has to jump around]).

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.